Download Postgraduate Course Syllabus

Washington Hilton
October 8, 2015
Washington, DC
SYLLABUS
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1
NASPGHAN assumes no responsibility for any use or operation of any method, product, instruction, concept or
idea contained in the material herein or for any injury or damage to persons or property (whether products
liability, negligence or otherwise) resulting from such use or operation.
The discussion, views, and recommendations as to medical procedures, choice of drugs and drug dosages herein
are the sole responsibility of the authors. Because of rapid advances in the medical sciences, the Society
cautions that independent verification should be made of diagnosis and drug dosages. The reader is solely
responsible for the conduct of any suggested test or procedure.
Some of the slides reproduced in this syllabus contain animation in the power point version. This cannot be seen
in the printed version.
Table of Contents MODULE 1: NUTRITION OBESITY AND THE MICROBIOME 11 REDEFINING MALNUTRITION IN THE 21ST CENTURY 21 MANAGEMENT OF FOOD ALLERGIES AND FPIES 35 MODULE 2: ENDOSCOPY UPDATES ON CAUSTIC INGESTIONS 46 UPDATES ON FOREIGN BODY INGESTIONS 56 THE PROBLEMATIC POLYP 64 MODULE 3: GI POTPOURRI CLOSTRIDIUM DIFFICILE: DIFFICULT BUT NOT IMPOSSIBLE 75 GLUTEN SENSITIVITY: SURELY A SENSITIVE, BUT PERHAPS NOT A GLUTEN, SUBJECT 86 MEDICAL MANAGEMENT OF REFRACTORY ABDOMINAL PAIN 97 NAUSEA: UPDATES THAT WON’T MAKE YOU SICK 114 MODULE 4: LIVER/PANCREAS NEW HORIZONS IN HEPATITIS C 128 RENAL COMPLICATIONS OF CHRONIC LIVER DISEASE 139 AN UPDATE ON WILSON’S DISEASE 147 BLAME THE GENES? FAMILIAL AND AUTOIMMUNE PANCREATITIS IN CHILDREN 157 MODULE 5: INTESTINAL INFLAMMATION GETTING TO THE BOTTOM OF PERIANAL CROHN’S DISEASE 168 “IT’S ALL ABOUT THAT POUCH, 'BOUT THAT POUCH, NO COLON”: 179 EVALUATION AND MANAGEMENT OF COMPLICATIONS POST ILEAL POUCH ANAL ANASTOMOSIS COMMUNICATING THE BENEFITS AND RISKS OF IBD THERAPY TO PATIENTS AND FAMILIES 192 FACULTY
NASPGHAN POSTGRADUATE COURSE
Course Directors:
Melanie Greifer MD
Assistant Professor of Pediatrics
New York University School of Medicine
Division of Pediatric Gastroenterology and
Nutrition
NYU Langone Medical Center
New York, NY
Jennifer Strople MD, MS
Assistant Professor of Pediatrics
Northwestern University Feinberg School of
Medicine
Clinical Director, Inflammatory Bowel Disease
Program
Ann & Robert H. Lurie Children's Hospital of
Chicago
Chicago, IL
Faculty:
Carlo Di Lorenzo MD
Chief, Division of Pediatric Gastroenterology,
Hepatology and Nutrition
Nationwide Children's Hospital
Professor of Clinical Pediatrics
The Ohio State University College of Medicine
Columbus, OH
Stacy A. Kahn MD
Assistant Professor of Pediatrics and Medicine
Pediatric Gastroenterology, Hepatology, &
Nutrition
Director, Transitional IBD Clinic
The University of Chicago Medicine
Chicago, IL
Praveen Goday MBBS
Professor
Medical College of Wisconsin
Division Pediatric GI, Hepatology & Nutrition
Milwaukee, WI
Robert E. Kramer MD, FASGE
Co-Medical Director DHI/ Director of Endoscopy
Associate Professor of Pediatrics
Digestive Health Institute
Children’s Hospital Colorado/ University of
Colorado
Denver, CO
Stefano Guandalini MD
Professor and Chief
Section of Pediatric Gastroenterology
University of Chicago
Founder and Medical Director, Celiac Disease
Center
Chicago, IL
Daniel H. Leung MD
Assistant Professor of Pediatrics
Baylor College of Medicine
Division of Gastroenterology, Hepatology, and
Nutrition
Texas Children's Liver Center
Medical Director, Viral Hepatitis Clinic
Houston, TX
Simon Horslen MB, ChB, FRCPCH
Director - Hepatobiliary Program
Medical Director - Liver & Intestine
Transplantation
Seattle Children's Hospital
Professor - Department of Pediatrics
University of Washington School of Medicine
Seattle, WA
Petar Mamula MD
The Children's Hospital of Philadelphia
Division of GI & Nutrition
Philadelphia, PA
Mark McOmber MD
Phoenix Children's Hospital
Pediatric GI & Nutrition
Phoenix, AZ
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Adrian Miranda MD
Associate Professor of Pediatrics
Section of Pediatric Gastroenterology,
Hepatology and Nutrition
Children’s Hospital of Wisconsin
Medical College of Wisconsin
Milwaukee, WI
Maria Oliva-Hemker MD
Stermer Family Professor of Pediatric
Inflammatory Bowel Disease
Director, Division of Pediatric Gastroenterology
and Nutrition
Johns Hopkins University School of Medicine
Baltimore, MD
Jean P Molleston MD
Indiana University/Riley Hospital for Children
Indianapolis, IN
Joel R. Rosh MD
Director, Pediatric Gastroenterology
Vice Chairman, Clinical Development and
Research Affairs
Goryeb Children's Hospital/Atlantic Health,
Morristown, NJ
Véronique Morinville MD
Director, Training Program
Division of Pediatric Gastroenterology and
Nutrition
Montreal Children's Hospital
Assistant Professor of Pediatrics
McGill University
Montreal, QC, Canada
Hugh A. Sampson MD
Kurt Hirschhorn Professor of Pediatrics
Dean for Translational Biomedical Sciences
Director, Conduits (Mount Sinai’s CTSA
Program)
Director, Jaffe Food Allergy Institute
Department of Pediatrics
Icahn School of Medicine at Mount Sinai
New York, NY
Marialena Mouzaki MD, MSc
Hospital for Sick Children
University of Toronto
Division of GI, Hepatology and Nutrition
Toronto, ON
Corey A. Siegel MD, MS
Associate Professor of Medicine, Geisel School
of Medicine at Dartmouth
Director, IBD Center, Dartmouth-Hitchcock
Medical Center
Lebanon, NH
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Continuing Medical Education
NASPGHAN CME Mission Statement
The education mission of the North American Society for Pediatric Gastroenterology, Hepatology and
Nutrition is to:
1) Advance understanding of normal development, physiology and pathophysiology of diseases of
the gastrointestinal tract, liver and nutrition in children
2) Improve professional competence, quality of care, and patient outcomes by disseminating
knowledge through scientific meetings, professional and public education.
Our activities, education, and interventions will strive to use Adult Learning Methods (ALM) designed to
improve competence, practice performance, and patient outcomes in measurable ways. These
educational activities will be targeted to board certified or board eligible pediatric gastroenterologists,
physicians with an expertise in pediatric gastroenterology, hepatology and nutrition, subspecialty
fellows in pediatric gastroenterology, and nurses specializing in pediatric gastroenterology, hepatology
and nutrition.
Physicians
The North American Society for Pediatric Gastroenterology, Hepatology and Nutrition (NASPGHAN) is
accredited by the Accreditation Council for Continuing Medical Education to provide continuing medical
education for physicians.
AMA PRA Statement
NASPGHAN designates this educational activity for a maximum of 8.25 AMA PRA Category 1 Credit(s)TM
Physicians should only claim credit commensurate with the extent of their participation in the activity.
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Thursday, October 8, 2015
Postgraduate Course - “Updates for the Practitioner”
Course Directors: Melanie Greifer MD and Jennifer Strople MD
7:55AM – 8:00AM
Welcome and Introduction
Melanie Greifer MD
8:00AM - 9:15AM
MODULE 1: NUTRITION
Moderators: Melanie Greifer MD and Elizabeth Yu MD
Obesity and the microbiome
Marialena Mouzaki MD, The Hospital for Sick Children
Learning objectives:
1. Understand the microbiota in obesity
2. Learn how dietary composition and caloric intake regulate the microbiota
3. Know the effect of the microbiota on the complications of obesity such as metabolic syndrome
Redefining malnutrition in the 21st century
Praveen Goday, MBBS, Children’s Hospital of Wisconsin
Learning objectives:
1. Discuss the new definitions for malnutrition
2. Identify patient populations with malnutrition that are likely to be seen by the pediatric
gastroenterologist
3. Discuss the management of different sub-populations with malnutrition
Management of food allergies and FPIES
Hugh Sampson MD, Icahn School of Medicine at Mount Sinai
Learning objectives:
1. Discuss factors that may account for the rise in food allergies
2. Recognize various forms of food allergies including FPIES and other gastrointestinal food allergic
disorders
3. Diagnose and manage various forms of food allergies
9:00AM – 9:15AM
Rapid-Fire Q&A
9:15AM - 10:30AM
MODULE 2: ENDOSCOPY
Moderators: Melanie Greifer MD and Diana Riera MD
Updates on caustic ingestions
Mark McOmber MD, Phoenix Children’s Hospital
Learning objectives:
1. Know the timing and preparation of intervention
2. Learn the immediate post procedure management including reintroduction of feeds, NG tubes etc.
3. Understand the follow up and long term issues of ingestion including treatment of these issues
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Updates on foreign body ingestions
Robert Kramer MD, Children’s Hospital Colorado
Learning objectives:
1. Know the timing and preparation of interventions dependent on ingestion
2. Review management of glass and sharps
3. Know the most current updates on magnets/batteries and detergent pod ingestions
The problematic polyp
Petar Mamula MD, Children’s Hospital of Philadelphia
Learning objectives:
1. Review prerequisites for successful polypectomy
2. Discuss techniques for difficult polyps
3. Review polypectomy complications
10:15AM – 10:30AM
Rapid-Fire Q&A
10:30AM – 10:50AM
BREAK
10:50AM – 12:25PM
MODULE 3: GI POTPOURRI
Moderators: Chris Liacouras MD and Jennifer Strople MD
Clostridium Difficile: Difficult but not impossible
Stacy Kahn MD, University of Chicago Comer Children’s Hospital
Learning objectives:
1. Learn appropriate identification and testing for C. Difficile
2. Know the updates on medical management
3. Understand fecal transplantation and the ethics involved in its use
Gluten sensitivity: surely a sensitive, but perhaps not a gluten, subject
Stefano Guandalini MD, University of Chicago Comer Children’s Hospital
Learning objectives:
1. Define non-celiac gluten sensitivity
2. Understand the current uncertainties around gluten sensitivity
3. Know how to approach patients with suspected non-celiac gluten sensitivity
Medical management of refractory abdominal pain
Adrian Miranda MD, Children’s Hospital of Wisconsin
Learning objectives:
1. Understand the mechanisms of refractory abdominal pain
2. Identifying the patient with refractory abdominal pain
3. Know the available and current treatment options
Nausea: Updates that won’t make you sick
Carlo Di Lorenzo MD, Nationwide Children’s Hospital
Learning objectives:
1. Understand the differential diagnosis of children presenting with nausea as the predominant
symptom
2. Become familiar with the medical interventions with the potential of improving functional nausea
3. Become familiar with the non-medical interventions with the potential of improving functional
nausea
12:10PM – 12:25PM
Rapid-Fire Q&A
12:25PM – 1:50PM
LEARNING LUNCHES
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1.
Blurred lines: Where gastroenterology and allergy intersect
Moderator: Chris Liacouras
Hugh Sampson and Tiffani Hays
2.
The child swallowed what? Management of caustic and foreign body ingestions
Moderator: Deepali Tewari
Robert Kramer and Mark McOmber
3.
C. difficile meets its match: Approach to the complicated patient
Moderator: Sunpreet Kaur
Stacy Kahn and George Russell
4.
Gluten sensitivity, more than a fad: A case based discussion
Moderator: Kelly Thomsen
Stefano Guandalini, Hilary Jericho and Pamela A. Cureton
5.
Practical approach to treating the patient with persistent pain and nausea
Moderator: John Stutts
Adrian Miranda and Katja Kovacic
6.
Challenging liver disease cases
Moderator: Ritu Walia
Jean Molleston and Simon Horslen
7.
Viral hepatitis: When do you treat?
Moderator: Vicky Ng
Daniel Leung and Jessica Wen
8.
Perplexing cases in pancreatitis
Moderator: Deborah Neigut
Veronique Morinville and Soma Kumar
9.
Management of pouch and perianal complications
Moderator: Dinesh Pashankar
Maria Oliva-Hemker and Joel Rosh
1:50PM – 3:25PM
MODULE 4: LIVER/PANCREAS
Moderators: Melanie Greifer MD and Deborah Neigut MD
New horizons in hepatitis C
Daniel Leung MD, Texas Children’s Hospital
Learning objectives:
1. Understand the epidemiology, burden of disease, and natural history of HCV
2. Appreciate the rapidity and timeline of HCV drug development
3. Become familiar with clinical indications to treat and soon to be available all-oral treatment regimens
Renal complications of chronic liver disease
Jean Molleston MD, Riley Children’s Hospital
Learning objectives:
1. Define prevalence of renal complications in chronic liver disease
2. Review mechanisms of ascites and the role of the kidneys and diuretic use
3. Understand the role of electrolyte monitoring and fluid balance in cirrhosis
4. Review definition of hepatorenal syndrome and treatment recommendations, including use of
terlipressin
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cxAn update on Wilson’s Disease
Simon Horslen MD, Seattle Children’s Hospital
Learning objectives:
1. Review the clinical presentations in pediatric population and typical diagnostic evaluation
2. Understand genetics and patterns of inheritance to focus who should be screened
3. Understand treatment strategies and side effects of current and future therapies
Blame the genes? Familial and autoimmune pancreatitis in children
Veronique Morinville MD, Montreal Children's Hospital
Learning objectives:
1. Understand when to consider familial and autoimmune etiologies in a child presenting with
pancreatitis
2. Review the different genetic factors that may be involved in familial-type pancreatitis
3. Recognize factors implicated in autoimmune pancreatitis types 1 and 2 and what therapies may be
attempted
3:10PM – 3:25PM
Rapid-Fire Q&A
3:25PM – 3:45PM
BREAK
3:45PM – 5:00PM
MODULE 5: INFLAMMATORY BOWEL DISEASE
Moderators: Judith Kelsen MD and Jennifer Strople MD
Getting to the bottom of perianal Crohn’s disease
Maria Oliva-Hemker MD, Johns Hopkins University Medical Center
Learning objectives:
1. Review the classification systems for fistulizing disease
2. Understand the approach to initial diagnosis and assessment
3. Review surgical and medical therapy and role for each
“It’s all about that pouch, 'bout that pouch, no colon”: Evaluation and management of complications post
ileal pouch anal anastomosis
Joel Rosh MD, Goryeb Children’s Hospital
Learning objectives:
1. Review the data for evaluation, treatment and prevention of pouchitis
2. Understand other complications of IPAA
3. Review cancer screening /surveillance recommendations
Communicating the benefits and risks of IBD therapy to patients and families
Corey Siegel MD, Dartmouth-Hitchcock Medical Center
Learning objectives:
1. Review the risks of immunomodulators and biologics
2. Discuss decision making between anti-TNF monotherapy or combination therapy
3. Learn about tools that can be used to better communicate the benefits and risks of IBD therapy
4:45PM – 5:00PM
Rapid-Fire Q&A
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Obesity and intestinal
microbiome
Marialena Mouzaki, MD MSc
Hospital for Sick Children
University of Toronto
Disclosures
 Nothing to disclose
Learning Objectives
 Understand the microbiota in obesity
 Learn how dietary composition and caloric
intake regulate the microbiota
 Know the effects of the microbiota on the
complications of obesity, such as metabolic
syndrome
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Microbiota in obesity
Conventionally raised
Germ-free
Weight gain
ob/ob mice
Germ-free
obesity
Backhed et al. Proc Natl Acad Sci USA 2004;
Turnbaugh et al. Nature 2006
Microbiota in obesity
TWINS
Germ-free
Lean
Germ-free
Obese
Ridaura et al. Science 2013;
Vrieze et al Gastroenterol 2012;
Wendelsdorf NIH Research Matters 2013
How can the microbiota
contribute to obesity?
LL: FIAF
DNL: SREBP, ChREBP
FAO: AMPK
Gene
expression
Bile acids
SCFA
Appetite
Prebiotics & Probiotics 
increased GLP-1, PYY
CHO fermentation
SCFA  arcuate nucleus
Obesity
Energy
expenditure
Energy
extraction
Example:
Bacteria produce H2 which
is then used by Archea 
Acetate + H2  CH4+ CO2
12
Intestinal microbiota
composition in obesity
Study
n - population
Ley et al. 2006
Turnbaugh et al. 2009
17
14 (vs. 140)
Results
• Firmicutes/Bacteroidetes
• bacterial diversity
• Bacteroidetes
Verdam et al. 2013
28
• bacterial diversity
• Firmicutes/Bacteroidetes
Duncan et al. 2008
37
• No difference in Bacteroidetes or
Firmicutes
Jumpertz et al. 2011
21
• No difference in Bacteroidetes or
Firmicutes
Schwiertz et al. 2010
101
• Firmicutes/Bacteroidetes
Karlsson et al. 2012
40
• No difference in Bacteroidetes or
Firmicutes
Intestinal microbiota
composition in obesity
Bottom line and considerations:
 Results vary; decreased bacterial diversity is consistent
 Differences in methodology
 IM quantification
 Storage, timing of sample collection, etc.
Bahl et al. FEMS Microbiol Lett 2012;
Thaiss et al. Cell 2014
Intestinal microbiota
composition in obesity
Low bacterial
richness
High bacterial
richness
 Obesity
 Synthesis of organic
acids
 Pre-DM2, DM2
 Dyslipidemia
 Inflammation
 Synthesis of SCFA
 Methane production
Carisili et al. Curr Opin Clin Nutr Metab Care 2014
13
Effect of diet on intestinal
microbiota
 10 adults, ages 21-33, BMI range 19-32
 Placed on either diet x 5 days
 Observed x4 days pre and 6 days post
Plant-based diet
Animal-based diet
Similar intakes
No weight change
Weight loss by day 3
Bilophila wadsworthia,
Alistipes putredinis, Bacteroides
Prevotella genus*
David et al. Nature 2014
Effect of diet on bacterial
metabolism & gene expression
Fecal SCFA correlate with diet
Diet alters microbial gene expression
• Acetate, butyrate
• Gluconeogenesis, glycolysis
• Isovalerate, isobutyrate
• B6 metabolism, aromatic
hydrocarbon degradation
David et al. Nature 2014
Effect of diet on fecal bile
acids
 Increased fecal deoxycholic acid with animal diet
 Product of bacterial metabolism
 Can inhibit growth of certain Firmicutes and Bacteroidetes
 In animals, linked to HCC
 Increased expression of sulfite reductase with
animal diet
 H2S can cause intestinal inflammation
 Link to B. wadsworthia and bile acids
David et al. Nature 2014;
Devkota et al. Nature 2012
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Diet and intestinal
microbiota
Effect of calorie intake
on microbiota
 Lean and obese on 2,400
and 3,400 kcal diets
 Hypercaloric diet:
Bacteroidetes
Effect of fiber on
microbiota
 Fiber supplementation
 Firmicutes/Bacteroidetes
Jumpertz et al. AJCN 2011;
Holscher et al. AJCN 2015
It makes sense
 Evolutionary role of changing IM with changes in
diet
Figure from:
livingwithulcerativecolitis.wordpress.com
Intestinal microbiota and
complications of obesity
Diabetes
NAFLD
Intestinal
microbiota
Dyslipidemia/
Atherosclerosis
Hypertension
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Intestinal microbiota &
diabetes
High fat diet bacterial
translocation and
endotoxemia, prior to the
development of diabetes
NOD-1 activation 
inflammation  insulin
resistance
NOD-2 activation  insulin
resistance in muscle
Antibiotics following high fat
diet lead to improved insulin
sensitivity
Caricilli et al. Nutrients 2013;
Amar et al. EMBO Mol Med 2011;
Zhao et al. Am J Physiol Endocrinol Metab 2011;
Tamrakar et al. Endocrinol 2010;
Carvalho et al. Diabetologia 2012
Intestinal microbiota and
insulin sensitivity: human studies
• Systemic insulin resistance
• Improved insulin sensitivity
• Habitual intake correlates with
fasting glucose levels
• Consumption leads to insulin
resistance
Mehta et al. Diabetes 2010; Vrieze et al.
Gastroenterol 2014; Suez et al. Nature 2014
Intestinal microbiota and
insulin sensitivity: human studies
• Systemic insulin resistance
• Improved insulin sensitivity
• Habitual intake correlates with
fasting glucose levels
• Consumption leads to insulin
resistance
Mehta et al. Diabetes 2010; Vrieze et al.
Gastroenterol 2014; Suez et al. Nature 2014
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Intestinal microbiota and
insulin sensitivity: human studies
• Systemic insulin resistance
• Improved insulin sensitivity
• Consumption leads to insulin
resistance
• Fecal transplantation: humans to
germ-free mice  insulin resistance
Mehta et al. Diabetes 2010; Vrieze et al.
Gastroenterol 2014; Suez et al. Nature 2014
Intestinal microbiota and
hypertension
Genes
Diet
 Low-grade inflammation
associated with hypertension
 Probiotics  improved BP
 Minocycline improved BP
Environment
Common determinants of
outcome Singh et al. Immunol Res 2014;
Khalesi et al. Hypertension 2014;
Shi et al. Hypertension 2010
Dysbiosis is linked to
hypertension
Spontaneously
HTN rat*
Rat with HTN
2ndary to
chronic AT-II
infusion*
Human
volunteers
(adults)*
Diversity & richness



Firmicutes/Bacteroi
detes


-
Acetate &
butyrate-producing
bacteria

No change
-
* Compared to controls
Yang et al. Hypertension 201
17
SCFA participate in blood
pressure regulation
Olf78  renin
 BP
Gpr41 
vasodilation 
BP
Vessels of small
resistance
Kidney
Colon
Pluznick et al. Proc Natl Acad Sci USA 2013
Intestinal microbiota and
dyslipidemia
Fatty acid oxidation, de novo lipogenesis
& FIAF inhibition
 Bile acids: bile salt hydroxylase activity  improved
lipid profiles, possibly due to FXR activation
 Other molecules
Mooradian et al. Nat Clin Pract Endocrinol Metab 2009;
Org et al.Atherosclerosis 2015
Intestinal microbiota and
atherosclerosis
Org et al.Atherosclerosis 20
18
Intestinal microbiota and
NAFLD
Mouzaki, Bandsma. Curr Drug Targets 20
Take home messages
 Dysbiosis and altered microbial metabolism
contribute to the development of obesity
 Dietary modifications lead to rapid and predictable
changes in the intestinal microbiota composition
 Products of microbial metabolism interfere with host
gene expression and contribute to the development
of metabolic syndrome
Future directions
 Understand further the interplay between
environment, diet and intestinal microbiota
 Identify microbial patterns that predict future risk of
obesity, to allow disease prevention
 Use the critical impact of the intestinal microbiota
(SCFA and bile acids) on nutrient metabolism to
develop treatments for obesity and its
complications
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Thank you
20
Redefining Malnutrition in the 21st
Century
Praveen S. Goday, MD
Professor
Pediatric Gastroenterology and Nutrition
Medical College of Wisconsin
Director of Clinical Nutrition
Children’s Hospital of Wisconsin
Milwaukee, WI
Disclosures slide
Dr. Praveen Goday serves an expert reviewer for Best
Doctors, Inc. and a consultant for Fresenius Kabi.
Any real or apparent conflicts of interest related to the
content of this presentation have been resolved.
Learning objectives
• Discuss the new definitions for malnutrition
• Identify patient populations with malnutrition that are
likely to be seen by the pediatric gastroenterologist
• Discuss the management of different sub-populations
with malnutrition
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• Are children in US hospitals malnourished?
• Do we care that they are malnourished?
• How do we diagnose malnutrition?
• Where are pediatric gastroenterologists going to see
malnutrition?
• What can we do about malnutrition?
Are children in US hospitals
malnourished?
Malnutrition in hospitalized US children
25%
21.0%
20%
15%
14.0%
11.0%
10%
8.0%
7.1%
6.1%
5%
0%
UK
1990
UK
1995
USA
1997
France
2001
France
2005
Germany
2008
Clin Nutr 2008; 27:72–76; Arch Pediatr 2005; 12:1226–1231.
Arch Pediatr 2001; 8:1203–1208; Arch Pediatr Adolesc Med 1995; 149:1118–1122.
Clin Nutr 1997; 16:13–18; J Hum Nutr Diet 1990; 3:93–100.
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50%
45%
40%
25% obesity
35%
30%
25%
20%
17.4% mild malnutrition
15%
10%
5.8% moderate malnutrition
1.3% severe malnutrition
5%
0%
1
Malnutrition
Arch Pediatr Adolesc Med 1995; 149:1118–1122
Do we care that they are
malnourished?
Subjective global nutrition assessment
(SGNA)
Preoperative
nutritional status
in 175 children
undergoing
surgery
Divided into
- well nourished
- moderately
malnourished
- severely
malnourished
Malnourished children
- ↑ rates of infection
- Longer post-op
length of stay (8.2
vs 5.3 d) (P = 0.002)
Secker. Am J Clin Nutr. 2007 Apr;85(4):1083‐9.
23
How do we diagnose malnutrition?
JPEN 2013;37:460‐81. Recommendations
• Use z scores to express individual anthropometric
variables in relation to the population reference standard
• Use a decline in z score for individual anthropometric
measurement as the indication of faltering growth
24
When only one anthropometric data point is
available
Malnutrition
Mild
Moderate
Severe
-1 to 1.9
- 2 to -2.9
≤-3
Length/height-for-age z
score
-
-
≤-3
Mid–upper arm
circumference z score
-1 to 1.9
- 2 to -2.9
≤-3
Weight-for-height or
BMI for age z score
Nutr Clin Pract.2015;30:147‐161
When more anthropometric data points are
available
Malnutrition
Weight gain velocity (<2 y)
Mild
Moderate
Severe
<75% of expected
<50% of expected
<25% of expected
Nutr Clin Pract.2015;30:147‐161
When more anthropometric data points are
available
Malnutrition
Weight gain velocity (<2 y)
Weight loss (2–20 y)
Mild
Moderate
Severe
<75% of expected
5%
<50% of expected
7.5%
<25% of expected
10%
Nutr Clin Pract.2015;30:147‐161
25
When more anthropometric data points are
available
Malnutrition
Weight gain velocity (<2 y)
Weight loss (2–20 y)
Decline in weight‐
for‐length/ BMI z score
Mild
Moderate
Severe
<75% of expected
5%
<50% of expected
7.5%
<25% of expected
10%
↓1 z score
↓2 z scores
↓ 3 z scores
Nutr Clin Pract.2015;30:147‐161
When more anthropometric data points are
available
Malnutrition
Mild
Moderate
Severe
<75% of expected
5%
<50% of expected
7.5%
<25% of expected
10%
Decline in weight‐
for‐length/ BMI z score
↓1 z score
↓2 z scores
↓ 3 z scores
Inadequate nutrient intake
51‐75% estimated
needs
26–50% estimated
needs
≤25% estimated needs
Weight gain velocity (<2 y)
Weight loss (2–20 y)
Nutr Clin Pract.2015;30:147‐161
Subjective global assessment (SGA)
• Standard method for assessing nutritional status in adults
• SGA status is associated with medical outcomes
√ History
› Weight change
› Oral intake
› GI symptoms
› Functional status
› Metabolic demands
√ Physical exam
› Fat stores
› Muscle stores
› Edema / ascites
Detsky. JPEN J Parenter Enteral Nutr. 1987;11:8‐13
26
Subjective global nutrition assessment (SGNA)
• Should become the standard method for assessing
nutritional status in children
• History
• Physical exam
› Appropriateness of height
› Fat stores
for age
› Muscle stores
› Appropriateness of weight
› Edema / ascites
for height
›
›
›
›
›
Changes in body weight
Oral intake
GI symptoms
Functional status
Metabolic demands
Am J Clin Nutr. 2007 Apr;85(4):1083‐9.
How to Perform Subjective Global Nutritional Assessment in Children.
Secker DJ and Jeejeebhoy KN. Journal of the Academy of Nutrition and Dietetics 2012. 112: 424–431.
GI symptoms
• Severe if symptoms have been present for
2 weeks or longer
• Symptoms for 3 days or fewer, can be
disregarded
27
Functional status
• Has a lack of nutrition affected the child’s
physical function and altered her daily
activities?
√ Compare to the child pre-illness
Metabolic demands
Moderate metabolic stress
• Routine surgery
• Laparoscopic surgery
• Exploratory surgery
• Fracture
• Infection
√ Bronchiolitis
√ Gastroenteritis)
• Decubitus ulcer
Metabolic demands
Severe metabolic stress
• Major organ surgery
√ stomach, liver, pancreas, lung
• Major bowel resection
• Multiorgan failure
• Severe pancreatitis
• Severe sepsis
• Severe inflammation
• Chronic illness with acute deterioration
• Current treatment for malignancy
28
Albumin and prealbumin
• These proteins are negative acute phase reactants
√ They are, in most instances, not indicative of
malnutrition
Where are pediatric gastroenterologists
going to see malnutrition?
Causes of malnutrition
Non-illness related
Starvation
- Anorexia nervosa
OR
Illness related
Acute (<3 months)
- Trauma, burns
Chronic (> 3 months)
- CF, short gut syndrome
Malabsorption
Nutrient loss
Hypermetabolism
+/Inflammation
Altered utilization
of nutrients
29
Malnutrition in Pediatric Gastroenterology
25
43%
43%
20
Of the malnourished • 50% were admitted with a nutrition‐related diagnosis
• Only 40% received nutrition intervention
15
10
7%
5
0
Normal
Moderate Malnutrition
Severe Malnutrition
Malnutrition in the hospitalized Peds GI
patient
Consult service
• Cardiac patients
• Renal patients
• Oncology/BMT
• PICU
• Neurology patients
• Cystic fibrosis
GI service
• Chronic liver disease
• Short bowel syndrome
• Crohn disease
Any patient that has been in the hospital for more
than 4-5 days
What can we do about malnutrition?
30
Identify it!
Treatment of malnutrition
Non-illness related
Starvation
- Anorexia nervosa
Feed!
OR
Illness related
Acute (<3 months)
- Trauma, burns
Chronic (> 3 months)
- CF, short gut syndrome
Malabsorption
Nutrient loss
Reverse
nutrient loss &
malabsorption
Hypermetabolism
+/Inflammation
Altered utilization
of nutrients
Treat
inflammation
In the outpatient setting…
• High-calorie beverages
• Cyproheptadine
• Enteral nutrition
• Parenteral nutrition
31
In the inpatient setting…
• Enteral nutrition
• Parenteral nutrition
Billing and coding for malnutrition
Coding and Billing
Reimbursement = Primary Diagnosis + Comorbidity
• CPT Codes:
√ 263.1 = Mild malnutrition
√ 263 = Moderate malnutrition
√ 262 = Severe malnutrition
32
Billable hospital charges
$7,000
$6,142 $6,000
$5,304 +47%
$5,000
$2,000
Malnutrition
$3,000
$4,161 Malnutrition
$4,000
+38%
$3,950 $1,000
$0
Asthma
Tonsillitis
Conclusions
• Malnutrition has a high prevalence and affects outcomes
• Seek out, identify and treat malnutrition
• You will be justified in billing the comorbidity of
malnutrition if you identify and treat it!
33
34
Management of Food
Allergy & FPIES
NASPGHAN 2015
October 8, 2015
Hugh A Sampson, MD
Dean for Translational Biomedical Sciences
Professor of Pediatrics
Department of Pediatrics/Allergy & Immunology
Director, Jaffe Food Allergy Institute
Faculty Disclosures
• FINANCIAL INTERESTS
I have disclosed below information about all organizations and commercial interests, other than my
employer, which may create or be perceived as a conflict of interest.
Name of Organization
Allertein Therapeutics, LLC
Regeneron Therapeutics
Food Allergy Research & Education
Danone Research
Nature of Relationship
Consultant, Minority Stockholder
Consultant
Medical Advisory Board
Scientific Advisory Board
• RESEARCH INTERESTS
I have disclosed below information about all organizations which support research projects for which I
serve as an investigator.
Name of Organization
Nature of Relationship
National Institutes of Health
Grantee
Food Allergy Research & Education
Grantee
ThermoFisher Scientific
Grantee
• Patents – EMP-123 (recombinant protein vaccine) & FAHF-2 (herbal product)
Learning Objectives
 Discuss factors that may account for the
rise in food allergies
 Recognize various forms of food allergies
including FPIES and other gastrointestinal
food allergic disorders
 Diagnose and manage various forms of
food allergies including FPIES
35
Prevalence of Food and Skin
Allergies in the Pediatric Population
[1 – 17 years] in the US
“2nd Wave” of Allergy Epidemic
~17%%
12.5%
7.4%
5.1%
3.4%
NCHS Data Brief #121;
May 2013 Jackson KD et al
Factors Thought to Promote Allergy
Maternal vitamin
intake, e.g. folate
Genetic factors/family
Older parental age
history of allergy
Prenatal
Maternal
smoking
Maternal consumption of
allergenic foods during
pregnancy
Caesarean section
delivery
Failure to initiate
breastfeeding
Infant dietary factors
e.g. Later introduction of
allergenic foods
Immunizations
Perinatal
Postnatal
Lack of
vitamin D
(sunlight)
fetal epigenetic modification through
maternal exposure to these factors
Factors associated with
the ‘hygiene hypothesis’
e.g. Smaller family size
Direct infant exposure
Exposure to tobacco smoke +
other environmental pollutants
Modified from Allen K & Koplin J. Epidemiology of Food Allergy.
In Burks, James, Eigenmann et al. (Eds), Food Allergy 1e.2011.
Randomized Trial of Early Peanut
Consumption in High-risk Infants
(LEAP)
• 712 infant: 4 – 11 mos with egg allergy &/or severe
atopic dermatitis
- Prick skin tests (PSTs) to peanut:
- 542 had neg PSTs
- 98 had PSTs of 1 – 4 mm
- 76 (~10%) had + PSTs > 4mm (were excluded)
• One-half were randomly assigned to consume 2 gm
peanut 3x’s/wk to age 5 yrs & one-half strictly
avoided all peanut
Du Toit G et al. NEJM 2015
36
Randomized Trial of Early Peanut
Consumption in High-risk Infants
(LEAP)
• One PST negative infant & 6 PST pos infants
reacted to peanut on initial challenge & did
not consume peanut
- 4/7 still reacted at 5 yrs of age
• Adherence: median consumption at 2 yrs:
- 0 gm in avoidance group
- 7.7 gm in consumption group
• Safety: no difference in severe adverse events
Du Toit G et al. NEJM 2015
LEAP Trial Outcome
85% relative reduction !
70% relative reduction !
Du Toit G et al. NEJM 2015
Prevalence of Food Allergy by Age
in the United States
13
% Prevalence
11
9
7
5
3
1
1
2
3
4
5
6
7
8
Years of Age
Affects ~12 million Americans
Sicherer SH & Sampson HA. Annu Rev Med. 2009; 60:261-278.
9
10
20+
<3 yrs Overall
Milk
2.5
0.3%
Egg
1.5%
0.2%
Peanut 1.4%
0.8%
Fish
0.1% 0.4%
Shellfish 0.1% 2.0%
37
Cutaneous Allergies
IgE-Mediated
Urticaria
Angioedema
Non-IgE-Mediated
Atopic
Dermatitis
Dermatitis
Herpetiformis
Contact
Dermatitis
Atopic Dermatitis
& Food Allergy
4 month old breast
fed infant with
an eczematous
rash - cleared
with exclusion of
egg from mother’s
diet
With permission
Atopic Dermatitis
& Food Allergy
Mother ingested
eggs 4 hours before
breast-feeding ~30 minutes later,
the baby is
irritable and has
developed facial
rash
With permission
38
Atopic
Dermatitis
& Food
Allergy
Erythematous
rash on extensor
surfaces
With permission
Gastrointestinal Allergies
IgE-Mediated
Oral Allergy
Acute GI
Hypersensitivity
Non-IgE-Mediated
EoE
AEG
Enterocolitis
Enteropathy
- Celiac Disease
Proctocolitis
Eosinophilic Esophagitis (EoE)
• Onset - infancy to adulthood
• Symptoms
- Young children: reflux esophagitis, vomiting, food
refusal, abdominal pain, irritability sleep
disturbance & FTT
- Adolescents: chest pain, dysphagia, globus &
impaction
• Foods implicated - milk, wheat, soy, egg, beef, corn
- often involves multiple foods
• Diagnosis - failure to respond to PPIs
- endoscopy and biopsy of esophagus
39
EoE: Endoscopic Diagnosis
Normal
Furrows
Rings
Plaques
Plaques & Furrows
Pre-Diet Esophageal Biopsy
Kelly et al. Gastroenterology 1995
Post-Diet Esophageal Biopsy
Kelly et al. Gastroenterology 1995
40
Diagnosis of Acute FPIES
Major criterion: Minor criteria:
1. Repetitive
vomiting 1- 4
hours after
eating the
suspect food
1. A second episode of repetitive vomiting after
eating the same suspect food
2. Repetitive vomiting episode 1 - 4 hours after
eating a different food
3. Extreme lethargy with suspected reaction
4. Marked pallor with suspected reaction
5. Emergency room visit with suspected reaction
6. Need for intravenous fluid support with any
suspected reaction
7. Diarrhea in 24 hours (usually 5-10 hours)
 The diagnosis of FPIES based on the major criterion
plus at least 3 minor criteria.
Diagnosis of Chronic FPIES
• Severe presentation*: when the offending food is
ingested on a regular basis, [e.g., infant formula]
intermittent but progressive vomiting & diarrhea,
+ blood in stool, + dehydration & metabolic acidosis
• Milder presentation*: lower doses of the problem food
(e.g. solid foods or food allergens in breast milk) lead
to intermittent vomiting, and/or diarrhea, usually with
poor weight gain/ FTT, but without dehydration or
metabolic acidosis
• *Symptoms resolve within days following elimination of the offending food(s) and acute recurrence (1 – 4 hours) of symptoms when the food is reintroduced
Respiratory Allergies
IgE-Mediated
Allergic
Rhinitis
Laryngeal edema
Anaphylaxis
Non-IgE-Mediated
Asthma
Heiner’s
Syndrome
41
Diagnosing Food Allergy
• NIAID Guideline 11: Expert Panel recommends using
oral food challenges for diagnosing food allergy.
• The double-blind placebo-controlled oral food challenge
(DBPCFC) is the “gold standard”
• Single-blind & open food challenge may be considered
diagnostic in clinical settings when
- food challenges elicit no symptoms (i.e. neg challenge)
- there are objective symptoms (i.e. pos challenge) that
correlate with medical history & are supported by
laboratory tests
• Skin tests and in vitro IgE measurements alone can never
be considered diagnostic
NIAID Expert Panel. J Allergy Clin Immunol. 2010;
Predictive Value of PSTs
Comparison of
PST results & the
outcome of 120 oral milk challenges
‐ 37% positive
Wheal > 95% PPV
Milk
> 8 mm
Egg > 7 mm
Peanut > 8 mm Sporik R et al. Clin Exp Allergy, 2000
Probability
Predictive Value of Food-specific IgE
100%
90%
80%
70%
60%
50%
40%
30%
20%
10%
0%
Egg white
Allergen
Decision Pt
(kUA/L)
Egg
(< 2 yrs of age)+
Milk
(< 1yr of age)++
Peanut
Logit model using log(kUA /L)
0.35
0.7 1.2
3.5
7.0 17.5
50
100
IgE Antibody Concentration (kUA/L)
UniCAPTM
Sampson HA JACI 2001
7
2
15
5
14
Soy
30
Wheat
26
Tree nuts+++
15
+
Boyano MT, et al. Clin Exp Allergy 2001
++ Garcia-Ara C, et al. JACI 2001
+++ Clark AT, Ewan P. Clin Exp Allergy 2003
Maloney J et al. JACI 2008
42
FPIES Oral Food Challenge
 Challenge: 0.06 – 0.6 gm/kg (up to 3 gm) in 3 doses over 30 mins
Major Criterion
Minor Criteria
Vomiting in the 1-4 hour period
after ingestion of the suspect
food and the absence of
classic IgE-mediated allergic
skin or respiratory symptoms
1. Lethargy
2. Pallor
3. Diarrhea in 5-10 hours after
food ingestion
4. Hypotension
5. Hypothermia
6. Increased PMN’s > 1500
above the baseline count
 Treatment: IV saline bolus (20ml/kg); ondansetron (0.1-0.15 mg/kg IV or IM)
Natural Course of Food Allergy
Percent with clinical
food allergy
100
80
60
40
20
0
Birth
2
4
6
8 Years
• Following standard of care: strict food allergen avoidance
Effect of Baking (heat-denaturation)
on Sequential & Conformational
Epitopes of Food Proteins
M
I
M
I
L K
1
M
I
L
L
K
K
M
I
Heat &
Processing
K
L
2
 ~80% of young children with milk (egg) allergy “outgrow” their
food allergy; react primarily to conformational epitopes
43
Development of Tolerance
Milk: Treated vs. Controls
Egg: Treated vs. Controls
~15 x’s more
likely to tolerate
egg at 6 years
16 x’s more likely to develop full
tolerance at 5 yrs compared to
control; p < 0.0001
N = 57
N = 60
Kim et al. JACI 2011; 128:125-131
Leonard S et al. JACI 2012; 130:473-80
Managing Food Allergy & Foodinduced Anaphylaxis
• Appropriate diagnosis of specific food allergy
• Education
- strict avoidance of food allergen
- learn to read food labels & recognize high risk situations
- early signs of an allergic / anaphylactic reaction
• Provide emergency treatment plans in writing
- FARE website: www.foodallergy.org
• Provide self-Injectable epinephrine
& liquid antihistamine
• Instructions to go to a
medical facility
Managing FPIES
• Strict elimination of the culprit food(s)
- milk, soy, rice, oat, other grains, fish & shellfish
• Plans for dietary advancement
- infants should be challenged every 1 – 2 years
• Treatment of symptoms at presentation or re-exposure
- IV fluids (10-20ml/kg); IV or IM ondansetron;
- International Association for Food Protein Enterocolitis
website, http://fpies.org/docs/Emergency_Plan.pdf
• Plan for supervised OFCs to address FPIES resolution
- in milk-FPIES diagnosed by 6 mos, 50% outgrown by 1
year and 90% by 3 years of age
- 50% of children with “solid food” FPIES react to more
than one food; reactivity may persist longer
44
Immunotherapeutic Strategies in
Human Trials
• Allergen-specific Immunotherapy
- Heat-denatured protein
- Oral immunotherapy (OIT) + omalizumab
- Sublingual immunotherapy (SLIT)
- Epicutaneous immunotherapy (EPIT)
- Engineered recombinant protein
- Nanoparticles with CpG
• Allergen non-specific immunotherapy
- Chinese Herbal medications
- Anti-IgE immunotherapy
Conclusions
• Food allergy has increased dramatically over the
past 15 years and now affects ~4% of the US
population
• Although the oral food challenge remains the “gold
standard” for diagnosis, laboratory tests are
becoming more sensitive and specific
• Several therapeutic strategies are under
investigation, but OIT provides the most protection
• Omalizumab dramatically reduces adverse reactions
to OIT and markedly alters its safety profile
• Several new therapeutic approaches in the
“pipeline” that could induce more lasting effect
45
Dangerous Mimicry: Addressing Caustic Ingestions in Children
Mark E. McOmber, M.D.
Director of Endoscopy and Therapeutic Endoscopy
Phoenix Children’s Hospital
Phoenix, AZ
Financial Disclosure
I have no financial relationship with any commercial entity to disclose
Objectives
• Review the epidemiology and pathophysiology
of caustic ingestions
• Know the key features of the clinical
assessment
• Review the treatment options and long term
management
46
Epidemiology
Nearly 200,000 ingestions reported per year
Most are accidental and the amounts small
Most are young children from 1‐3 yrs old
In adolescents the ingestions tend to be
intentional, as a suicide attempt, and the
quantities are larger
• There are limited reports of ingestion injury as
a result of child abuse
•
•
•
•
Accidental Ingestions
• Alkaline agents more common than acidic
• Household cleaning products
– Toilet bowl and oven cleaners
• Cosmetic products
– Hair relaxers
• Dishwasher/Laundry agents
• Pool products
* Batteries/magnets are unique and were covered separately
Mimicry‐ When Marketing and Safety are at Polar Opposites
• Agents are often mistaken for more palatable
items by young children
– Colorful
– Misleading container or wrapper may suggest a
safer substance
– Overly Accessible
47
Colorful
A delicious candy?
‐ offered by a smooth talking person with a fancy accent
Or poison?
Misleading Wrappers and Containers
Accessibility
Mechanism of Injury
• Alkaline agents (esp. pH >11.5),
– injury through LIQUEFACTION necrosis
– Deep penetration dependent on concentration and
duration of exposure
• Acidic agents (esp. pH <2),
– injury through COAGULATION necrosis
– more superficial because of the esophageal mucosa
and the coagulum/eschar
– Antral spasm can pool the acid in the stomach, resulting in outlet obstruction from injury and fibrosis
Mechanism of Injury
• Delayed damage beyond the necrosis over the
first week
– From inflammatory process
– From vascular thrombosis
• By the third week fibrogenesis and strictures
become more likely
Clinical Manifestations
• Dysphagia is the MOST COMMON symptom
– Related to dysmotility from inflammation, and
later from fibrosis/stricture
•
•
•
•
•
Drooling (even in the absence of oral burn)
Pain
Vomiting
Perforation
Airway injury with stridor, hoarse voice,
respiratory distress
49
Evaluation
• History
– Timing of exposure
– Type and amount of exposure
• pH can be measured or use of Material Safety Data Sheets or Poison Control Center (in U.S. 800.222.1222)
• Exam
– Mental status, vitals, respiratory and oral exams
Evaluation
• Imaging
– CXR if respiratory symptoms
• Retained foreign body, perforation, or pneumonia
– Esophagram unreliable for early injury unless perforation is suspected by other imaging
• If done, use only water‐soluble contrast
– CT or MRI when perforation is suspected or concern of vascular involvement
Initial Management
• Supportive with IVF and limit further injury
• Induction of vomiting is CONTRAINDICATED
– Leads to further esophageal injury and risk of
aspiration
• Neutralizing agents, dilution, and charcoal are
NOT recommended
– Additional damage from heat injury
– Increase risk of vomiting
– Obscure findings on endoscopic evaluation
50
Initial Management
• Asymptomatic (no oral burn, dysphagia, emesis, etc.)
– Endoscopy unnecessary unless . . .
• pH of substance is more caustic (>11.5 or <2) or the causticity is unknown
• Symptomatic
– Admit for supportive care
– Prepare for endoscopy
– Hold oral nutrition until initial evaluation is complete
Initial Management
• Endoscopy
– Ideally within 24 hours of ingestion
– Very early endoscopy (less than 6 hours after ingestion) may not show full extent of the injury
– After 4 days, the risk of perforation increases
• Contraindications
–
–
–
–
Hemodynamic instability
Evidence of perforation
Respiratory distress
Severe oropharyngeal injury with edema and necrosis
Endoscopy
• Staging
– Grade 0 is normal mucosa
– Grade 1 is superficial with edema or hyperemia
– Grade 2a: friable, hemorrhage, erosions, blisters, shallow ulcerations, white membrane
2b
• 2b‐ above plus circumferential OR focal but
deep – Grade 3a: grade 2 PLUS focal necrosis that is brown‐black or grey discoloration
3a
• 3b‐ extensive whereas 3a is only focal
51
Outcome by Stage
• 1 or 2a‐ most have a good prognosis and do
not develop stricture or outlet obstruction
– Risk of stricture with 2a is 4.7%
• 2b and 3‐ 32% to 75% develop strictures in 2b
and 3 grade burns, respectively
• 3b‐ mortality reported up to 65%; majority
require esophagectomy/replacement
surgeries
Management
2a
• Grade 1 or 2a‐ short observation
and PO challenge
• Grade 2b and 3
– Consider NG placement under endoscopic guidance
2b
• Maintain lumen
• Route for future feeding
VS.
3a
• Concern for infection, GER
• Concern for long stricture
Management of Grade 2b and 3
• Steroids?
– Prevent strictures in animal models
– Mixed results in human studies
• *3 days of high dose methylprednisolone (1g/1.73m2) reduced the stricture occurrence without noted side effects in 83 children with grade 2b burns
• Other studies suggest increased incidence of
infection without a decrease in stricture incidence
*Usta et al. Pediatrics 2014
52
Management of Grade 2b and 3
• Antibiotics?
– Lack of evidence to support or guide use and
patient selection
– Suggested in cases where infection is suspected or at an increased risk
• Perforation
• Grade 3 esophageal injury
• On corticosteroid therapy
– 3rd generation cephalosporins, ampicillin/sulbactam, piperacillin/tazobactam, etc.
Management of Grade 2b and 3
• Acid Blocker (PPI or H2RA)?
– Decrease acid and pepsin exposure to the injury
– No controlled trials for efficacy
– No study to determine duration or dose
Endoscopy
• Endoscopic Ultrasound (EUS)
– Miniprobe EUS
• Safe but not all centers are trained in EUS • No difference in predicting early complications
• May detect if muscle layer is intact which may predict less stricture formation or the response to dilation
• More studies needed
Kamijo et al. Am J Gastroenterol 2004
53
Strictures
• Most common serious long‐term complication
of caustic ingestions
• 32‐75% chance of developing strictures in
grade 2b and 3 injury
• Develop as early as 3wks with 80% of
strictures by 8 weeks post injury
Strictures
• Diagnostic imaging to evaluate for
stricture is usually performed about
2‐3 weeks after the injury.
• Dilation typically recommended
starting 4‐6 weeks after injury
– *Recent studies have shown less stricture when done sooner (5‐15 days) but these retrospective studies were small with milder injuries (2a,2b)
*Boskovic et al. Eur J Gastroenterol Hepatol 2014;
Temiz et al. World J Gastroenterol 2012
Endoscopic Dilation
54
Dilation
• Historically, Savary and Tucker
dilators‐ longitudinal shearing forces
• Currently, endoscopic balloon
dilation‐ applies radial pressure
• Serial dilations are often required
and typically are done every 1‐3
weeks until oral feeds are tolerated
– Prospective studies are needed to evaluate frequency
Long‐term Management
• Risk of esophageal adenocarcinoma or
squamous cell carcinoma is 1000x the
occurrence rate of the general population.
• Recommended to begin surveillance 15‐20
years after the injury and repeat every 1‐3
years thereafter.
Summary
• Accidental caustic ingestions are a major
health risk for young children
• Clinical symptoms can be misleading so
endoscopy is the primary means of evaluation
• Stricture is the main complication
• Evidence based treatment protocols are still
lacking and prospective studies are needed
• Increased risk of esophageal cancer even years
after injury
55
Updates on Foreign Body
Ingestions
Robert E. Kramer, MD, FASGE
Director of Endoscopy
Associate Professor of Pediatrics
Children’s Hospital Colorado
Financial Disclosure
No relevant financial
relationships to disclose
Objectives
•Outline the timing and preparation of interventions dependent on type of ingestion
•Discuss changes in the management of button battery and magnet ingestions
•Review the management of glass and other sharp ingestions
•Summarize current state of knowledge regarding ingestion of detergent pods and superabsorbent materials
3
56
1
Crystalline Opportunity
•“What we are drawn to in this imperfect science, what we in fact covet in our way, is the alterable moment‐the fragile but crystalline opportunity for one's know‐how, ability, or just gut instinct to change the course of another's life for the better.” ― Atul Gawande, Complications: A Surgeon's Notes on an Imperfect Science
4
Timing of Endoscopic Intervention
Type
Location
Symptoms
Timing
Button
Battery
Esophagus
YesorNo
Emergent
Gastric/SB
Yes
Emergent
No
Urgent(ifage<5andBB≥20mm)
Elective(ifnotmovingonserialX‐ray)
Magnets
Esophagus
Yes
No
Emergent(ifnotmanagingsecretions,otherwiseurgent)
Urgent
Gastric/SB
Yes
No
Emergent
Urgent
Esophagus
Yes
No
Emergent(ifnotmanagingsecretions,otherwiseurgent)
Urgent
Gastric/SB
Yes
No
Emergent(ifsignsofperforationthenwithsurgery)
Urgent
Esophagus
Yes
No
Emergent(ifnotmanagingsecretions,otherwiseurgent)
Urgent
Esophagus
Gastric/SB
Yes
No
Yes
Emergent(ifnotmanagingsecretions,otherwiseurgent)
Urgent
Urgent
LongObject
Esophagus
Gastric/SB
No
YesorNo
YesorNo
Elective
Urgent
Urgent
Absorptive
Object
Esophagus
Yes
No
YesorNo
Emergent(ifnotmanagingsecretions,otherwiseurgent)
Urgent
Urgent
Sharp
Food
Impaction
Coin
Gastric/SB
Emergent
(< 30 Min)
Emergent
(< 2 hours)
Urgent
(<8 Hours)
Elective
(<24
Hours)
5
Preparation
• Optimal venue
• Endoscopy unit, OR, IR, IC, Hybrid OR
• Additional personnel • Pediatric surgery, ENT, Cardiac surgery, Interventional Cardiology
• Fully stocked "Foreign Body" Tool Box
• Ex‐vivo practice run to select best device
• Additional tools
• Foreign body hood
• Overtube
• Blakemore tube
• Banding device
6
57
2
Tools of the Trade
Raptor Forceps
Polyp Snare
Multi-Prong Forceps
Roth Net
Foreign Body Hood
Coin Grasper
Rubber-Tipped Forceps
Wire Basket
Endoscopy Caps
Overtube
7
The Usual Suspects
60
50
40
30
20
1
10
mm
8
Button Batteries
• Home Movie Demonstration
9
58
3
Button Batteries (BB)‐ New Aspects
• Gastric/SB : Consider endoscopy in high risk group (Age ≦5, BB diameter ≧ 20 mm)
• Purpose: assess for esophageal injury, removal of battery is secondary
• To date only a single patient survived from aortoesophageal fistula (AEF)
• Further need to refine multidisciplinary care
• Consider immediate transfer to Interventional Cardiology/ Hybrid OR for high risk cases
• Vigilant for sentinel bleed, warning sign of catastrophic hemorrhage
• Ongoing injury, risk of AEF up to 3 weeks after removal
• Maintain high index of suspicion for BB ingestion
• Any child < 5 with even slight hematemesis (consider X‐ray?)
10
Magnet Ingestions
• Controversial aspect: Beyond ligament of Treitz, asymptomatic
• Spectrum: observation  surgical removal
• Take ownership, especially long distance patients
• Balloon enteroscopy a good option
• Highlights need for rapid endoscopic removal from proximal GI tract
• Advise against metal buckles, etc
• Though technically off the market, still millions in circulation
11
Neodymium Magnets
12
59
4
Glass Ingestions
• Very challenging ingestions • Radiolucent and small
• Judgment call depending on
• Symptoms
• Witnessed ingestion
• Evidence of injury in oropharynx
• Imaging studies may be helpful (CT, contrast study)
• But may delay anesthesia
• Rubber‐tipped forceps helpful for small shards
• Use of FB hood or cap to protect mucosa
• (overtube for older patients)
13
Other Sharps
• Jackson’s Axiom‐ Leading points perforate, trailing points do not
• One end heavier than the other (ie screw, nail) have the sharp
end trailing
• Literature suggests endoscopic removal of all sharps
• 35% perforation rate, 26% mortality rate but data old1
• Toothpick: most worrisome sharp
• Radiolucent, long, wood may harbor more bacteria
• Reports of perforation and migration to liver, heart, kidneys
• High risk of accidental ingestion
• Review2 of 136 case reports by Steinbach et al in 2014
• 50% not aware of ingestion
• Bowel perforation in 79%
1. MacManus J, Am J Surg 1941; 53:393-402.
2. Steinbach C, World J Surg 2014; 38(2):371-7.
• Mortality 9.6%
14
Detergent Pods
• Introduced to US market in 2010
• Water‐soluble membrane
• Higher concentrations of
surfactant  caustic injury
• Propylene glycol lactate,
metabolic acidosis
• Number of case reports • Esophageal injury described
• Primarily respiratory injury
• Management more similar to
caustic rather than FB
ingestion
• Review from Poison Control in 2015
of 111 ingestions1
• Mean age 1.4 years
• 66% managed at home
• 9 pts admitted (8.1%)
• 67% of admissions intubated
• CNS depression 22%
(ethoxylated alcohols)
1. Stromberg PE, Am J Emerg Med,2015;33(3): 349-51
15
60
5
Superabsorbent Objects
• Polymers that can absorb up to 100x their weight in water
• Found in a number of household objects
• Diapers, feminine hygiene products
• Used in many toys, under the name Water Balz, H2O Orbs
• Radiolucent
• May reach 30‐60x original volume
• May be easily swallowed and cause obstruction as they expand
• Large round shape, likely best removed with a net
• Four reports in the literature with one documented death1
• Led to a recall by CPSC in 2012
• Reports of canine ingestion of feminine hygiene products in
veterinary literature, but none in humans
16
1. Zamora IJ, Pediatrics 2012; 130(4):e1011-4.
Water Balz
17
Coin Ingestions
• Most common FBI in children
• >250,000 ingestions, 20 deaths in 10 year period1
• Distal esophageal coins may clear in up to 60%2
• Coins > 23.5 mm (American, Canadian quarters) more likely to
become impacted in children < 5 yo
• Majority of ingestions are pennies
• Post 1982 zinc 5%  97.5%
• Causes corrosive injury in acid environment
• Production of hydrogen gas and zinc chloride production (O’Hara S)
• Newer pennies may appear less dense in center on X‐ray
• Coin grasper may not be as effective as rat‐tooth or alligator jaw
forceps
• Get lateral film to differentiate from BB
1. Chen X, Int J Pediatr Otorhinolaryngol 2006;70:325-9.
2. Tander B, J Laroendosc Adv Surg Tech A 2009;19:241-3.
18
61
6
Summary
•Management of FBI’s in children depends on the object, location, timing, age and symptoms
•BBI and multiple magnet ingestion remain the most dangerous FBI in children and may require aggressive management even in asymptomatic patients
•A multidisciplinary approach is often necessary in complicated FBI’s and requires good communication between GI, surgery, CV surgery, ED, Radiology, ENT
•Detergent pods and superabsorbent objects pose an emerging threat for ingestion in children
19
APPENDIX 1‐ BUTTON BATTERY
Witnessed or suspected
BB Ingestion
Gastric or Beyond Esophageal
Active Bleeding or Clinically Unstable:
Otherwise Stable: Immediate Endoscopic Removal
<5 years of age AND BB >20 mm ≥5 years of age
AND/OR
BB < 20mm
Consider assessment of any esophageal injury and endoscopic removal if possible, within 24‐48 hours
May consider outpatient observation only
Endoscopic removal in OR with Surgery/CV surgery present
If evidence of any esophageal injury:
Admission, NPO, IV anbx
Consider CT Angiography to exclude aortic injury. Consider MRI of chest to determine proximity of injury to aorta
No significant injury to surrounding tissue or proximity to aorta
Repeat X‐ray in 48 hours for BB ≥20 mm, repeat at 10‐14 days for BB < 20 mm if failure to pass in stool
If esophageal injury present: Admit, NPO, IV anbx and consider CT Angiography, MRI of chest
Demonstation of injury close to aorta
Continue NPO and Anbx and serial MRI q 5‐7 days until injury seen to recede from aorta
Esophagram to exclude leak before advancing diet as tolerated
Endoscopic removal if develops GI symptoms or not passed stomach by time of X‐ray at time described above
If presence of hematemesis or UGI bleeding within 21 days of removal, assume aortoenteric fistula and emergently prepare for thoracotomy with CV surgery
20
Adapted from Kramer RE, et al. JPGN, 2015, PMID 25611037
APPENDIX 2‐ MAGNET INGESTION
I i i lP
InitialPresentation
i
‐ObtainHistory
‐KnownMagnetingestion
‐UnexplainedGIsymptomswithrareearthmagnetsinenvironment
‐ObtainanabdominalX‐ray.Ifmagnetsarepresentonflatplateobtainlateralx‐ray
‐Determinesingleversusmultiplemagnetingestion
Determinesingleversusmultiplemagnetingestion
MultipleMagnet
(orsinglemagnet&metallicobject)
SingleMagnet
Allwithinthestomachoresophagus
Withinthestomach
oresophagus
‐Option1:Consult
PediatricGIif
available
‐Considerremovalif
patientatincreased
riskforfurther
ingestion
‐Option2:Follow
serialx‐raysas
outpatientand
educateparents*
Beyondthestomach
‐ConsultpediatricGIif
available.
‐Considerremovalif
possible.
‐Followwithserialx‐
raysasoutpatient
‐Educateparents*
‐Confirmpassagewith
serialx‐ray
‐Ifdelayed
progressionmayuse
PEG3350orother
laxativetoaid
passage
Beyondthestomach
‐IfpediatricGIavailablenotifyforremovalespeciallyifless
than12hours
‐Ifnotavailable,transfertoreferralcenter
‐ConsultpediatricGIandpediatric
surgeonifavailable
‐Ifnotavailablesendtoreferralcenter
‐Ifgreaterthan12hoursuntiltimeofprocedure,then
consultpediatricsurgerypriortoendoscopicremoval
‐Managementdependsonwhether
symptomaticorasymptomatic
Successfulremoval
‐Dischargehome
withfollow‐up&
education
Unsuccessful
removal
‐Refertosurgeryfor
removal
Symptomatic
Asymptomatic
‐Refertopediatric ‐Ifnoobstructionor
perforationonx‐raymay
surgeryfor
removebyenteroscopyor
removal
colonoscopyifavailableor
followwithserialx‐ray
SuccessfulEndoscopicRemoval
‐Maydoserialx‐rayinEDto
‐Dischargeafterfeedingtolerance,with
checkforprogressionevery4‐6
appropriatefollow‐upandeducation
hours
Noprogressionon
*ParentalEducation:
‐Removeanymagneticobjectsnearby
‐Avoidclotheswithmetallicbuttonsor
beltswithbuckles
‐Ensurenoothermetalobjectsor
magnetsareinthechildenvironment
foraccidentalingestion
serialx‐rays
‐Admitforfurthermonitoringandserialx‐raysor
surgicalremoval
‐MayusePEG3350orotherlaxativetoaidinpassage
andtohelpprepareforcolonoscopy
‐Continueserialx‐rayevery8‐12hours.Ifnosymptoms
thenproceedwithsurgicalremovalorendoscopic
removalwithsurgicalback‐up
Progressionofmagnetsonserialx‐rays
‐Educateparentsonprecautions*and
dischargewithclosefollow‐up
‐Confirmpassagewithserialx‐rays
‐Ifatanytimemagnetsdonotprogressor
patientbecomessymptomatic,admitto
hospitalforremovalofmagnets
21
Adapted from Kramer RE, et al. JPGN, 2015, PMID 25611037
62
7
APPENDIX 3‐ SHARP INGESTION
Known or suspected ingestion of sharp object
Radio‐opaque
Radiolucent
Small bowel (distal to ligament of Treitz)
Gastric
Symptomatic self‐
reported or witnessed ingestion:
Esophageal: Urgent endoscopic removal
Symptomatic
Asymptomatic: Consider CT, ultrasound, MRI or esophagram for further assessment
Urgent endoscopic evaluation and removal
Asymptomatic
Enteroscopy or surgical removal
Consider endoscopic removal unless short object with heavier blunt end
Follow clinically with serial X‐ray
Evidence of FB: Endoscopic removal
Enteroscopy or surgical removal considered if develops symptoms or > 3 days without passage
No evidence of FB: Clinical observation, close follow‐up, reassess if develops symptoms
22
Adapted from Kramer RE, et al. JPGN, 2015, PMID 25611037
APPENDIX 4‐ FOOD IMPACTION
Suspected EFI
Consider FB series with water‐
soluble contrast to identify obstruction
Not tolerating secretions:
Tolerating secretions:
Urgent endoscopic removal
Endoscopic removal within 24 hours
Obtain Proximal and distal esophageal biopsies and assess for stricture
GI Follow‐up
Stricture without eosinophilic inflammation
Consider repeat endoscopy with possible dilation
Eosinophilic inflammation with stricture
Eosinophillic inflammation without stricture
No eosinophilic inflammation and no stricture
Consider repeat endsocopy after 4‐8 weeks of PPI therapy and/or EoE therapy
Consider repeat endsocopy after 4‐8 weeks of PPI therapy Follow clinical status and consider PPI if nonspecific inflammation present
23
Adapted from Kramer RE, et al. JPGN, 2015, PMID 25611037
APPENDIX 5‐ COIN INGESTION
Coin ingestion:
PA and lateral films, ensure no button battery
Esophageal
Symptomatic (drooling, dysphagia, respiratory compromise):
Urgent endoscopic removal
Asymptomatic:
Endoscopic removal within 24 hours
Gastric
Small bowel
No endoscopy needed: Consider straining stools, laxatives, repeat x‐ray at 2 weeks
Clinical observation: Enteroscopy/surgical removal if symptomatic
Consider glucagon if distal esophageal coin or if endoscopy not readily available
Endoscopic removal if not passed within 2‐4 weeks
Repeat X‐ray immediately prior to removal to ensure coin still present
24
Adapted from Kramer RE, et al. JPGN, 2015, PMID 25611037
63
8
THE PROBLEMATIC POLYP
Petar Mamula, MD
The Children’s Hospital of Philadelphia
• I have no financial relationships to disclose
OBJECTIVES
1.
Review prerequisites for successful
polypectomy
2.
Discuss techniques for difficult polyps
3.
Review polypectomy complications
64
Polypectomy video clip
DEFINITION
• Greek polύpous‐ animal with
mouth surrounded by tentacles
like hydra
• Difficult or problematic polyp‐ any polyp that
poses difficulties in removing and can be further
defined by its size, location, shape, or number
DEFINITION
• SIZE: 2‐3 cm large and >3 cm giant polyp
• LOCATION:
– involving 2 colon folds
– >1/3 of luminal circumference
– cecum/right colon, appendiceal orifice, IC
valve, upper GI tract
• SHAPE: Pedunculated‐ stalk and head
Sessile‐ height > ½ base diameter
Flat‐ height < ½ base diameter
• NUMBER: >10 polyps
65
DEFINITION
SMSA Classification
Level 1 (4‐5)
Level 2 (6‐9)
Level 3 (10‐12)
Level 4 (>12)
NASPGHAN Training Guidelines‐ 10 procedures
Gupta et al. Gut. A129. 2011.
PREREQUISITES
• PATIENT: anti‐coagulation/NSAIDS,
preparation, laboratories
• EQUIPMENT: generator, accessories, irrigation
pump, CO2 insufflation
• STAFF: experienced technician, collaborative
anesthesiologist
• ENDOSCOPIST: knowledge, experience
ENDOSCOPIST
Liu et al. JPGN. 2007.
66
EQUIPMENT‐ GENERATOR
Ohm’s law: V = I x R
Power (Watts): P = V x I
Joule’s law: Q = I2 x R x t
Current types: coagulation (slower increase in
tissue temperature) and cut (cell burst)
• Current density: (current/area)2
• Waveform (duty cycle)
•
•
•
•
EQUIPMENT‐ GENERATOR
Modern units with microprocessor keep voltage constant while power fluctuates depending on change in impedance
EQUIPMENT‐ ACCESSORIES
Monkemuller et al. Clinic Gastroenterol Hepatol. 2009. 67
POLYPECTOMY TECHNIQUE
• Colonoscope position: 5‐6 o’clock
• Place the snare proximal to distal and parallel
to the colon wall
• May require retroflexion, abdominal pressure,
or patient repositioning
• Once snare in place lift the polyp and “jiggle”
during resection to avoid contact with the wall
POLYPECTOMY TECHNIQUE
POLYPECTOMY TECHNIQUE
• Pedunculated
– Large stalk (>1 cm) may contain large vessel‐ consider epinephrine injection or clip/loop placement
– Large polyp may benefit from epinephrine head
injection in order to shrink it (up to 80% in size)
– Giant polyp could be resected piecemeal
Tholoor et al. Ann Gastroenterol. 2013.
68
POLYPECTOMY TECHNIQUE
• Video stalk clip placement
POLYPECTOMY TECHNIQUE
• Sessile/flat polyps
– Up to 7 mm: cold snare
– 1‐3 mm: cold biopsy forceps
– <5 mm: hot biopsy‐ potential for thermal injury and
destroys the tissue (lift and burn)
– >15 mm: endoscopic mucosal resection (EMR) with
submucosal injection which prevents injury to deeper layer and entrapment of muscularis propria
• Injectate‐ variety of solutions, commonly normal saline with methylene blue, amount may vary from few to >30 mL
POLYPECTOMY TECHNIQUE
• Sessile/flat polyps
– Inject proximal to distal at a 30‐45° angle around or into the polyp, start injecting before needle in
– >20 mm in size: piecemeal resection
– May consider cautery demarcation prior to injection
– Important to have a feel for the amount of tissue
ensnared (mark the snare handle)
– As the sheath is jiggled the polyp should move
independently from the colon wall
69
POLYPECTOMY TECHNIQUE
• Sessile/flat polyps
– Aspirate and lift in order to tent the mucosa from the submucosa prior to resection
– Smooth snare closure
– Worrisome signs‐ ulcer, induration, friability, and
no lift
– Consider APC to treat remaining polyp tissue/edges
– Tattoo the site
Polypectomy video clip
ADJUNCT POLYPECTOMY TECHNIQUES
• Cap‐assisted polypectomy
• Two colonoscopes or combination of two
instruments
• Double‐channel colonoscope
• Side‐viewing duodenoscope
• Laparoscopy‐assisted
• Wide‐angle colonoscopy
• Chromoendoscopy/NBI
• Autofluorescence/Confocal laser microscopy
• Endoscopic submucosal dissection
70
POLYP RETRIEVAL
• Up to 16% specimens lost
• Net or snare
• Polyp trap for small polyps
(≤5 mm)
• Use the gravity effect to find
specimens
• Polyp retrieval video (cold snare/suction)
COMPLICATIONS
PERFORATION (0.1‐0.3%)
• Risk higher with flat or sessile polyps, large
polyps, cecum, and longer electrocautery time
• Post‐EMR inspection for “target sign”
Swan et al. GIE. 2011.
71
COMPLICATIONS
PERFORATION
• Clip closure for lesions <15 mm
• Stent placement
• Over The
Scope Clip
• If perforation not recognized and patient
discharged, likely to need surgery
Haito‐Chavez et al. GIE. 2014.
COMPLICATIONS
BLEEDING (0.3‐6%)
• Early more likely to occur with the cutting
current and late (up to 2 weeks) with the coagulation current
• Treatment
– Tamponade
– Clips
– Cautery, but risk of transmural burn
– Prophylactic clip or loop
• Polyp bleeding video
72
COMPLICATIONS
POST‐POLYPECTOMY SYNDROME (2%)
• Fever
• Leukocytosis
• Abdominal pain
• Absence of free air on imaging
• Thermal energy extending into muscularis propria
and serosa
• Treatment consists of bowel rest, IV fluids and abx
SUMMARY
•
•
•
•
Be prepared
Know your equipment and staff
Know your limitations
1‐3 mm polyps can be removed with a cold
forceps, 5‐7 mm with a cold snare
SUMMARY
• >15 mm sessile/flat lesions require
submucosal injection
• >20 mm piecemeal resection
• Consider pre‐treating large pedunculated
polyps
• Instruct patient/family about possible
complications
73
REFERENCES
1. Electrosurgery in Gastrointestinal Endoscopy: Principles to
Practice, Morris et al. Am J Gastroenterol. 2009.
2. Electrosurgical generators. Technology Status Evaluation
Report. Tokar et al. GIE. 2013.
3. Polypectomy Devices. Technology Status Evaluation
Report. Carpenter et al. GIE. 2007.
4. Advanced Colon Polypectomy. Monkemuller et al. Clinic
Gastroenterol Hepatol. 2009.
5. Colon Polypectomy. Kedia and Waye. J Clin Gastroenterol.
2013.
6. Advanced Polypectomy. Waye, J. Gastrointest Endoscopy
Clin N Am. 2005.
7. Colonoscopic Polypectomy. Tolliver and Rex. Gastroenterol
Clin N Am. 2008. Thank you
74
C. difficile: Clostridium “Difficult” But Not Impossible
Stacy A. Kahn, MD
Assistant Professor of Pediatrics and Medicine
Section of Pediatric Gastroenterology,
Hepatology, & Nutrition
Director, Transitional IBD Clinic
The University of Chicago Medicine
Disclosures and Disclaimers
• Consultant: AbbVie
• Fecal microbiota transplantation (FMT) is not
an approved therapy.
• The FDA considers FMT a biologic and a
drug.
• The use of FMT for indications other than
recurrent Clostridium difficile infection (CDI)
or for research purposes requires FDA
approval and an Investigational New Drug
(IND) application.
Learning Objectives
• Learn appropriate identification and testing
for C. difficile
• Understand the current medical management
for C. difficile
• Understand the role of fecal microbiota
transplantation (FMT) in C. difficile
75
CDI: A Significant Healthcare Burden
• Leading cause of hospital-associated GI illness
• Increasing cause of community-associated GI
illness
• Costs $3.2 billion annually1
• Rates of CDI have been increasing since 2000
• 2011: CDI was responsible for2
• ~ 500,000 infections
• 29,000 deaths
1. Surawicz et.al. American J Gastroenterology 2013.
2. Lessa et. al. NEJM. 2015.
Incidence of Nosocomial CDI
Leffler DA, Lamont JT. N Engl J Med 2015;372:1539-1548
Rates of Pediatric CDI
• Overall Incidence: 24.2/100,000 (2011)1
– Community-Associated: 17.9/100,000
– Health-Care Associated: 6.3/100,000
• Estimated # of cases: 16,900 (2011)1
– Community-Associated: 12,500
– Health-Care Associated: 4,400
• Significant increase of CDI in pediatric IBD2
– 28.6/1,000 (1993-2012) vs. 46.9/1.000 (2009-12)
1. Lessa FC et al NEJM 2015.
2. Hourigan SK et al. Dig Dis Sci. 2014.
76
Severe Pediatric CDI
• Far less common than in adults (2% vs 8-20%)
• More often hospital-associated (74%)
• Underlying conditions: malignancy, HSCT, genetic
syndrome, IBD, transplant, CF
• Symptoms: Fever (47%), abd pain (35%), bloody
stool (17%), ileus (2%)
• Diarrhea: mild (22%), moderate (44%), severe
(27%)
• 5/299 (2%) required ICU admission
• 1/299 (0.3%) death in HSCT pt w/CDI + GN sepsis
Schwartz KL et al. BMC Pediatrics. 2014.
Why is C. Diff so Difficult?
• Gram positive spore forming anaerobic bacteria
– Vegetative and dormant states
• “Bacillus difficile” because it was hard to grow &
isolate
• Spores are HIGHLY resistant
– Heat, acid, disinfectants, antibiotics
• C. diff survives:
– Vegetative cells survive on surfaces for 24 hr
– Spores survive for months to years!
Rupnik M. et al. Nature Reviews Microbiology 2009. www.bioquellus.com/technology/microbiology/clostridium-difficile/
Emergence of Virulent and Resistant Strains: NAP1/BI/027
• North American pulse-field type 1
• Associated with epidemics (hospital-acquired)
• Hypervirulent
– Exhibits quinolone resistance
– Produces binary toxin which increases
production of toxins A + B
– Increased use of quinolones may have
contributed to selection of this strain
• Highly pathogenic
– Mortality 3x higher than other strains
1. Kelly et. al. NEJM. 2008.
2. Surawicz et. al. Nature Reviews: Gastroenterology & Hepatology. 2011.
3. Rupnik M et al. Nature Reviews Microbiology. 2009.
4. Leffler and Lamont. NEJM 2015.
77
CDI Mechanisms and Host Response • Disease caused by enterotoxin A and cytotoxin B
– Interfere with protein synthesis
– Causes cell membrane disruption and death1
• Host immune response may determine who
develops symptoms2
– ~5% of healthy individuals are colonized with
C. difficile2
– Development of IgG Abs against toxin A may
contribute to asymptomatic state3
– High IgG Abs decrease risk for RCDI by a
factor of 444
1. Khanna et. al. Inflamm Bowel Dis. 2013.
3. Surawicz et. al. Nature Reviews: Gastroenterology & Hepatology. 2011
2. Warny et. al. Infect. Immun. 1994.
4. Kelly et. al. NEJM. 2008.
CDI in IBD: A Growing Problem
• Clinical symptoms of CDI and IBD are the same.
• Since 2000: significant increase of CDI in IBD
• 1997‐2011: Hospitalization rates 5‐fold increase in
children/young adults with IBD and CDI
– Compared with < doubling of the hospitalization
rates for IBD without CDI2
• Recurrent CDI in up to 1/3 of children and adults
• Many IBD therapies increase risk of CDI and worsen its clinical course
1. Russell et. al. Gastroenterology. 2014.
2. Sandberg et. al. Inflamm Bowel Dis. 2014.
Risk Factors for CDI in the General Population
“Traditional” Risk Factors:
• Antibiotic use (number and duration)
• Advanced Age (> 65 yo)
• Recent/prolonged hospitalization
• Immunosuppression
• Comorbidities
• Proton-pump inhibitors
• NG tubes
Vardakas et. al. International Journal of Infectious Dis. 2012.
78
Risk Factors are Not the Same in Patients with IBD
• Antibiotic use  less important
– Abx use preceding CDI is less common
• 40% of IBD patients vs. 69% in non-IBD
patients1
• 39% of IBD patients with CDI: no recent
Abx use2
• Advanced age and comorbidities
– Average age of CDI in IBD cohorts
significantly lower3
1. Bossuyt et. al. J Crohns Colitis. 2009.
3. Jen et. al. Ailment Pharmacol Ther. 2011.
2. Issa et. al. Clin Gastroenterol Hepatol 2007.
Risk Factors: A Balancing Act In IBD
• Immunosuppression
– Risk of therapy in CDI still unclear
• Maintenance immunosuppressive therapy
associated with 2x risk of CDI1
• No association between use immunosuppressive
therapy and heightened CDI risk in UC patients2
– Corticosteroids may heighten risk of infection
• Steroid initiation tripled the risk of CDI3
• IBD is an independent risk factor for CDI
– 3x increased risk as compared to non-IBD patients4
1.
2.
Issa et. al. Clin Gastroenterol Hepatol. 2007.
Kariv et. al. J Crohns Colitis. 2011.
3.
4.
Schneeweiss et. al. Ailment Pharmacol Ther. 2009.
Rodemann et. al. Clin Gastroenterol Hepatol. 2007.
Who should we test?
• Only patients with diarrhea (> 3 liquid
stools/day) should be tested for CDI!
• All hospitalized patients with IBD with a disease
flare
• Ambulatory patients who develop diarrhea
(even with no known risk factors)
• Patients s/p colectomy and IPAA that are
symptomatic
Surawicz et. al. The Am Journal of Gastroenterol. 2013.
79
CDI Test Options
Nucleic acid amplification tests (NAATs)
•
•
•
PCR for toxin genes
Superior to A + B EIA testing
Risk of false positive even after Tx/asymptomatic pt
Toxins A + B Enzyme Immunoassay (EIA)
•
•
Lower sensitivity and specificity
Risk of false positive even after Tx/asymptomatic pt
Glutamate dehydrogenase (GDH) screening
• Used in testing algorithms
• Unable to distinguish toxigenic and nontoxigenic
strains
Surawicz et. al. The Am Journal of Gastroenterol. 2013.
Which Test to Choose?
TEST
SENSITIVITY
SPECIFICITY
NAAT PCR
100%
99.2%
A + B EIA
75 - 95%
83-98%
GDH screening
75 - >90%
low
Surawicz et. al. The Am Journal of Gastroenterol. 2013.
The Perfect CDI Drug
High level of drug in colon
Little systemic absorption
Minimal disruption to commensal
microbiota
Good safety profile
Affordable
Approved for pediatric use
http://www.examiner.com/article/new‐weight‐loss‐pills‐no‐cure‐for‐obesity‐crisis
80
CDI Treatment Options
Antibiotics
• Metronidazole
• Vancomycin
• Fidaxomicin
• Rifaxamin
• Teicoplanin
• Nitazoxanide
Other Therapies
• IVIG
• Monoclonal
antibodies
• C. diff toxoid vaccine
• Probiotics
• Fecal Microbiota
Transplantation
(FMT)
CDI Treatment Paradigms
Severity
Clinical Manifestations
Treatment
Asymptomatic carrier
No signs or symptoms
No treatment
Mild
Mild diarrhea (3‐5/d)
Afebrile
Mild abd pain/tenderness
Stop antibiotics
Hydration/monitor
Metronidazole TID
Moderate
Moderate nonbloody diarrhea
Moderate abd pain/tenderness
Nausea +/‐ vomiting, dehyrdation
WBC >15,000,
Elevated BUN/CR
Stop antibiotics. Consider hospitalization. Hydration/monitor.
Metronidazole 30 mg/kg/TID OR Vancomycin 40 mg/kg/QID (125 mg) x 14 d
Severe
Severe/bloody diarrhea, Tm >38.9
Pseudomembranes, ileus, AKI,
Severe abd pain/tenderness
Vomiting, WBC >20,000, Alb <2.5
Hospitalization. Oral or NG
Vancomycin 500 mg QID +/‐
Metronidazole 30 mg/kg/TID OR
Fidaxomicin 200 mg BID x 10d
Complicated
Toxic megacolon, peritonitis
Respiratory distress, Hemodynamic instability
Antibx for severe infection
Surgery consultation
Consider FMT
Surawicz et. al. The Am Journal of Gastroenterol. 2013.
Leffler and Lamont. NEJM 2015
Vancomycin: Superior in Severe CDI
Zar et al. NEJM 2008;359:1932-40 based on work by Zar, et al. A comparison of vancomycin and metronidazole for the treatment of
C. diff- associated diarrhea, stratified by disease severity. Clin Infect Dis 2007; 45:302-7,
81
Fidaxomicin Decreases RCDI
Louis T. et al.. NEJM. 2011.
Modifying Therapy in CDI
• Antimicrobial agent(s) should be discontinued
• On-going immunosuppression medications
can be maintained
• Escalation of therapy in IBD should be
avoided during the acute phase
Surawicz et. al. The Am Journal of Gastroenterol. 2013.
Recurrent CDI, A Recurring Problem
• After initial Tx of CDI, chance of RCDI within 8
weeks is 10 – 20 %
• After 1st recurrence, rates of recurrence
increase to 40 – 65 %
• Recurrence can be due to the same or different
strain
• RCDI may be due to impaired immune
response or alteration of the gut microbiota
Surawicz et. al. The Am Journal of Gastroenterol. 2013.
82
Treatment Failure Increases
Risk of Recurrence
Jiang et al. Am J Gastroenterol. 2006,.
How is Pediatric RCDI Different?
• C. diff is constitutive flora until after 6 months
of age, 10 % carriage rate at 1 year
• 10-fold rise in incidence from 1991-2009
• Refractory C. diff is rare. Recurrence risk is
about 22-30% as in adults.
• Community acquired CDI: more common than
in adults
• 23-43% lack antimicrobial exposure history
• Up to 38% of previously healthy children with
RCDI have NAP1/B1/027 serotype
Benson L, et al. Infect Control Hosp Epidemiol. 2007;28(11):1233–1235.
Khanna S BL, et al. Clin Infect Dis. 2013;56(10):1401‐1406. Janqi S, et al. JPGN. 2010; 51:2‐7.
CDI Again?! No Easy Answers
• 1st recurrence: treat with same regimen
• 2nd recurrence: pulsed or tapered vancomycin
or fidaxomicin 200 mg BID x 10 days
• No consensus on optimal pulsed/tapering
regimen
**Severe CDI: vancomycin +/- metronidazole and
surgery consult
Surawicz et. al. The Am Journal of Gastroenterol. 2013.
Leffler and Lamont. NEJM 2015.
83
More than 3 Recurrences:
Consider FMT
• If there is a 3rd recurrence, fecal microbiota
transplant (FMT) should be considered1
• Due to reduced efficacy of other
antimicrobial therapies, FMT holds
promise as effective Tx for RCDI2
• Since 2000, failure rates of
metronidazole for uncomplicated CDI
have increased from 2.5% to > 18%2
1. Surawicz et. al. Am Journal of Gastroenterol. 2013.
2. Kelly et. al. NEJM. 2008.
FMT for Recurrent CDI
• 1958:
– 4 patients with pseudomembranous colitis1
– Resolution of symptoms in 48 hrs
• 2010:
– First pediatric FMT for recurrent CDI, NAP1/B1/0272
• 2012:
– First colonoscopic FMT for a child with recurrent CDI3
• 2013:
– Randomized controlled trial of FMT (terminated early)4
– FMT is superior to vancomycin +/- bowel lavage
• Present:
– FMT is ~89% effective and safe5
1. Eiseman et al. Surgery 1958
3. Kahn S et al. Am J Gastro 2012
5. Kassam Z et a. Am J Gastro 2013
2. Russel G et al. Pediatric 2010
4. van Nood et al. NEJM 2013
http://emedicine.medscape.com/article/186458-overview
Regulatory, Safety, and Ethical Issues in FMT
Clinical
•
•
•
•
•
•
•
•
•
•
•
Safety
Risk
Screening of recipients Stigma the “yuck” factor
Selection of donors
Screening of donors
Privacy
Access
Regulation
Cost and insurance coverage
Stool banks
Research
•
•
•
•
•
•
•
•
•
Safety
Risk
IRB approval
Informing subjects and
donors of results
Invasiveness of sampling
Data sharing
Privacy
Biobanking
Regulation
84
Surgical Consultation
• Surgical consultation should be obtained on
all patients with complicated CDI
• Consider surgery:
– hypotension requiring vasopressor therapy
– clinical signs of sepsis and organ dysfunction
– mental status changes; WBC count ≥ 50
– lactate ≥ 5
– complicated CDI with failure to improve on
medical therapy after 5 days
Surawicz et. Al. Am Journal of Gastroenterol. 2013.
Take Home Points
• CDI is on the rise…
both in the hospital and in the community.
• IBD patients are at increased risk for RCDI.
• Recurrent CDI demands tailored treatment.
• Always use antibiotics judiciously!
• Always wash your hands!
– Hand sanitizer isn’t effective against CDI.
Consensus Guidance on Donor Screening
Donor Selection
• A family member, close contact, or a well screened universal donor.
• Donor questionnaire should be similar to AABB donor Questionnaire
Donor Exclusion Criteria
•
•
•
•
•
•
Antibiotic treatment 3 months preceding donation.
History of GI intrinsic illnesses
Autoimmune, atopic disease, or ongoing immune modulating therapy
Chronic pain syndromes, neurologic, or neurodevelopmental disorders Metabolic syndrome, obesity (BMI of >30), or moderate‐to‐severe malnutrition
History of malignant illnesses, ongoing oncologic therapy
Serum Testing (to be performed within 2‐4 weeks of donation)
• Hepatitis A,B, C, syphilis testing, HIV (within 2 weeks)
Stool Testing (to be performed within 4 weeks of donation)
• C. Difficile toxin B (PCR), Culture, O+P (if travel history suggests)
85
Gluten sensitivity: Surely a sensitive
but perhaps not a gluten subject
Stefano Guandalini, MD
Professor of Pediatrics
October 8, 2015
Disclosure slide
• Consultant for AbbVie
• Consultant for ThermoFisher
86
Objectives
• Identify the three clinical disorders currently
thought to be associated with wheat intake
• Realize the lack of evidence for gluten as
responsible of the so‐called «Non‐celiac
gluten sensitivity»
• Be able to approach critically and effectively a
patient suspect of having «Non‐celiac gluten
sensitivity»
Wheat - related disorders
Wheat Allergy
~0.1%
Celiac Disease
1%
Gluten Sensitivity
?0.5-1.0?%
No gene associated
IgE‐mediated Infants and Bakers
HLA‐DQ2, DQ8
Autoimmune disease
Any age
No gene associated
Likely Immune‐
mediated
Mostly adults
Serum
specific IgE
CD autoantibodies
Biopsy
No
diagnostic marker
87
Gluten (or Wheat)
Wheat - related disorders
related disorders
Wheat Allergy
~0.1%
Celiac Disease
1%
Non-celiac
Gluten Sensitivity
?%
No gene associated
IgE-mediated
Infants and Bakers
HLA-DQ2, DQ8
Autoimmune disease
Any age
No gene associated
Immune-mediated?
Mostly adults
Respiratory, skin
symptoms
GI and extra-GI
symptoms
GI and extra-GI
symptoms
Gluten (or Wheat)
Wheat - related disorders
related disorders
Wheat Allergy
~0.1%
Celiac Disease
1%
Non-celiac
Gluten Sensitivity
?%
No gene associated
IgE-mediated
Infants and Bakers
HLA-DQ2, DQ8
Autoimmune disease
Any age
No gene associated
Immune-mediated?
Mostly adults
Serum
specific IgE
CD autoantibodies
Biopsy
No
diagnostic marker
Gluten (or Wheat)
Wheat - related disorders
related disorders
Wheat Allergy
~0.1%
Celiac Disease
1%
Non-celiac
Gluten Sensitivity
?%
No gene associated
Largely IgE-mediated
Children and Bakers
HLA-DQ2, DQ8
Autoimmune disease
Any age
No gene associated
Immune-mediated?
Mostly adults
Serum
specific IgE
CD autoantibodies
Biopsy
No
diagnostic marker
88
An Italian survey on 486 patients:
Who suspected it?
Volta U et al., BMC Medicine 2014
An Italian survey on 486 patients:
Gastrointestinal symptoms
Volta U et al., BMC Medicine 2014
An Italian survey on 486 patients:
Extra‐intestinal symptoms
Volta U et al., BMC Medicine 2014
89
An Italian survey on 486 patients:
Anti‐Gliadin Antibodies
Volta U et al., BMC Medicine 2014
A study from Australia Inclusion criteria
 Age older than 16
 Symptoms of IBS according to Rome III criteria
that improved on a GFD
 Symptoms well controlled on GFD
 Celiac disease excluded
Biesekierski JR et al., Gastroenterology 2013
90
Design – RDBPCT (Crossover)
Low FODMAP diet
1 Week
2 Weeks
1 Week
High gluten
(16g)
Screening
Run in / Low FODMAP diet
Low Gluten
(2g)
Placebo
(0g)
> 2 Weeks
Washout
Washout
Washout
Gluten free diet
Fermentable
Oligosaccharides
Disaccharides
Monosaccharides
And
Polyols
Shepherd SJ, Am J Gast 2013
Gibson PR, Aliment Pharmacol Ther. 2005
Effect of FODMAP withdrawal
No effect of gluten
Biesekierski JR et al
Gastroenterology 2013
91
Number of studies so far published on NCGS that
utilized pure gluten (not wheat) to challenge:
(Zero)
“Of note, no study on NCGS has specifically used as the re-challenging agent
gluten or gliadin” – Molina-Infante J et al., Aliment Pharmacol Ther April 2015
The only study testing the effect of gluten (4.4 g/d) in NCGS
Di Sabatino A. et al., Clin Gastroenterol Hepatol, Epub only
The only study testing the effect of gluten (4.4 g/d) in NCGS
Di Sabatino A. et al., Clin Gastroenterol Hepatol, Epub only
92
The only study testing the effect of gluten in NCGS
Di Sabatino A. et al., Clin Gastroenterol Hepatol, Epub only
The "GLUTOX" Trial: A Randomised, Double Blind, Placebo
Controlled Crossover Study on "Non‐Celiac Gluten Sensitivity"
100 patients with IBS‐like symptoms, no celiac or wheat allergy
GFD for 3 wks
19 patients did not improve
NCGS excluded
56 patients (75%) did not react
Elli L et al., DDW 2015
81 patients improved Gluten challenge
25 patients (25%) reacted
NCGS confirmed
Guandalini S and Polanco I: J Pediatr 166: 805‐811, April 2015
93
Guandalini S and Polanco I: J Pediatr 166: 805‐811, 2015
The umbrella of WIS:
6 groups of patients!
Non IgE‐
wheat ATI
allergic Sensitive
?
Early‐
stage celiac
Gluten sensitive
FODMAP
sensitive
Placebo/
?
Nocebo
But wait! What about children?
Not 1 mention of children in the whole paper!
94
The only paper in children!
• Open‐label (unblinded!)
• Challenge with undefined «gluten‐containing food» (gluten 5g/d)
• Challenge for 48 hrs with F/U with diary for 2 weeks
• Age range: 1.6‐15.0 years (!)
WIS – A Practical Approach
Pt on GFD
Willing to undergo gluten challenge
Unwilling to abandon the GFD
Gluten for ≥6 weeks
HLA‐DQ2, DQ8
TTG and Biopsy
Positive
Celiac
No Celiac
Positive
Negative
Enjoy your GFD: But remember you could be celiac
No Celiac:
Enjoy your GFD!
Negative
Symptoms recurred?
Yes
No
WIS
WIS ruled out
What you have hopefully learned
• Wheat can adversely affect humans by three
different entities:
– Wheat allergy (0.1‐0.2%)
– Celiac disease (1%)
– Wheat Intolerance Syndrome (0.6%??)
• WIS is an umbrella term, encompassing:
– Placebo/Nocebo
– Early Celiac Disease
– FODMAP sensitivity.... Etc.
• How to approach a patient suspect of WIS
95
Cureceliacdisease.org
96
Treatment of the Refractory
Abdominal Pain Patient
Adrian Miranda, M.D.
Associate Professor of Pediatrics
Division of Pediatric Gastroenterology
Medical College of Wisconsin
Children’s Hospital of Wisconsin
-I am a consultant to QOL Medical
-No other financial relationships with any
commercial entity to disclose
Objectives:



Understand the mechanisms of
abdominal pain
Identifying the patient with refractory
abdominal pain
Know the available and current
treatment options
97
A brief word about abdominal
pain (AP) prevalence
Male
Female
Average age (range), years
Average age of boys
Average age of girls
African-American
Latino
Caucasian
Other
Asian
Demographics AP prevalence
43%
29%
57%
36%
11.8 (8-15)
11.7
11.9
33%
30%
22%
32%
21%
33%
16%
35%
8%
42%
*278 subjects with weekly
questionnaires for 1 year
Saps M et al., J Pediatr. 2009
Geographic distribution of functional abdominal
pain in children (pooled-prevalence)
Korterink JJ, et al., Epidemiology of Pediatric Functional
Abdominal Pain Disorders: A Meta-Analysis. PLoS ONE.
2015.
Proposed Underlying Mechanisms for
Chronic Functional Abdominal Pain
Bacterial
Overgrowth
Altered Receptor
Expression
(5HT, NMDA,TRPV1)
Autonomic
Dysfunction
Altered
HPA-axis
Neuronal
Sensitization
Descending Pain
Modulation
Carbohydrate
Intolerance
Motility
Disorder
98
Stressors



Psychological stress
Inflammatory
Sleep
Where?
Intestinal microbiome
2. Mucosal changes
3. Enteric nervous system
4. Primary afferents
5. Genome
6. CNS

1.
spinewave.co.nz
Possible associations with psychosocial stress
and post-infectious gastrointestinal symptoms
Drossman DA. Gut 1999
Effect of acute psychological stress on
small intestinal permeability in humans
Vanuytsel et al, Gut 2014
99
Important fact in postinfections/inflammatory pain?


Not all patients that have stress or
gastrointestinal infections develop IBS
Not all animals develop visceral
hyperalgesia following “stress”
Post-inflammatory- Animal Model
-24% of rats
maintained
hyperalgesia at
4 months
Zhou et al., Journal of Pain, 2007
Post Infectious IBS
Author
Year
Destination
s
Study
design
Follow-up
(months)
Okhuysen
et al.
2004
Stermer
et al.
2006
Trivedi
et al.
2011
Egypt or
Mexico
Worldwide
Turkey
Retrospecti
Prospective Prospective
ve
Pitzurra
et al.
2011
6
Nair et al.
Lalani et al.
2014
2014
Worldwide Mexico
Worldwide
Prospective Prospective Prospective
6 up to 7
6
6
6
6
Number of
participants
97
(complete
follow-up)
405
120
2476
817
515
Male/femal
e (complete
47/50
study
population)
216/189
89/32
1218/1258 227/590
254/261
IBS
occurrence
(exposed)
13.6%
(16/118)
17.2%
(16/93)
3.1%
(26/852)
5.7%
(20/348)
2.4%
(3/126)
3.7%
(1/27)
0.7%
(12/1624)
2.6%
(12/469)
1.8%
(7/389)
10.0%
(6/60)
IBS
occurrence
2.4%
0% (0/37)
(non(7/287)
exposed)
100
Diarrhoea-predominant irritable bowel syndrome: an organic disorder with
structural abnormalities in the jejunal epithelial barrier
Cristina Martínez, Beatriz Lobo, Marc Pigrau, Laura Ramos, Ana Maria González-Castro, Carmen Alonso, Mar Guilarte,
Meritxell Guilá, Ines de Torres, Fernando Azpiroz, Javier Santos, María Vicario
Gut. 2013
Sleep
Pain
Autonomic
Resoponse
Role of Amygdala



A critical component of the anxiety neuro-circuitry
Associated with fear learning
Memory consolidation
Hippocampus
Descending
pain modulation
vmPFC
Amygdala
Suppresses negative
affect by inhibiting
amygdala output
PAG
Hypothalamus
Ressler, et al 2010
Cullen, et al 2011
Pezawas et al, 2005
101
Amygdala Functional Connectivities
Healthy Control
IBS Patient
VmPFC
Subliminal
Subliminal
VmPFC
Liminal
Liminal
Sood et. al., NASPGHAN 2014
Why is There No Algorithm for
Treatment?




No data to support decision tree
Phenotype is not well understood
Mechanism of disease and medications
not well understood
Very few clinical trials in children
How far Have We Really Come?
1959
55 years
8 randomized, controlled
trials (4 positive)
421 children studied
102
Why we can’t believe all clinical
trials?
Patient A:
Patient B:
15 y/o with 22 month
history of chronic
abdominal pain
-pain daily, 9/10
-nausea and lightheaded
daily, struggles to get out
of bed with fatigue
-has missed 28 days of
school this year
10 y/o with 3 month
history of chronic
abdominal pain
-pain 4 days per week
3/10 on scale
-pain only at night
-no nausea or fatigue
-has not missed
school or activities
Targeting therapy is not
always easy
Kovacic, et al. J Peds 2014
Responding to Placebo Does Not Make You “Crazy”

Perform distracting
tasks activate
periaqueductal grey
(PAG), Anterior
Cingulate Cortex, and
orbitofrontal cortex

Placebo activates
endogenous opioids
and induces mild
respiratory depression
and decreases
adrenergic activity

©2005 by Society for Neuroscience
Benedetti F et al., J.Neurosci. 2005
Pollo et al., Pain 2003
103
Psychological Therapy

Parent Attention Versus Distraction: impact on
symptom complaints by children with and without
chronic functional abdominal pain.
Walker LS et al., 2006

Cognitive-behavioral therapy for children with
functional abdominal pain and their parents
decreases pain and other symptoms.
Levy RL et al., 2010

A randomized controlled trial of a cognitivebehavioral family intervention for pediatric
recurrent abdominal pain.
Robins PM et al., 2005
Hypnotherapy for children with functional abdominal pain
or irritable bowel syndrome: a randomized controlled trial
Vlieger AM, Menko-Frankenhuis C, Wolfkamp SC, Tromp E, Benninga MA
After therapy
At 6 mo followup
At 1 y follow-up
SMT
group
(n =
25)
HT
SMT
HT
SMT
HT
group (n group (n group (n group (n group (n
= 27)
= 24)
= 27)
= 24)
= 27)
56%
15%
66%
7%
46%
4%
Improved 32%
26%
17%
22%
29%
11%
Clinical
12%
remission
59%
17%
71%
25%
85%
No effect
Gastroenterology, 2007
Biofeedback
Changes maladaptive
thoughts and pain
perception
Patient able to visualize
changes in RR, HR and
temperature
104
Gut Vagal Afferents Differentially Modulate Innate Anxiety
and Learned Fear
Klarer M, Arnold M, Günther L, Winter C, Langhans W, Meyer U.
J Neurosci. 2014
 Project to hypothalamus,
amygdala, pre-frontal
cortex, periaqueductal
grey (PAG) and locus
coeruleus (LC)
 Regulate emotional,
autonomic and
behavioral responses
C.H. Knowles, Q. Aziz. PAIN. 2009
Vagal Nerve Afferents Modulate
Autonomic Control
 Efferent activity is
measured noninvasively via heart
rate variability (HRV)
 Afferents may
modulate adrenal
medullary factors: epi,
norepi, dopamine,
endogenous opioids,
substance P
Khasar et al. Eur J Neruosci. 2003
Vagal nerve stimulation
 Neuro-stimulator (NSS) device very
encouraging results in chronic pain trials
 Stimulation of auricular
branch of vagus nerve
 Could restore autonomic
function and pain pathways
105
Pharmacological Treatment
Options
Mild Pain (no disability)
-Peppermint oil
-Iberogast
-Melatonin
-Probiotics?
-Acid suppression?
Pain (with disability)
-TCAs (amitriptyline)
-SSRIs (citalopram)
-Gabapentin
-Antispasmodics
(hyoscyamine , dicyclomine)
-Cyproheptadine
-Rifaximin
Constipation
-Linaclotide
-Lubiprostone
Bottom–up Approach for Mild Abdominal Pain
Rehabilitation Program
SSRI
Gabapentin
Amitriptyline
Adjust school schedule
( sleep, exercise, fluids)
Rifaximin (suspected SIBO)
Cyproheptadine (follow weight closely)
Iberogast
Peppermint oil
Melatonin
Proton pump inhibitor
Education and Reassurance
Antispasmodic- situational pain
Loperamide- situational diarrhea
Don’t Forget to Ask the Important
Question that will Dictate Therapy?
How many days of school or
activities have you missed?
106
Top-down Approach for Disabled Pain Patient
Education and Reassurance
Amitriptyline
SSRI
Gabapentin
Adjust school schedule
( sleep, exercise, fluids)
CoQ10 (fatigue)
Melatonin (sleep)
Proton pump inhibitor (dyspepsia)
Fludrocortisone (orthostatic intolerance)
Cyproheptadine (nausea, pain)
Rifaximin (bloating, excess gas)
Iberogast (nausea, pain, dyspepsia)
Rehabilitation Program
Amitriptyline
Study in Children
-RCT in adolescents 8 weeks of 10, 20 or 30mg based on
weight (n=33)
-Improvement in QOL and pain over placebo
-Negative placebo effect for pain
Mechanism
-Inhibits Na channels, endogenous opioids, NMDA
antagonist, anxiolytic.
Dose:
0.1-2mg/kg/d at bedtime
Side Effects
Constipation, dry mouth, dizziness, somnolence
Bahar RJ et al., J Pediatr. 2008
 IBS, FAP and FD patients were randomized
to 4 weeks of placebo or amitriptyline
 Dose: (10 mg/d, <35 kg, 20 mg/d, >35 kg)
 Pain was assessed daily with self-report
diaries
 No better than placebo in improving
abdominal pain
 Reduced anxiety scores (P < 0.0001)
compared to placebo
Saps et al., Gastroenterology. 2009
107
Citalopram


Citalopram 12-week open label, flexible dose-trial in
children with RAP
Initial dose 10mg and increase to 40 mg if no
response by week 4
Methodological limitation:
-not placebo controlled or
blinded
-small group size (n=25)
Campo JV et al., 2004
Citalopram
Study in Children
-RCT of 20mg/day vs. placebo for 4 weeks in children
with FAP based on Rome III
Roohafza et al., Neurogastroenterol Motil. 2014
Gabapentin
No Data in Children
-Increased rectal compliance in adult IBS-D
-Attenuated rectal mechanosensitivity
Mechanism
Binds alpha 2 delta receptors of Ca channels in CNS
(spinal cord, PAG etc.)
Dose:
8-35mg/kg/d divided 3x/daily (max 3600mg/d)
Side Effects
dizziness, somnolence, fatigue, ataxia
Lee KJ, Kim JH, Cho SW. Aliment Pharmacol Ther. 2005
108
Double-blind, Placebo-controlled Antibiotic Treatment Study of Small
Intestinal Bacterial Overgrowth in Children with Chronic Abdominal
Pain
Collins BS, Lin HC. J Pediatr Gastroenterol Nutr. 2011
-10-day course of 550 mg of rifaximin vs. placebo TID
- No difference in symptoms, including pain
-Adult studies show a therapeutic gain over placebo
about 9-12%
Mechanism
Alteration in the quantity, location, or quality of the hosts'
intestinal microbiota
Dose:
8-35mg/kg/d divided 3x/daily (max 3600mg/d)
Side Effects
dizziness, somnolence, fatigue, ataxia
Cyproheptadine for the Treatment of Functional Abdominal Pain in
Childhood: a double-blinded randomized placebo-controlled trial
Sadeghian M, Farahmand F, Fallahi GH, Abbasi A. Minerva Pediatr. 2008




Pain assessed at 1 and 2 weeks (n=29)
Improvement (87%) vs. placebo (43%)
Primary outcome measure was the self-reported change
of frequency and duration of abdominal pain
Did not use validated questionnaires
Mechanism
Antagonist of serotonin, histamine and muscarinic receptors
Improved gastric accommodation through 5HT receptors?
Dose:
0.25-0.5mg/kg/d divided 2-3x/daily
Side Effects
Weight gain, somnolence, irritability
Safety and Efficacy of Cyproheptadine for Treating
Dyspeptic Symptoms in Children
Rodriguez L, Diaz J, Nurko S. J Pediatr. 2013
Study: Retrospective, open label study of 80 children with
dyspepsia
Cohort: GER, post fundoplication, diabetes, mitochondrial
dysfunction, post Ladd’s procedure
109
Complementary and Supplementary
Therapy
 Approximately 12% of non-clinical
population seeks complementary therapies
for their children with pain
 It is NOT always the answer, but plays an
important role as adjuvant therapy
 Placebo in mild pain?
Barnes et al. , 2008
Melatonin
Melatonin Improves Bowel Symptoms in Female Patients
with Irritable Bowel Syndrome: a double-blind placebocontrolled study
Lu WZ, Gwee KA, Moochhalla S, Ho KY.
Therapeutic effect of melatonin in patients with functional
dyspepsia.
Klupińska G, Poplawski T, Drzewoski J, Harasiuk A, Reiter RJ, Blasiak J,
Chojnacki J
Influence of melatonin on symptoms of irritable bowel
syndrome in postmenopausal women.
Chojnacki C, Walecka-Kapica E, Lokieć K, Pawłowicz M, Winczyk K,
Chojnacki J, Klupińska G.
(STW 5) Iberogast

9 plant extracts: Chamomile flowers, bitter candytuft,
angelica root, caraway fruits, milk thistle, lemon balm
leaves, greater celandine, licorice root, and
peppermint leaves
Mechanism
Likely anti-hyperalgesic properties, improve proximal
gastric accommodation, and may have pro-secretory and
anti-spasmodic properties
Dose
10 drops (1 ml) before each meal
Cost: 100ml for $32
Side effects
Abdominal cramps, diarrhea, nausea, dizziness
110
Treatment of Irritable Bowel Syndrome with Herbal Preparations:
results of a double-blind, randomized, placebo-controlled, multi-center
trial
Madisch A, Holtmann G, Plein K, Hotz J. Aliment Pharmacol Ther. 2004
n=208
Effect of Fludrocortisone Acetate on Chronic Unexplained
Nausea and Abdominal Pain in Children With Orthostatic
Intolerance
John E. Fortunato, Ashley L. Wagoner, Rachel L. Harbinson, Ralph B. D’Agostino Jr, Hossam A. Shaltout, and
Debra I. Diz
More likely to respond if symptoms are reproducible on tilt table
Dose:
Start with 0.5 mg daily and titrate as needed (0.1–0.2 mg/day)
Enteric-coated, pH-dependent Peppermint Oil Capsules for
oilBowel Syndrome in Children.
thePeppermint
Treatment of Irritable
Kline RM, Kline JJ, Di Palma J, Barbero GJ.
-RCT in children with IBS (n=42)
-pH-dependent, enteric-coated capsules (<45kg 1 cap;
>45kg 2 cap)
-Reduction in abdominal pain severity in 75%
Mechanism
Ca+ channel blocker (antispasmodic)
Dose
(30-45kg) 187mg 3x/daily, (>45kg) 374mg 3x/daily
Side Effects
Heartburn, headache, flushing
Kline et al., J Pediatr. 2001
111
Cause or Effect ?
Adverse early life
Genetics
Anxiety
Sleep
Stress
IBS
Dysautonomia
Microbiome
Epigenetics
Adolescent sleep across the
last 20 years
Keyes et al., Pediatrics. 2015
Sleep disturbances in clinic patients with functional bowel
disorders
Fass R, Fullerton S, Tung S, Mayer EA.
Psychosocial stress in nurses with shift work schedule is
associated with functional gastrointestinal disorders
Koh SJ, Kim M, Oh da Y, Kim BG, Lee KL, Kim JW.
Impact of shiftwork on irritable bowel syndrome and
functional dyspepsia
Kim HI, Jung SA, Choi JY, Kim SE, Jung HK, Shim KN, Yoo K
The impact of rotating shift work on the prevalence of irritable
bowel syndrome in nurses
Nojkov B, Rubenstein JH, Chey WD, Hoogerwerf WA.
Am J Gastroenterol. 2000
J Neurogastroenterol Motil. 2014
J Korean Med Sci. 2013
Am J Gastroenterol. 2010
112
Role of Exercise in Pain Control
Rat model:
 Exercise increased β-endorphin and metenkephalin in rostral ventral medulla (RVM) and
periaqueductal grey (PAG)
 Ameliorated thermal and tactile hypersensitivity
Adult IBS
 Prospective, randomized, controlled, open-label
study of 12 weeks (n=102)
 20–60 min of moderate-to-vigorous intensive
physical activity 3 to 5 days per week
 IBS scores, physical functioning, emotion, sleep,
energy, and social role were significantly improved
Stagg, NJ et al. Anesthesiology 2011
Johannesson et al., Am J Gastroenterol 2011
Conclusions
 Careful evaluation should include
assessment of decreased functioning in order
to target therapy
 Combination therapy is necessary in the
severe, disabled patients
 Psychological therapy is key in almost ALL
patients
 We must take advantage of the placebo
effect in the less severe patients and
encourage healthy lifestyles (sleep and
exercise)
113
NAUSEA: UPDATES THAT
WON’T MAKE YOU SICK
Carlo Di Lorenzo, M.D.
Twitter: @carlodilorenzo1
I have no financial relationships
relevant to this presentation to
disclose
Importance







Common reason for referral
Co-exists with other FGIDs
Highly distressing
Sparse literature
No objective measurement tools
No diagnostic algorithms
Ineffective treatments
114
Case
 15 year old adolescent girl
 4 mo hx of waking up every
morning with nausea
 Improves throughout the day
 Worse on school days when she
has to wake up earlier
 Rarely vomits, no weight loss
Case
 ROS positive for migraines and
dizziness
 Normal growth and development
 Normal PE
 Neg HCG, “routine” labs, UA, tox
screen, abdominal US
Have you seen this before?
115
J Pediatr Gastroenterol Nutr 2013;57:311-5
Nausea in pediatric FGID
Kovacic K, et al, JPGN 2013;57:311-5.
Disability was related to higher nausea:
Full school days missed and unable to do home activities
significantly correlated with nausea frequency
Associated symptoms
Percentages
Is functional nausea a pediatric
functional GI disorder?
It will be in Rome IV!
116
Early morning nausea
 Morning nausea in adolescents is
almost always a manifestation of an
anxiety disorder
 Cortisol levels peak in the early
morning hours (usually around 8AM)
 Cortisol is also released as a
response to stress and is a mediator
of anxiety
 Share this FACT with the parents and
patient
If you look for what is
causing the nausea….
You may find this
117
Symptoms of Eosinophilic Esophagitis
by age*
Feeding disorder
Nausea and vomiting
Abdominal pain
Dysphagia
Food impaction
*Median and inter-quartile range, n=103
Or you may find duodenal eosinophilia
(if you biopsied): Is it relevant?
Montelukast in dyspeptic children with duodenal eosinophilia
A double blind, randomized, placebo-controlled, cross-over study (n=40)
% of patients
Friesen CA, at al. J Pediatr Gastroenterol Nutr 2004;38:343-51
45
40
35
30
25
20
15
10
5
0
Montelukast
Placebo
p<0.005 vs. placebo
10 mg daily
14 days rx
Grade 1
(worse)
Grade 2
Grade 3
Grade 4
Symptom relief grade
Grade 5
(complete
relief)
118
More tests?
Nuclear Medicine
Pediatric normal values?
Abell TL et al. J Nucl Med Technol. 2008;36:44-54
 Depends upon the meal
 Use adult data for a solid meal (2
large eggs, 2 slides of bread, jam,
water, 345 KCal):
Abnormal >10% left in the stomach
after 4 hours, >60% after 2 hours
 No pediatric data available, but
look for extremes
119
(JPGN 2013;56: 439–442)
• 71 patients (32 boys, average age 10.8 yr)
• 62% children had abnormal GES; 23% who
had normal values at 2 h had abnormal GES
at 4 h (p<0.0001)
• Survey: Only 5 of the top 20 pediatric GI
centers in the US conducted 4-h GES
• Conclusions: Extending GES to 4 h resulted
in a considerable increase in diagnosis of
gastroparesis
SmartPill pH.p Capsule
pH SENSOR
•
•
•
•
26mm x 13mm
5+ day battery life
Senses and records pH, pressure
and temperature data from
within the GI tract
Wirelessly transmits data to the
SmartPill Data Receiver
TRANSMITTER
BATTERIES
PRESSURE SENSOR
MICROPROCESSOR
120
Wireless Motility Capsule Tracing- Gastroparetic Child
Gastric Emptying
5 hr, 25 min
J Pediatr. 2013;162:1181-7
22 patients (>8 y/o): All had WMC, 21 had complete
scintigraphic gastric emptying study data and 20 had
complete antro-duodenal manometry data
Conclusion: In symptomatic pediatric patients, the
wireless motility capsule test is highly sensitive
compared with scintigraphic gastric emptying studies in
detecting gastroparesis, and seems to be more sensitive
than ADM in detecting motor abnormalities
Newest test
121
Treatment
Try everything!
Old but good…
Cyproheptadine
First generation anti-histamine with additional
anticholinergic, antiserotonergic, and local
anesthetic properties
122
J Pediatr 2013 (in press)
80 children (mean age 10 y)
17 pts with chronic idiopathic nausea, with orthostatic intolerance by
abnormal tilt table tests (88%) or gastric dysrhythmias (71%)
Fludrocortisone: 0.1-0.2 mg/day for 4 weeks
Iberogast
Iberogast is comprised
of the following 9
ingredients:
Iberis amara, Angelica,
Chamomile, Caraway
Fruit, St. Mary’s
Thistle, Balm Leaves,
Peppermint Leaves,
Celandine, and
Liquorice Root.
123
Iberogast in Functional
Dyspepsia
von Arnim U, et al. Am J Gastroenterol. 2007;102:1268-75
Gastrointestinal Symptom score during 8 wk of
treatment with STW 5 (Iberogast) or placebo
Hypnotherapy for nausea?
In five of these studies the participants were children.
Studies report positive results including statistically
significant reductions in anticipatory and CINV.
Meta-analysis revealed a large effect size of hypnotic
treatment when compared with treatment as usual, and
the effect was at least as large as that of cognitive–
behavioural therapy
Acupuncture for nausea?
124
Authors’ conclusions: P6 acupoint stimulation
prevented PONV. There was no reliable evidence
for differences in risks of postoperative nausea
or vomiting after P6 acupoint stimulation
compared to antiemetic drugs
The ReliefBand
Botulinum Toxin:
100-200 Units divided in 4 quadrants
125
Gastrointest Endosc. 2012 Feb;75:302-9
Gastric Electrical Stimulation (GES):
The nausea Holy Grail in pediatrics?
126
Symptom Severity
Improved total score (p<0.0001)
p<0.0001
Conclusions
• Nausea with or without vomiting is a
•
•
•
common symptom in children and
adolescents
Early morning nausea is often a
manifestation of an anxiety disorder
EGD and GE studies may clarify
underlying pathophysiology and direct
treatment
Several medical, behavioral, and
surgical interventions have the potential
to ameliorate nausea
127
New Horizons in Hepatitis C
NASPGHAN Postgraduate Course
Washington, DC
Daniel H. Leung, MD
Baylor College of Medicine
Texas Children’s Liver Center
Pediatrics
Disclosures
•Research support as Principal Investigator for
clinical trials sponsored by Gilead, Merck, BMS,
Roche, and Vertex.
•Served on medical advisory board for Gilead.
•Brand names will be referenced for the purposes of
identification and learning of future studies.
Objectives
•Understand the epidemiology, burden of
disease, and natural history of HCV
•Become familiar with indications to treat
and upcoming all-oral treatment regimens
•Appreciate the rapidity and approach of
HCV drug development
128
1
Hepatitis C: Burden of disease
•Hepatitis C (HCV) is an RNA virus that affects
~200 million worldwide. 3 million in US. #1
cause of HCC in US
•Vertical transmission (5-7%) is the most common
route in infants and children with approximately
7,500 new cases/year in the US.
•There are an estimated 23,000-46,000 children
with chronic HCV (CHC) infection in the US
and 6,600 in Canada.
Alter MJ et al. Ann Intern Med 2006.
Jhaveri R. et al. J Pediatr 2006.
El Saadany S. et al. Can J Gastroenterol 2000.
Histology of chronic pediatric HCV
Goodman ZD, Makhlouf HR, Liu L, et al. Pathology of chronic hepatitis C in children: liver biopsy findings in the Peds‐C Trial. Hepatology 2008; 47: 836–43
Natural History
Maternal transmission 5‐7% Spontaneous resolution <2 yrs
25‐40%
Persistent CHC 48‐69%
Develop CHC but clear at <7 yrs
6‐12%
Children/Adolesc
ents
Most clinically well
15% with mild symptoms
1‐2% develop cirrhosis
HCC
5 reports
129
2
Multi-Center European Study 1980-1998
“Mild but Progressive”
200 followed for mean of 6.2 ± 4.7 yrs
87% asymptomatic
+HCV RNA
48% N=224 Liver bx
n=92
ALT< 2x ULN
6% viral clearance and ALT normalization
79% Genotype 1
Mean Ishak (0‐6) 1.6 ± 1.3
17% Genotype 2/3
‐Children < 15 yr 1.5 ± 1.3
‐Children > 15 yr 2.3 ± 1.2 Cirrhosis
1 (1%)
Jara et al. Clinical Infect Dis. 2003
Overweight children in US with HCV at risk for increased fibrosis
•Peds-C Trial (U.S.)
•N=121
• 4.2 % bridging fibrosis
• 1.7 % cirrhosis
• 44% steatosis (minimal
in 34%, mild in 10%)
• Steatosis correlated with
serum ALT and BMI zscores
Ishak BMI‐Z<1.64 BMI‐Z>1.64
Score (n=92)
(n=29)
0
16%
7%
1
2
46%
36%
45%
31%
3
4
2%
‐
11%
‐
5
6
‐
‐
3%
3%
Goodman ZD, Makhlouf HR, Liu L, et al. Hepatology 2008.
Obesity and impact on Treatment in
US children
Obesity MAY • Decreases IFN bioavailability
• Alter cytokine function
• Increase insulin resistance
1 unit in BMI z‐
score = ‐12% response rate Delgado‐Borrego et al. JPGN 2010
130
3
Why worry?
•Recent observations in adults with CHC
indicate that hepatocellular carcinoma may
develop in the absence of cirrhosis
•Children with early stage, treatment-naive
HCV demonstrated cognitive impairment with
memory most affected
Lok AS et al. Gastroenterology 2009. Madhoun MF et al. Am J Med Sci 2010. Faddan et al. Journal of Viral Hepatitis 2014.
Screening/Monitoring Infants <3 yrs
•-Recommended age:>18 months due to
maternal antibody (NASPGHAN 1B; AIII)
•-HCV antibody: specificity and sensitivity of the
third generation EIAs are >98% and >97%
respectively
•-HCV RNA quantitative PCR reserved for
confirmation (NASPGHAN 2B; BIII)-maternal
anxiety
Mack, CL et al. J Pediatr Gastroenterol Nutr. 2012.
Monitoring in Children
•Annual evaluation in children with HCV not on
antiviral therapy
‐Ongoing education and physical exams
‐Laboratory investigations (NASPGHAN 2A; BII):
•Serum aminotransferases
•Bilirubin (total/direct or conjugated)
•Albumin
•HCV RNA quant
•CBC
•PT/INR
Mack, CL et al. J Pediatr Gastroenterol Nutr. 2012 .
131
4
Monitoring in Children
•In children with significant liver disease (hepatic
fibrosis or cirrhosis):
Abdominal ultrasonography
AND
Serum alpha-fetoprotein
should be considered ANNUALLY to screen for
HCC (NASPGHAN 2B; BII*).
Mack, CL et al. J Pediatr Gastroenterol Nutr. 2012.
Role of HCV genotyping
•Predictor of RESPONSE
and OPTIMAL DURATION
•Genotype 1:<40%*
*
•Genotype 2 or 3: >80%
chance of cure
•This has changed with
advent of new therapies
Wirth, World Journal of Pediatric Gastroenterology, 2012
Role of liver biopsy
Liver biopsy may be considered if the result will
influence medical decision-making.
‐To investigate clinical hepatic decompensation
‐To assess severity of liver disease for antiviral
candidacy
‐May forego pre-treatment liver biopsy in children with
HCV genotypes 2 or 3 who have a high (>80%)
probability of achieving a virologic cure (NASPGHAN
2B; BII recommendation).
Mack, CL et al. J Pediatr Gastroenterol Nutr. 2012.
132
5
Pegylated Interferon + Ribavirin
‐Two U.S. licensed
pegylated interferons
•Peginterferon alfa2b (Peg-Intron®)
•Peginterferon alfa2a (Pegasys®)
•Ribavirin:
(Rebetol®,
Ribasphere®)
How effective is current therapy?
•5 largest pediatric prospective clinical trials
•Overall SVR is 60%
•51% in G1
•93% in G2/3
Wirth, World Journal of Pediatric Gastroenterology, 2012
To treat or not to treat?
Treat
Wait
High response rate (Genotypes 2 or 3)
Chance for spontaneous clearance
Improved tolerability in children Psychiatric disorder
Lower viral load
Morbid obesity
Parental oversight
Low response rate (Genotype 1)
Family history of HCC or cirrhosis
Puberty
Reduce social burden
More advanced therapies ahead
133
6
Duration of Treatment
‐Children with genotype 1/4 can be treated with
peginterferon alfa-2a + ribavirin for 48 weeks
‐Children with genotypes 2 and 3 can be treated
with peginterferon alfa-2 + ribavirin for 24 weeks
‐Insufficient/no data to support benefit vs risk in
increasing duration and dose of treatment
Hadziyannis SJ et al. Ann Intern Med 2004.
Zeuzem S, et al. J Hepatol 2006.
Dalgard O et al., Gut, 2007.
Treatment Endpoints
Each outcome has prognostic significance. RVR is the strongest predictor of SVR (gold standard for cure)
U.S. Department of Veterans Affairs ‐ 810 Vermont Avenue, NW ‐ Washington, DC 20420
HCV Life Cycle: Understanding the Future
Dan
134
7
Future Therapeutics: A new era
•HCV encodes one single polyprotein that is cleaved into 10
structural and non-structural proteins by viral enzymes
•Direct Acting Antivirals (DAA) are designed to inhibit viral
proteins involved in the HCV life cycle. The complexity of
the viral machinery allows for numerous potential targets.
Personalized HCV Therapy
Nature Publishing Group, 2005
HCV Structure: Understanding the
Future
•Discovery of first two
DAA against the NS3/4A
serine protease for use
in genotype 1 HCV
• Ketoamide inhibitors,
boceprevir and telaprevir
were approved in 2011
135
8
Translation/Processing
Protease inhibitors
Non‐Nucleoside Polymerase inhibitors
Nucleos(t)ide Polymerase inhibitors
Ledipasvir
Sofosbuvir
Dasabuvir
Welsch, C. Et al. Gut 2012;61(Suppl 1):i36ei46. doi:10.1136/gutjnl‐2012‐302144
What’s the big deal?
•HCV superseded HIV cause
of death in US since 2007
•89 investigational
medications studied between
1998-2014 to treat HCV
•Growing pipeline of potent
direct antivirals for HCV
currently totals 75 in the US
alone!
Pharmaceutical Research and Manufacturers of America. 2015 biopharmaceutical research industry profile. Washington, DC: PhRMA; April 2015
SOFOSBUVIR (NS5B): THE NEW “BACKBONE” OF
HCV THERAPY ?
• Approved in December
2013
• 1st in combo with PEGIFN +ribavirin, >85% SVR
in 12 wks
• 2nd with ribavirin, the first
interferon-sparing
treatment regimen for G2
(12 wks) or G3 (24 wks)
with >95%
Lancet Infect Disease 2013 May;13(5):401‐8 136
9
Timeline of recently FDA approved HCV drugs
Telaprevir (Incivek®) and Boceprevir (Victrelis®), May 2011
Sofosbuvir (Sovaldi®), Dec 2013
Ledipasvir (Harvoni®), Oct 2014
Simeprevir (Olysio®), Nov 2014
Ombitasvir, paritaprevir, ritonavir +dasabuvir (Viekira pak®), Dec 2014 Scientific mix & match
• + Ledipasvir (NS5A) >90% for G1 in 12 weeks,
October 2014
• + Simeprevir (NS3/4A) : 93% in 12 wks G1, 97%
in 24 weeks, November 2014
• + Daclatasvir (NS5A) 98% for G1 in 12 weeks (No
FDA)
Non-Sofosbuvir combinations
•Viekira Pak (ombitasvir (NS5A), paritaprevir (NS34A) and ritonavir tablets co-packaged with
dasabuvir tablets (NS5B)
•95% for G1 and G4 in 12 weeks
•Grazoprevir (NS3/4A)/Elbasvir (NS5A) for G1/4
and those with endstage renal disease on dialysis
•Daclatasvir (NS5A) + Asunaprevir (NS3) (FDA app
withdrawn)
137
10
A genotypic paradigm shift
•G3, not G1 is now the most difficult to treat with new
DAA’s with higher relapse rates after 12 weeks of
treatment.
•G3 patients are more responsive to pegylated
interferon, but require 24 weeks of Sofosbuvir instead
of 12 (G1)
•This same trend has been demonstrated with other
DAA combinations
Empiric approach to pediatric HCV
•Treat the child with >75% chance of responding to
PEG-IFN (G2 and G3). Really?
•For mild inflammation and fibrosis, wait for all-oral
DAA drugs or consider trials
•Offer children with aggressive inflammation and
fibrosis on liver biopsy entry into pediatric DAA
trials
Summary
•HCV progression is mild in children but not without
risk
•Fibrosis and poor response associated with obesity
•Peg IFN+RBV is the current standard of care.
Genotype will predict response and duration of
treatment differently.
• Future: Single pill, 12 weeks, no SE’s, >90% cure
138
11
Renal Complications of
Chronic Liver Disease
NASPGHAN Post-Graduate Course 2015
Jean Pappas Molleston, M.D.
Professor of Clinical Pediatrics
Indiana University School of Medicine
Disclosures
• I have research funding from Lumena, Vertex,
Gillead, Abbvie
• I have research funding from the CF
Foundation
• I have received funding from Vindico for a
medical education presentation
Objectives:
• Define renal complications in chronic liver
disease
• Review mechanisms of ascites, role of the
kidney, and diuretic use
• Understand fluid balance in cirrhosis
• Review definition of Hepatorenal Syndrome
(HRS) and treatment recommendations
139
Physiology of Portal Hypertension
• Peripheral and splanchnic vasodilation with
increased cardiac output
• Increased resistance to portal vein inflow due
to cirrhosis
• Increased portal vein pressure
• Consequences: *renal dysfunction
*ascites
variceal bleeding
hypersplenism
Fagundes AJKD 2012
Kidney in Portal HTN/Cirrhosis
•
•
•
•
•
•
Systemic arterial vasodilation
Decreased effective arterial blood volume
Renal vasoconstriction
Possible role of inflammatory response
Possible role of angiogenic factors
Renal sodium and water retention
140
Ascites: Physiology
• Vasodilation and effective hypovolemia result
in stimulation of the renin-angiotensin,
aldosterone system; salt and water are retained
• Portal hypertension increases
hydrostatic pressure in
splanchnic circulation,
exceeding capacity
of lymphatics
• Low albumin decreases
colloid oncotic pressure,
allowing fluid
to leak into interstitium
Giefer JPGN 2011
Management of Ascites in Cirrhosis
• Mild sodium restriction
• Diuretics
– Spironolactone: inhibits aldosterone (acts distally)
2-3mg/kg/d
– Furosemide: loop diuretic 1-2mg/kg/d
• Albumin infusion 1g/kg
of 25% albumin
• Paracentesis +/- albumin
• TIPS
Giefer JPGN 2011
Hyponatremia in Cirrhosis
Cirrhosis/portal hypertension
Splanchnic/systemic vasodilation Decreased effective arterial blood volume
Activation of neurohumoral systems
Renal tubule/water retention
Dilutional hyponatremia
Adapted from Mohanty
Gastroenterol Hepatol 2015
141
Consequences of Hyponatremia
in Cirrhosis
•
•
•
•
Higher mortality
More encephalopathy
Associated with ascites, HRS
Associated with impaired QOL
Mohanty Gastroenterol Hepatol 2015
Hyponatremia in Cirrhosis:
Treatment
Transplant
Cirrhosis/portal hypertension
Splanchnic/systemic vasodilation Decreased effective arterial blood volume
Albumin infusions
Hold diuretics
Activation of neurohumoral systems:
Renal tubule/water retention
Dilutional hyponatremia
Water restriction
?Vaptans?
Adapted from Mohanty
Gastroenterol Hepatol 2015
Causes of Renal Dysfunction in
Cirrhosis
• Intra-renal 29% (glomerulonephritis, interstitial
nephritis)
• Pre-renal 70%
– 66% respond to volume expansion
– 34% do not respond to volume  HRS
• Precipitating factors:
–
–
–
–
–
Infection, esp. spontaneous bacterial peritonitis
GI bleeding
Excessive diuresis
Diarrhea (lactulose)
Drugs (including antibiotics, NSAIDS)
Charlton Liver Transplant 2009
142
Consequences of Renal
Dysfunction in Cirrhosis
• Ascites
• Hyponatremia
• Hepatorenal syndrome
– Type 1: acute renal failure
– Type 2: chronic
renal failure
Fagundes AJKD 2012
Hepatorenal Syndrome: Clinical
Characteristics
• Diagnostic criteria:
– Cirrhosis with ascites
– Elevated creatinine (Cr)
– No improvement of Cr after withdrawal of
diuretics for 2 days and albumin infusions to
expand plasma volume
– No shock, no nephrotoxic drugs
– No parenchymal kidney disease (proteinuria,
hematuria, abnormal u/s)
Fagundes AJKD 2‐12, Wong Nat Rev: Gastro/Hep 2012
Treatment of Hepatorenal Syndrome
• Recognize/prevent/treat precipitating factors
• Try 1g/kg albumin IV up to 100g in adults
• Vasoconstrictor therapy:
– Terlipressin* plus albumin (34-43% resolution of HRS
in RCT)
– Midodrine plus octreotide/albumin (30% effective,
uncontrolled studies; compared to terlipressin/albumin
29% vs 70%)
– Norepinephrine plus albumin ? equivalent to
terlipressin (RCT)
*terlipressin not available in US
Reviewed in Wong Nat Rev Gast 2012; Gluud
Cochrane 2012; Cavallin Hepatol 2015
143
Medical
Management of
HRS with
Vasoconstrictors
Wong Nat Rev Gastr/Hep 2012
Hepatorenal Syndrome and Renal
Replacement Therapy (RRT)
• Decision for RRT depends on fluid balance,
metabolic derangements (K+, acidosis), and
level of renal dysfunction
• CVVHD is preferred to intermittent
hemodialysis to minimize hemodynamic
instability
• There are issues like choice of anticoagulant
(role of citrate?)
Long Term Outcomes of Children
with HRS Receiving RRT then
Liver Transplant
Survival
GFR/years of follow‐up
Need for f/u antihypertensives
Received RRT (8)
Matched controls, no RRT (24)
P Value
5/8 (63%)
24/24 (100%)
0.01
97 (60‐122)/3.2yrs
114 (65‐236)/4.9yrs
NS
1/5 (20%)
2/22 (9%)
NS
Adapted from Parsons Liver Transplant 2014
144
Hepatorenal Syndrome and TIPS
• Adult studies in type I and II hepatorenal syndrome
HRS indicate improvement in renal function after
TIPS placement
• Use of TIPS in decompensated cirrhosis is
problematic: can result in encephalopathy or even
liver failure; bili>3-5 considered contraindication
Rossle Gut 2010
Effects of a Transjugular Intrahepatic
Portosystemic Shunt (TIPS) on Urinary Sodium
Excretion and Creatinine concentration.
Rossle Gut 2010
.
Hepatorenal Syndrome and
Transplantation
• HRS resolves in 76% of adults in 13 days
• 6% increase in chance of not resolving per pretransplant dialysis day
• Guidelines recommend isolated liver transplant
if duration of RRT is less than 6-12 weeks
• Combined liver kidney transplant if duration of
RRT is >8 wks
– 3 year patient, kidney and liver survival all >65%
– Not always better than isolated liver tx
Wong Liver Transplant 2015
Davis Liver Transplant 2005
Locke Transplantation 2008
145
Impact of the Etiology of Acute Kidney Injury on
Outcomes Following Transplantation: Acute Tubular
Necrosis Versus Hepatorenal Syndrome Liver
Nadim Liver Transpl 2012
Summary
• Peripheral/splanchnic vasodilation, decreased
effective blood volume and renal
vasoconstriction lead to renal complications of
cirrhosis: ascites, hyponatremia, HRS
• Treatment of these complications revolves on
understanding the kidney’s role in Na and H20
balance in cirrhosis
• There are some encouraging data regarding
vasoconstrictor + albumin therapy for HRS in
adults; pediatric research is needed!
Take Home Messages
• Carefully monitor renal status in cirrhosis
• Avoid over-diuresis & nephrotoxic drugs and
treat infection early to avoid precipitating HRS
• Try providing colloid when HRS is suspected
• Consider adding vasoconstrictor therapy in
HRS (need pediatric data)
• HRS often reverses after liver transplant
146
Wilson Disease – an update
Simon Horslen MB ChB FRCPCH
Director Hepatobiliary Program
Medical Director Liver & Intestine Transplantation
Seattle Children's Hospital
Professor Department of Pediatrics
University of Washington School of Medicine
Disclosure
In the past 12 months, I have had no relevant financial relationships
with the manufacturer(s) of any commercial product(s) and/or
providers(s) of commercial services discussed in this CME activity
I do not intend to discuss an unapproved or investigative use of a
commercial product or device in my presentation
Learning Objectives
1. Review the clinical presentations in pediatric population
and typical diagnostic evaluation.
2. Understand genetics and patterns of inheritance to
focus who should be screened.
3. Understand treatment strategies and side effects of
current and future therapies
147
Content
•
•
•
•
•
•
•
•
History
Presentation of Wilson disease
Physiology of copper
Genetics of Wilson disease
Diagnosis
Prognosis
Treatment & Monitoring
Future directions
History
•
Progressive degeneration of lenticular
nuclei associated with hepatic cirrhosis
was recognized as a distinct clinical
entity in 1912
•
John Nathaniel Cumings made the link
with copper accumulation in both the
liver and the brain in 1948
•
Derek Denny-Brown first reported
effective treatment with metal chelator
British anti-Lewisite in 1951
•
Penicillamine, first effective oral agent,
was introduced in 1956 by John Walshe.
•
Gene locus chromosome 13q 1985
•
Gene cloned – P-type ATPase 1993
Samuel Alexander Kinnier Wilson
Phenotypic Presentation of Wilson Disease
Hepatic presentations
H1: Acute hepatic Wilson disease
H2: Chronic hepatic Wilson disease
Neurologic Presentations
N1: Associated with symptomatic liver disease
N2: Not associated with symptomatic liver disease
NX: presence or absence of liver disease not investigated
Other (O)
148
Classic Pediatric Presentation
•
•
•
•
•
•
•
•
•
7-16 year old child
Previously healthy
2 weeks malaise and increasing jaundice
Coomb’s negative hemolytic anemia
Modest elevation of transaminases
Low alkaline phosphatase
Prolonged prothrombin time
Low ceruloplasmin level
High urinary copper excretion
Copper kinetics and metabolism
• Regular diet averages 5 mg/d
• Exchange ~ 2mg a day (net absorption ≈ net losses)
• Total body copper ~100 mg (Liver 20%, Blood 10% Other tissues
70%)
• Liver rapidly clears newly absorbed copper
• Ceruloplasmin made by hepatocytes, each molecule contains
6 copper atoms incorporated during biosynthesis
• Failure to incorporate copper either because of dietary
deficiency or Wilson disease leads to a reduced serum
ceruloplasmin level
Copper kinetics
Stable isotope
enrichment
studies (65Cu)
showing normal
range and a
patient with
Wilson disease
(blue line)
% enrichment
15
10
5
0
0
20
60
40
Hours after oral 65Cu dose
80
149
Copper metabolism in the hepatocyte
Ceruloplasmin
ER
IL-6
TNF
Trans-Golgi
Network
cytochrome
oxidase
HAH1
Cox17
Bile
canaliculus
Wilson ATPase
metallothionein
Ccs
Cu/Zn superoxide
dismutase
To Plasma
(secretion)
Ctr1
Cu-histidine
Cu-albumin
Hepatic Sinusoid
From: Disorders of Copper Transport: The Online Metabolic and
Molecular Bases of Inherited Disease, 2014
Date of download: 6/22/2015
Copyright © 2015 McGraw-Hill Education. All rights reserved
Molecular biology of Wilson disease
• ATP7B Chromosome 13q14.3
• 21 exons, 60 kb
• >500 mutations described
• H1069Q most common in Europeans
35-40%
• A778L up to 30% of Asian populations
• Genotype- phenotype correlation not
strong
• Genetic modifiers – MTHFR,
COMMD1, ATOX1, XIAP
• Environmental modifiers - diet
Copper-binding domain
ATP-binding domain
Diagnostic Tests
•
•
•
•
•
•
KF rings
Ceruloplasmin
Serum copper
Urinary copper
Liver biopsy
Molecular genetics
150
Kayser-Fleischer Rings
• Occur in 90-95% of WD
patients with a neurological
presentation
• But only 40-65% in hepatic
presentations
• Slit-lamp examination often
necessary
• Can occur in other forms of
copper toxicosis and chronic
cholestatic syndromes
(pseudo-rings)
Ceruloplasmin
• Typically low (<20 mg/dL)
in WD
• Levels may be normal in
20-50% at presentation
• Acute-phase reactant
• May be low in copper
deficiency, chronic liver
disease, nephrotic
syndrome and proteinlosing enteropathy
Serum copper
Serum Copper
• Circulating copper may be:
• Low - because the
ceruloplasmin level is low
• High –liver necrosis
‘free’ copper
• Normal – a normal level does
exclude the diagnosis
releases
not
• Free (non-ceruloplasmin bound) copper
• Calculated parameter and subject to error
• Better for treatment monitoring than diagnosis
• > 25 g/dL in most untreated patients
151
Urinary copper excretion
• 24 hour collection
• Collected into acid-washed container to prevent copper
contamination
• Basal copper excretion >5 mol/24 h (320 g/24 h)
suggestive of WD
• Műller et al 2007 used >1.6 mol/24 h (100 g/24 h)
• 94% symptomatic patients
• 69% asymptomatic siblings
• 22% controls
• Penicillamine challenge - >25 mol/24 h (1600 g/24 h)
Liver Biopsy
• Histology may be supportive but features are
not pathognomonic
• Copper stains frequently negative
• Hepatic copper content
• Normal < 50 g/g dry weight
• WD > 250 g/g dry weight but may be lower than this
in up to 20% of WD patients
• Maybe as high in chronic cholestasis
• Avoid contamination, place biopsy directly into dry
plastic copper-free container. Do not use fixed
tissue.
Molecular Genetics – ATP7B
• Haplotype and targeted mutation analysis
• Many laboratories now offer full gene sequence
analysis and deletion/duplication analysis
• Carrier frequency ~1 in 90 based on case
identification
• Population based studies using molecular
techniques suggest higher rates
• No mutation identified in up to 13% but others have
had 98% success in identifying gene defect
152
Leipzig Score
8th International conference on Wilson's disease and Menkes Disease. Leipzig/ Germany,
April 16-18, 2001
Laboratory Tests
Ceruloplasmin (mg/dL)
Normal
10-20
< 10
Score
0
1
2
Urinary copper
(in absence of acute hepatitis)
Normal
1-2x ULN
>2x ULN
Normal but >5x ULN
with penicillamine challenge
0
1
2
2
Liver Cu quantitation
Normal
<5x ULN
>5x ULN
-1
1
2
Rhodanine positive hepatocytes
(only if hepatic Cu level not available)
Absent
Present
0
1
Symptoms
Score
KF rings (slit lamp examination)
Present
2
Absent
0
Neuropsychiatric symptoms suggestive of WD
(or typical brain MRI)
Present
2
Absent
0
Coombs negative hemolytic anemia
(+ high serum copper)
Present
1
Absent
0
Mutation analysis
Disease causing mutations
on both chromosomes
Disease causing mutation
on one chromosome
No disease causing mutations
detected
4
1
0
Wilson Index for Predicting Mortality
Score
Bilirubin
INR
mol/L)
AST
WCC
(IU/L)
(x109 /L)
Albumin
(g/L)
0
0-100
0-1.2
0-100
0-6.7
>45
1
101-150
1.3-1.6
101-150
6.8-8.3
34-44
2
151-200
1.7-1.9
151-300
8.4-10.3
25-33
3
201-300
2.0-2.4
301-400
10.4-15.3
21-24
4
>300
>2.5
>401
>15.4
<20
A score 11 – PPV 92% & NPV 97%
Dhawan A et al Liver Transpl. 2005
Treatment
• Aim to start chelation therapy asap in symptomatic
individuals
• Treatment is life-long, including during pregnancy
• If one treatment modality is discontinued, an alternative
modality must be substituted
• Discontinuation of all treatment leads to hepatic and
neurologic decompensation, which may be refractory to
further medical intervention
153
Treatment
• D-Penicillamine (chelator)
• Serious side effects can occur in up to 30% of individuals
• Severe thrombocytopenia, leukopenia, aplastic anemia,
nephrotic syndrome, polyserositis, Goodpasture syndrome,
severe skin reactions
• Trientine (chelator)
• Rash, anorexia, abdominal pain, aplastic anemia, muscle
cramps
• Zinc (blocks copper absorption)
• GI disturbance
• Dietary copper restriction
Monitoring
• Why monitor?
• Inadequate therapy, or non-adherence
• Adverse drug effects (especially with D-penicillamine treatment)
• Excessive long-term treatment may result in copper deficiency
• Frequency of monitoring visits depends on time from
diagnosis, changing medications and compliance
• Serum copper and ceruloplasmin, LFTs, INR, CBC,
urinalysis, and physical examination
• 24-hour urinary excretion of copper at least annually
Liver transplantation for Wilson disease
• Primarily indicated for children and adolescents with
fulminant presentation
• Chronic liver insufficiency
• Neurological injury not generally responsive
• Outcomes based on UNOS data
• Pediatric survival 90% and 89% at 1 and 5 years
• Adult survival
88% and 86%
• 1 year survival better if transplanted for chronic liver disease than
for ALF
Arnon R et al. Liver transplantation for children with Wilson disease: comparison of
outcomes between children and adults. Clin Transplant. 2011 Jan-Feb;25(1):E52-60.
154
Asymptomatic siblings
• The goal is to identify affected siblings of a proband
before they become symptomatic
• If mutations known, testing with molecular genetics is
appropriate
• If mutations not known standard clinical testing can be
conducted
• Treatment with zinc alone may suffice, but is required
life-long
Future directions: New research
• Phenotypic variation
• Genetic
• Epigenetic
• Environmental
• New Drug Treatments
• (Ammonium tetrathiomolybdate)
• Intrahepatic copper chelator
• Screening
Gateau & Delangle Ann N Y Acad
Sci. 2014
Future directions: Population screening
• Population frequency 1 in 30,000
• Presymptomatic diagnosis is reliable, treatment can
prevent manifestations of disease
• Ceruloplasmin and serum copper not useful for infant
screening
• A novel proteomic screening approach is being
investigated using liquid chromatography–multiple
reaction monitoring–mass spectrometry (LC-MRM-MS)
looking at ATP7B protein levels
155
Conclusion
• Understanding copper metabolism helps explain findings
in Wilson disease
• Scoring systems are available to aid diagnosis and
prognosis
• Molecular genetic testing is most direct and reliable
method of diagnosis
• Treat promptly and monitor copper status carefully in
follow up
• Treatment is life-long
• Neonatal screening has the potential to prevent morbidity
and death from Wilson disease
156
2015 NASPGHAN POSTGRADUATE COURSE
Thursday October 8, 2015; Washington DC
Blame the Genes?
Familial and Autoimmune Pancreatitis in Children
Véronique Morinville MD, FRCP(C)
Pediatric Gastroenterology and Nutrition
Montreal Children’s Hospital
McGill University Health Centre
Montreal, QC, Canada
I have no financial relationships with a commercial entity to disclose
Objectives of Presentation
• Understand when to consider familial and
autoimmune etiologies in a child presenting
with pancreatitis
• Review the different genetic factors that may
be involved in familial‐type pancreatitis
• Recognize factors implicated in autoimmune
pancreatitis (AIP) types 1 and 2 and what
therapies may be attempted
157
OBJECTIVE 1
When to consider familial and autoimmune etiologies in pediatric pancreatitis?
AP = Acute Pancreatitis
ARP = Acute Recurrent Pancreatitis
CP = Chronic Pancreatitis
ETIOLOGIES‐
Single Episode AP Pediatric Series
Diagnosis of AP:
At least 2 of 3 of:
• Pain compatible
with pancreas origin
• Amylase and/or Lipase ≥ 3 x ULN
• Imaging
Anatomic
Biliary/ Stones
Traumatic
Medications / Toxins
Multi‐Systemic
Infections
Metabolic
Iatrogenic
Familial/ Hereditary “Idiopathic” (↓)
Morinville 2008; Lautz 2011; Morinville 2012, others
Etiologies ARP and CP
Etiologies Adults: TIGAR‐O classification
– Toxic/ Metabolic (EtOH,
smoking) – Idiopathic
– Genetic (? %)
– Autoimmune (2‐6%)
– Recurrent and severe acute pancreatitis‐
associated CP
– Obstructive
Etiologies Pediatrics:
– TIGAR‐O
– Multiple risk factors within same child
example: cohort of 105 CP children: 80% with ≥ 1 genetic mutation; 30%
obstructive, 20% toxic/ metabolic (Uc: INSPPIRE cohort; 2015 DDW)
Okazaki 2005; UpToDate; Schwarzenberg 2015, Uc DDW Abstracts 2015, Oracz 2014; B Etemad 2001
158
“FAMILIAL” Pancreatitis
Comfort and Steinberg 1952 DEFINITION: “FAMILIAL” Pancreatitis
• Acute, Acute Recurrent, or Chronic Pancreatitis that appears to have a genetic basis
• “Familial”: any positive family history • “Hereditary”: ≥3 affected, ≥ 2 generations
Comfort and Steinberg 1952; Le Marechal 2006; Masson 2008
DEFINITION: Autoimmune Pancreatitis (AIP)
• “…Distinct form of pancreatitis characterized clinically by frequent presentation with obstructive jaundice with or without a pancreatic mass, histologically by a lymphoplasmacytic infiltrate and fibrosis and therapeutically by a dramatic response to steroids….”*
• Other Possible Findings: AI diseases, autoAbs, high IgG4
*Shimosegawa et al, International Consensus Diagnostic Criteria for Autoimmune Pancreatitis 2011
159
WHEN to Consider “Familial” –Type Pancreatitis?
•
•
•
•
Presentations: ARP +++, CP +++ (esp. calcific), even AP
“Pancreas‐only” manifestations (certain genes)
Family History + ; > 1 generation involved +++
“Younger” age of onset (= all pediatrics)
• Pancreatitis with Absence of Obvious Trigger
(**multiple risks)
WHEN to Consider AIP?
•
•
•
•
•
Presentation: CP > AP, ARP (but all possible)
HPI: ill‐defined > acute presentation
Sx: Abdominal pain, jaundice, weight loss
PMHx IBD, Auto‐immunity
Imaging: diffuse or focal mass, narrowed PD,
dilated CBD
• Relatively rare, but ‐ *Any Pancreatitis with
Absence of Obvious Trigger *
OBJECTIVE 2
Review of Genetic Factors In Familial‐Type Pancreatitis
Comfort and Steinberg 1952; AGA Pancreas Gastroslides
160
Familial‐type Pancreatitis: Genetics
The trypsin‐dependent pathological model of chronic pancreatitis (Dr. D. Whitcomb, All rights reserved; Special thanks for use)
CPA1
CEL
CLDN2
Consider Genetics in ALL Children with ARP or CP
PRSS1: Cationic Trypsinogen
“Hereditary Pancreatitis”
• AD; Incomplete Penetrance; often extensive pedigrees
• PRSS1 gain‐of‐function mutations: ↑ activation trypsinogen intracellularly  ↑ activation zymogen cascade
• Other mechanisms described
• ARP; CP; Exocrine and Endocrine insufficiency; Cancer
AGA GastroSlides Pancreas
(R122H; N29I; A16V; rare)
SPINK1: Secretory Trypsin Inhibitor Serine Protease Inhibitor Kazal Type 1
• SPINK1 in secretory granules; Binds active site trypsin 1:1
• Clinically:
• mostly Co‐factor: disease‐modifying > disease‐”causing”
•Tropical calcific pancreatitis‐ India; homozygous N34S
“Mutations” / variants ie N34S, P55S
Active site
Trypsin
SPINK1
161
CFTR: Cystic Fibrosis Transmembrane
conductance Regulator
• Strong association between heterozygous mutations in CFTR gene and Idiopathic Pancreatitis, CP
• Pancreas‐sufficient CF (2 CFTR mutations)  at risk ARP (lower “PIP score” ↑ risk)
• Mechanism‐ “2+ hits” likely necessary in most; some mutations
more pancreas‐specific
CFTR
Sharer 1998; Cohn 1998, Ooi 2011; LaRusch 2014; AGA Pancreas Gastroslides
CTRC: Chymotrypsin C
• CTRC: degradation of trypsin and trypsinogen (protective)
• Loss‐of‐function CTRC variants
(reduced secretion or activity) 
risk factors for CP (idiopathic w/ or
w/o family history)
– Germany, France – India: mutations in tropical pancreatitis
• Gain‐of‐function model (ER stress) also described
• CTRC in younger‐age onset ARP, CP
Zhou J 2011; Rosendahl 2008; Masson 2008; INSPPIRE 2015
OBJECTIVE 3
AIP Types 1 and 2
•Factors Implicated
• Management
Sahani 2004; Shimosegawa 2009
162
AIP: History and Terminology
• “Chronic inflammatory sclerosis of the pancreas: an autoimmune pancreatic disease?” 1960s
• “Autoimmune Pancreatitis” 1990s
– Autoimmune propensity: other AI, autoAbs, steroid response
– But no specific genes implicated
• Types 1 and 2 AIP described‐ 2000s; Sx, associations, histology
• Q. Several terms referring to AIP “spectrum”?
– Idiopathic sclerosing, primary inflammatory, lymphoplasmacytic
Sarles 1961; Chari 1994; Yoshida 1995
CHARACTERISTICS AIP
• Type 1
• Type 2
– “pancreatic manifestation of
systemic fibroinflammatory disease” (bile ducts, salivary,
kidney, LNs, retroperitoneal); “IgG4‐related”
– Pain, V, wt loss, jaundice
– Elevated IgG4 (*cutoff dif.)
– Peak age 60s, M> F, Asia
– Mass pancreas head or
diffuse enlargement
*Can diagnose w/o histology
– “pancreas‐specific”
(but: 1/3 IBD)
–
–
–
–
Pain, V, wt loss, jaundice
No or low levels  IgG4
Peak age 40s, M=F, N.A.
Mass pancreas head or
diffuse enlargement
*Definitive Dx req biopsy
HISTOLOLOGY AIP: Core Biopsy, Resection
Type 1: Histology
Type 2: Histology
– LPSP: lymphoplasmacytic sclerosing pancreatitis
– Periductal dense infiltrate plasma cells and lymphocytes; storiform fibrosis
– Obliterative phlebitis
– No GELs
– Abundant IgG4+ plasma cells
( > 10 cells/ hpf)
Shimosegawa 2009
– IDCP: Idiopathic duct‐centric pancreatitis
– periductal lymphoplasmacytic infiltrate; periductal, perilobular fibrosis, duct narrowing
– “GEL”: Granulocytic Epithelial Lesion‐ disruption small‐ med duct epithelium/ invasion neutrophilic granulocytes
– Low / no IgG4 cells ie < 10/hpf
Kusuda 2010
163
Diagnosis AIP: Adults
• 2000s: multiple societies/ countries publishing different diagnostic criteria
• 2007‐2011: HISORt and International
Consensus Diagnostic Criteria (ICDC)
–
–
–
–
–
–
Histology (core biopsy)
Imaging
Serology (IgG4 serum levels): > 2x ULN
Other organ involvement
+/‐ Response to steroid therapy (2w)
“Definitive” and “Probable” diagnoses
HISORt: Chari J Gastro 2007; ICDC: Shimosegawa et al Pancreas 2011
Criteria to Diagnose Type 1 AIP
Criterion
Level 1 Evidence
Level 2 Evidence
Histology
LPSP (core biopsy/ resection)
At least 3 criteria within
LPSP (core biopsy)
2 criteria within
Imaging: Parenchyma
Diffuse enlargement/ delayed enhancement
segmental/ focal enlargement, delayed enhancement
Imaging:
Ductal
> 1/3 length main PD or multiple strictures, no upstream dilation
Segmental narrowing PD, no upstream dilation (duct <5mm)
Serology
IgG4 > 2x ULN
IgG4: 1‐2x ULN
Other Organ Involvement
Histology extrapancreatic organs
Typical Radiology (CBD, retroperit)
Histology extrapancreatic organs
Physical/ Radiologic evidence
Response to
therapy
Diagnostic Steroid Trial
Improvement  2w
Diagnostic Steroid Trial
Improvement  2w
ADULT Criteria. Shimosegawa. International Consensus 2011
Criteria to Diagnose Type 2 AIP
Criterion
Level 1 Evidence
Level 2 Evidence
Histology:
Core biopsy/ specimen
IDCP and:
GEL w/ or w/o granulocytic acinar
inflammation +
Both: Granulocytic and lymphoplasmacytic acinar
infiltrate +
No/ scant IG4+ (0‐10 cells/ hpf)
No/ scant IgG4 (0‐10 cells/ hpf)
Imaging: Parenchyma
Diffuse enlargement with delayed enhancement (typical)
Segmental/ focal enlargement with delayed enhancement
Imaging:
Ductal
Long (> 1/3 main PD) or multiple strictures, no upstream dilatation
Segmental narrowing w/o upstream dilatation (duct <5mm)
Serology
‐
‐
Other Organs ‐
IBD
Response to
therapy
Diagnostic steroid trial
Improvement  2w
Diagnostic steroid trial
Involvement  2w
ADULT Criteria. Shimosegawa. International Consensus 2011
164
AIP in Pediatrics: Literature
Case Reports/ Small Series
• Presentations: Abdo pain (>> adults), V, weight loss, jaundice
• Imaging: globular enlarged, ill‐defined mass panc head; obstruction
CBD; irreg/ multiple narrowings PD; DDx tumors but rarer
• Serology: Negative AI markers in most; IgG4 often N; rare > 2x ULN
• Other Organs: Few extrapancreatic manifestations‐ except IBD
• Histology: EUS‐guided trucut biopsy or laparoscopic bx via duo;
laparotomy; AIP 2 > AIP 1 or NOS (histology not always obtained)
• Steroid response: not frequent empiric trial
* No Pediatric‐Specific Criteria for Diagnosis
* AIP type 2 > type 1 tendency suspected in recent years
Fukumori 2005; El‐Matary 2006; Blejter 2008; Refaat 2009; Gargouri 2009;
Mannion 2011; Friedlander 2012; Fujii 2013; Oracz 2014; Zen 2014; Long 2015
Management AIP
• Surgical Resections (e.g. Whipple) – esp. older series, adults
– Not 1st line in kids‐ if concern dx/neoplasm  intra‐op biopsy
• Conservative Management: ↑ recent cases
• Biliary/ Pancreatic Stents to relieve obstruction (x few weeks)
• Corticosteroid therapy: Mainstay +/‐ Diagnostic (AIP 1 adult)
– Prednisone 1 mg/kg/d x 2‐4 weeks; taper 2.5‐5 mg/w; +/‐ long term
• Immunomosuppression : if maintenance needed
– MMF*, 6MP*, azathioprine, rituximab (*peds)
• Monitoring for recurrences/ complications‐ long‐term
– Resolution? Atrophy? Other organs? Exocrine/ endocrine insufficiencies?
Fukumori 2005;
El‐Matary 2006; Blejter 2008; Refaat 2009; Gargouri 2009; Mannion 2011; Friedlander 2012; Fujii 2013; Oracz 2014; Zen 2014; Long 2015
Management AIP:
Long‐Term Outcomes Adults
Hart PA. Gut 2013
•
•
•
•
•
•
*
Retrospective: 23 institutions/ 10 countries/ 1064 patients
High response steroids: AIP 1‐ 99%, AIP 2‐ 92%
Biliary stents: for jaundice
Surgery: not primary Tx for AIP; done when unclear Dx
Relapses : AIP 1 ‐ 31%; AIP 2 ‐ 9%
Relapses: response to steroids +/‐ other (x 1‐3y)
No data in children
Hart 2013
165
Future Directions: Autoimmune and Genetic Markers within Same Patients? • Multiple risk factors within same children: 129 CP
children tested for AIP (no tissue); genetics (CFTR, PRSS1, SPINK1)
– Autoimmune Abs: 75/129. Of these: 32/75 genetic mutation;
16/75 anatomic AbN
– IgG4 ↑: 24/68. Of these: 17/24 mutation; 5/24 anatomic
– Suspicion AIP: 6 (5M): 11‐17y; 2 treated with steroids
– Chronic autoimmune condition: 13 (UC 6, PSC 3, CD 1, others)
* High rate AutoAbs in pediatric CP. Significance?
* Interactions of Co‐factors? Further research indicated
Oracz G. Prz Gastroenterol 2014
TAKE HOME POINTS:
Familial and Autoimmune Pancreatitis in Children 1. Consider in all children – especially when without obvious etiology (metabolic, anatomic) or if recurrent/
chronic (ARP, CP)
2. Virtually all “familial” patterns pancreatitis have a genetic predisposition (PRSS1, SPINK1, CTRC, CFTR‐ and others NYD)
•
•
Multiple risks within one patient
Many: genetic risk found / No known family history!
TAKE HOME POINTS: Familial and Autoimmune Pancreatitis
in Children 3. Autoimmune Pancreatitis: rarer , likely under‐diagnosed
due to need for tissue (for Type 2)
• Suspect Type 2 > Type 1 in children
4. Management AIP: #1 Corticosteroids; Observation;
+/‐ Stents; +/‐ Immunomodulators; Surgery ↓ u lized;
Long‐term Follow‐up necessary
5. Future Research: Risk Factor Interactions ?
166
Thank you
167
Getting to the Bottom of
Perianal Crohn’s Disease
Maria Oliva-Hemker, M.D.
Chief, Division of Pediatric Gastroenterology & Nutrition
Stermer Family Professor of Pediatric IBD
Johns Hopkins University School of Medicine
Baltimore, MD
Disclosures
•
Abbvie Immunology—grant funding
Learning Objectives
•
Identify the lesions associated with perianal
Crohn’s disease
•
Review the pathophysiology and
classification systems for perianal fistulizing
disease
•
Understand the approach to assessing and
treating the patient with perianal fistulizing
disease
168
Perianal
Crohn’s
Disease
Fissures
Fistula
Abscess
Tags
www.gicare.com
Prevalence of Pediatric Perianal
Crohn’s Disease
•
Up to 38% of pediatric CD develop perianal
disease
– 41/276 (15%) newly diagnosed children with
CD had perianal lesions within 30 days of
diagnosis
– 28/276 (10%) had fistulas and/or abscesses
•
1 in 20 (5%) present with isolated fistulous
disease (and have no evidence of
intestinal involvement at presentation)
Keljo DJ et al, Inflamm Bowel Dis 2009
Skin Tags: Prevalence in Crohn’s Disease of Up to 70%
• Type 1: “Elephant ear” tags
–
–
–
–
–
Flat or round, smooth
Soft/compressible
Flesh colored
Varying sizes
Painless
• Type 2: arise from healed
fissures, ulcers or hemorhoids
–
–
–
–
–
Edematous, usually hard
Red, blue or cyanotic
Larger than Type1
Irregular surface
Painful
Bonheur JL et al, Inflamm Bowel Dis 2008
169
Anal Fissures
•
•
•
•
•
Prevalence of up to 20%
•
Spontaneously heal >80% of patients
Broad based and deep
Usually painless
May be associated with large skin tags
May be multiple and placed at various
locations around the anal canal
Parks AG et al, Br J Surg 1976
Schwartz DA et al Inflamm Bowel Dis 2015
Simple Fistulas
Complex Fistulas
Schwartz DA et al Inflamm Bowel Dis 2014
Bell SJ et al Aliment Pharmacol Ther 2003
170
Assessment of Perianal Fistulas
•
Flexible sigmoidoscopy or colonoscopy
– to evaluate for rectosigmoid involvement
(predicts more aggressive course)
•
Exam under anesthesia (EUA)
– gold standard (for experienced surgeon)
•
Pelvic MRI is considered gold standard
imaging technique
– Endoanal ultrasound (EUS) may be useful
alternative to MRI (adults)
Treatment Goals for Fistulizing Disease
•
Short Term
– Drainage of abscesses/control sepsis
– Relief of symptoms
•
Long Term
–
–
–
–
Resolution of drainage
Fistula closure
Improve quality of life
Avoid proctocolectomy and permanent ostomy
Critical Evaluation of Data from
Therapeutic Trials
Medication
Evidence
Antibiotics
B+
Efficacy
Good
Corticosteroids
D
Poor
6-Mercaptopurine
/Azathioprine
C+
Good
Methotrexate
C+
Good/Fair
Cyclosporine
C+
Fair
Tacrolimus
C+
Good
Infliximab
A+
Excellent
Adalimumab
A
Excellent
Certolizumab Pegol
A
Excellent
Vedolizumab
A
Good
Schwartz DA et al, Inflamm Bowel Dis 2015
171
Medical Therapy in Children With and Without
Fistulizing Perianal Disease
Therapy Use By Q8
Nonfistulizing Fistulizing
Yes, %(n)
Yes, %(n)
Antibiotics
45% (99)
73% (19)
Immunomodulators
Infliximab
86% (208)
33% (81)
100% (28)
57% (16)
Significance
(P<0.05)
P=0.012
OR=3.1
P=0.032
P=0.013
OR=2.7
Keljo D et al Inflamm Bowel Dis 2009
Immunomodulators for Treatment of
Perianal Fistulas
•
Observational study of 92 patients showed 29%
response rate for all perianal CD
– Those with fistulas had a cumulative probability of
response at 24 months of 0.16
•
Prospective open-label study of 52 patients
suggested AZA may maximize long-term antibiotic
effects
•
Retrospective chart review of 21 patients showed
enhanced response with AZA or MTX started within 3
months of infliximab therapy
Lecomte T et al, Dis Colon Rectum 2003
Dejaco C et al, Aliment Pharmacol Ther 2003
Topstad DR et al, Dis Colon Rectum 2003
Proportion of Adult Patients with Complete Fistula Closure
at Each Study Timepoint
N=306
~90% perianal fistula
~60% >1 fistula
Sands BE et al, N Eng J Med 2004
172
Maintenance of Complete Fistula Closure in
Crohn’s Disease with Anti-TNFα Agents
Infliximab at 1 yr
N=306
Adalimumab at 1 yr
N=117
Certolizumab at 6 mos
N=58
36%
17%
Sands BE et al, N Eng J Med 2004
Colombel JF et al Gut 2009
Schreiber S et al, Alimen Pharmacol Ther 2011
Improved Fistula Healing with Adalimumab and Ciprofloxacin
Patients received Ada 160 mg wk 0, 80 mg wk 2 and then 40 mg qo wk. Then
Randomized to Cipro 500 mg bid or placebo
Dewint P et al, Gut 2014
Patients with sustained perianal response (%)
Time to First Loss of Response to Infliximab
in 89 Children with Perianal Fistulas
1.0
0.8
0.6
0.4
0.2
0.0
89
84
0
2
80
68
4
6
Duration of follow-up (months)
62
48
8
10
Dupont-Lucas C et al, Aliment Pharmacol Ther 2014
173
Medical Management of Pediatric
Perianal Fistulas
•
No large clinical trials or long-term follow-up
exists in children
•
Various small studies have suggested
healing rates superior to adults (>70%)
following infliximab therapy
•
Loss of response and recurrences as
common as among adults
Crandall W et al, J Pediatr Gastroenterol Nutr 2009
Di Bie CI et al, Inflamm Bowel Dis 2012
Hyams J et al, Gastronenterology 2007
Surgical Management of Fistulizing Perianal Disease
EUA
Sepsis
control
Resolution
Failure
I&D, Drains,
Setons
Definitive
surgical treatment
Resolution
Fistulotomy, Glue, Plug,
Setons, Advancement Flap
Failure
Proctectomy,
Total Proctocolectomy
Fichera A & Zoccali M, Inflamm Bowel Dis 2015
Management of Perianal Abscesses
Simple incision
& drainage
Placement of
mushroom
catheter
Noncutting seton
Schwartz DA et al, Ann Intern Med 2001
Fichera A & Zoccali M, Inflamm Bowel Dis 2015
174
Fistulotomy for Simple Fistulas
Probe
External
opening
Open fistula
tract
Fistula
Anus
• Initial healing rates in adults
– 80%-100% in 13 studies
– 60-79% in 5 studies
– ≤59% in 3 studies
• Recurrence rates 0-20% in 7 of 10 studies
Sandborn WJ et al Gastroenterology 2003
DA Schwartz et al Ann Intern med 2001
Setons Prevent Premature Fistula Closure
Schwartz DA et al Inflamm Bowel Dis 2014
Response and Recurrence Rates Among Adults with Perianal
Fistulas Treated with Infliximab +/- Setons
Percentage of Patients
100%
83%
79%
44%
Response (p=0.14)
Recurrence (p=0.001)
Regueiro M & Mardini H, Inflamm Bowel Dis 2003
175
Anal Fistula Plug
 Bioabsorbable xenograft
made of lyophilized porcine
intestinal submucosa
 Infection resistant
 No foreign body reaction
 Within months becomes
populated with host cell
tissue
 24-87% success rates in
studies 6-12 months followup
Cook®Biodesign® Anal Fistula Plug
Rizzo JA et al Surg Clin N Am 2009
Fibrin Glue
•
Mixture of fibrinogen and
thrombin & calcium
•
•
Insoluble clot formed
•
Discrepant findings have
been reported in metaanalysis
Believed to stimulate
wound healing and
induce angiogenesis
Colorectalsurgeonsydney.com.au
Citocchi R et al, Ann Ital Chir 2010
Rizzo JA et al Surg Clin N Am 2009
Endorectal Advancement Flap
• Success rates 40%->90% reported
• Incontinence is a concern
• Option for rectovaginal fistula
Ruffolo C et al Colorectal Dis 2010
Fichera A & Zoccali M, Inflamm Bowel Dis 2015
176
Combined Surgical and Medical Therapy
Increases Perianal Fistula Healing
•
Systematic review of 24 articles; 1139 patients
– 40% received single treatment (Anti-TNF ±
immunomodulator or surgical intervention)
– 60% combo therapy
•
Outcomes
– Single therapy 191/448 (43%) in complete remission
• 34% had no response
– Combo 180/349 (52%) in complete remission
• 23% had no response
Yassin NA et al, Aliment Pharmacol Ther 2014
Outcome of Patients with Perianal Crohn’s Disease
Undergoing Temporary Fecal Diversion
Fecal Diversion
n=138
Successful Stoma Closure
n=36
Persistent Stoma
n=102
n=41
Repeat Diversion
N=6
n=30
n=4
Stoma Closure
n=30
Indefinite Stoma
n=45
(22%)
n=60
n=2
Permanent Stoma
n=63
(33%)
(45%)
Gu J et al, Colorectal Dis 2014
Proposed Treatment Algorithm for Simple Perianal Fistulas
 History and physical exam (digital exam for stricture)
 Colonoscopy (assess for proctitis; dilation if needed)
 Exam under anesthesia (EUA)
 Imaging (EUS or MRI) to delineate perianal disease
Simple fistula without
rectal inflammation
•
•
Antibiotics and
AZA/6MP
Consider Anti-TNF
Simple fistula with
rectal inflammation
Antibiotics, AZA/6-MP
& Anti-TNF
(consider monitoring healing
with repeat imaging study)
Treatment
Success
Treatment
Failure
Treatment
Success
Treatment
Failure
Continue
maintenance
AZA/6-MP or
Anti-TNF if
started
1. Consider seton
2. Fistulotomy
3. Consider fibrin glue,
fistula plug or
endorectal
advancement flap
4. If 1-3 fails, treat as
complex fistula
Continue
maintenance
AZA/6-MP &
Anti-TNF
Treat as
complex
fistula
Schwartz DA et al, Inflamm Bowel Dis 2015; de Zoeten EF et al, J Pediatr Gastro Nutr 2013
177
Proposed Treatment Algorithm for Complex Perianal Fistulas
 History and physical exam (digital exam for stricture)
 Colonoscopy (assess for proctitis, dilation if needed)
 Exam under anesthesia (EUA)
 Imaging (EUS or MRI) to delineate perianal disease
Complex
Fistula
•
•
Seton placement
Antibiotics, Anti
TNF, AZA/6-MP
(consider monitoring
healing with repeat
imaging study)
Treatment
Success
Treatment
Failure
1. Remove seton
2. Continue
maintenance AZA/6MP & Anti-TNF
1. Consider tacrolimus
in selected patients
OR
2. Proctocolectomy
Schwartz DA et al, Inflamm Bowel Dis 2015; de Zoeten EF et al, J Pediatr Gastro Nutr 2013
Take Home Points for Perianal Fistulizing
Crohn’s Disease
•
Use MRI and EUA for suspected disease to
define the anatomy
•
•
•
•
Drain abscesses
•
Team approach: gastroenterologists, surgeons
and radiologists
Use setons as required to control sepsis
Treat proctitis/intestinal inflammation
More definite surgical closure should be
considered only after intestinal inflammation
under control
178
“IT’S ALL ABOUT THAT POUCH…”
EVALUATION & MANAGEMENT OF COMPLICATIONS POST ILEAL POUCH ANAL ANASTOMOSIS
Joel R. Rosh, MD
Director, Pediatric Gastroenterology
Goryeb Children’s Hospital/Atlantic Health
Professor of Pediatrics
Icahn School of Medicine, Mount Sinai School of Medicine
A “Tale” of Two Pouches:
The Agony and the Ecstasy
Joel R. Rosh, MD
Director, Pediatric Gastroenterology
Goryeb Children’s Hospital/Atlantic Health
Professor of Pediatrics
Icahn School of Medicine, Mount Sinai School of Medicine
Disclosures
• Grant Support:
– Abbvie, Janssen
• Consultant:
– Abbvie, Janssen, Receptos
179
Objectives
• Review the data for evaluation, treatment and
prevention of pouchitis
• Understand other complications of IPAA
• Review cancer screening /surveillance
recommendations
The Allure
“Patients will be better off after operation…Their colitis will be cured…feeling of good health and a satisfactory quality of life will return”
Kelly KA. Advanced Therapy of IBD, 2001
The Allure
“Patients will be better off after operation…Their colitis will be cured…feeling of good health and a satisfactory quality of life will return”
So true when it all goes right…
Kelly KA. Advanced Therapy of IBD, 2001
180
Colectomy Risks
•
•
•
•
•
•
•
Bleeding
Post‐op obstruction
Wound infection
Intra‐abdominal infection
Wound hernia
Thromboembolic events
Urinary retention
EIM After Surgery
May Not Resolve
Usually Resolve
• Peripheral arthritis • Skin
– Erythema nodosum
• Uveitis
– Pyoderma • Thromboembolic
gangrenosum
risk
• PSC
• AIH
• Central arthritis
(spondylitis)
Surgical Options After Colectomy
• Brooke Ileostomy
– Noise, odor, leak, local skin breakdown
• Kock Pouch (continent ileostomy)
– Pouchitis, need for revision of reservoir
• Ileal anal anastomosis
– A more culturally acceptable Kock pouch
– Mechanical issues, pouchitis, ischemia
181
Creating the Pouch
}
~1 1/2 inches
Slide courtesy of Dr. Michael Harris
Creating the Pouch
Slide courtesy of Dr. Michael Harris
Types of Ileal Pouch
Afferent limb
(neo-TI)
Tip of “J”
“J”
“S”
Inlet
“K”
Nipple valve
Efferent
limb
Outlet/cuff/
anal transitional Efferent
limb
zone
Slide courtesy of Dr. Bo Shen
182
Mucosectomy vs. 2 Staple IPAA
Slide courtesy of Dr. Michael Harris
Disorders of the Ileal Pouch
Surgical/
Mechanical
•
•
•
•
•
•
•
•
•
•
Inflammatory/
Infectious
Anastomotic leak 

Pelvic sepsis

Sinus

Fistula

Strictures.
Infecundity
Sexual dysfunction
Portal vein thrombi
Prolapse
Twist/volvulus
Functional

Pouchitis

Cuffitis
Crohn’s

SBBO
Inflammatory

polyps

Neoplastic
Irritable pouch 
Poor
compliance

Pseudo
obstruct
megapouch
“Pouchalgia
fugax”
Pouch/ATZ
Neoplasia
Lymphoma
Squamous
cell cancer
Systemic/
Metabolic
 Anemia
 Bone loss
 Vit D/B12
def.
 Renal stone
 Celiac dis.
 High PTH
Modified from Shen B, et al. AJG 2005;100;93-101
Disorders of the Ileal Pouch
Surgical/
Mechanical
•
•
•
•
•
•
•
•
•
•
Inflammatory/
Infectious
Anastomotic leak 

Pelvic sepsis

Sinus

Fistula

Strictures
Infecundity
Sexual dysfunction
Portal vein thrombi
Prolapse
Twist/volvulus
Functional

Pouchitis

Cuffitis
Crohn’s

SBBO
Inflammatory

polyps

Neoplastic
Irritable pouch 
Poor
compliance

Pseudo
obstruct
megapouch
“Pouchalgia
fugax”
Pouch/ATZ
Neoplasia
Lymphoma
Squamous
cell cancer
Systemic/
Metabolic
 Anemia
 Bone loss
 Vit D/B12
def.
 Renal stone
 Celiac dis.
 High PTH
Modified from Shen B, et al. AJG 2005;100;93-101
183
Disorders of the Ileal Pouch
Surgical/
Mechanical
•
•
•
•
•
•
•
•
•
•
Inflammatory/
Infectious
Anastomotic leak 

Pelvic sepsis

Sinus

Fistula

Strictures
Infecundity
Sexual dysfunction
Portal vein thrombi
Prolapse
Twist/volvulus
Functional

Pouchitis

Cuffitis
Crohn

SBBO
Inflammatory

polyps

Neoplastic
Irritable pouch 
Poor
compliance

Pseudo
obstruct
megapouch
“Pouchalgia
fugax”
Pouch/ATZ
Neoplasia
Lymphoma
Squamous
cell cancer
Systemic/
Metabolic
 Anemia
 Bone loss
 Vit D/B12
def.
 Renal stone
 Celiac dis.
 High PTH
Modified from Shen B, et al. AJG 2005;100;93-101
Disorders of the Ileal Pouch
Surgical/
Mechanical
•
•
•
•
•
•
•
•
•
•
Inflammatory/
Infectious
Anastomotic leak 

Pelvic sepsis

Sinus

Fistula

Strictures
Infecundity
Sexual dysfunction
Portal vein thrombi
Prolapse
Twist/volvulus
Functional

Pouchitis

Cuffitis
Crohn

SBBO
Inflammatory

polyps

Neoplastic
Irritable pouch 
Poor
compliance

Pseudo
obstruct
megapouch
“Pouchalgia
fugax”
Pouch/ATZ
Neoplasia
Lymphoma
Squamous
cell cancer
Systemic/
Metabolic
 Anemia
 Bone loss
 Vit D/B12
def.
 Renal stone
 Celiac dis.
 High PTH
Modified from Shen B, et al. AJG 2005;100;93-101
Disorders of the Ileal Pouch
Surgical/
Mechanical
•
•
•
•
•
•
•
•
•
•
Inflammatory/
Infectious
Anastomotic leak 
Pelvic sepsis

Sinus

Fistula

Strictures

Infecundity
Sexual dysfunction
Portal vein thrombi
Prolapse
Twist/volvulus
Functional

Pouchitis

Cuffitis
Crohn

SBBO
Inflammatory

polyps

Neoplastic
Irritable pouch 

Poor

compliance
Pseudoobstruct
megapouch
“Pouchalgia
fugax”
Neoplasia
Lymphoma
Squamous
cell cancer
Systemic/
Metabolic
 Anemia
 Bone loss
 Vit D/B12
def.
 Renal stone
 High PTH
Modified from Shen B, et al. AJG 2005;100;93-101
184
Pouch Evaluation
• Stool cultures including C. Difficile
• Pouchoscopy with biopsy
– Rule out mucosal disease (inflamm vs malig.)
• Imaging
– If suspect mechanical issue
– Cross-sectional
– “pouchagram” (emptying, leak)
Pouchoscopy—Owl Eye View
Endoscopic Patterns in Pouchitis
Classic
Pouchitis
ImmuneMediated
Pouchitis
Ischemic
Pouchitis
Slide courtesy of Dr. Bo Shen
185
Pouchitis Therapy
• Antibiotics/Probiotics
– Metronidazole
– Cipro
– Rifaximin
– VSL #3 (?prophylaxis)
– ???Fecal Microbial Transplant (FMT)
• Anti-Inflammatory
– Topical
– Systemic
Ischemic Pouchitis: Think Tension
Shen B, et al, Inflamm Bowel Dis 2010;16:836–46
Crohn’s Disease of the Pouch
Inflammatory
Fibrostenotic
Fistulizing
Slide courtesy of Dr. Bo Shen
186
Algorithm for Pouch Evaluation
Symptomatic Pouch Patients
Exclusion of Mechanical Complications
Inflammatory Disorders
Pouchitis
Cuffitis
Microbe-related
Crohn’s Disease
Immune-mediated
Ischemia-related
Slide courtesy of Dr. Bo Shen
Algorithm for Pouch Evaluation
Symptomatic Pouch Patients
Exclusion of Mechanical Complications
Inflammatory Disorders
Cuffitis
Pouchitis
Microbe-related
PSCassociated
Immune-mediated
IgG4associated
Autoimmune
Disorderassociated
Crohn’s Disease
Ischemia-related
Autoinflammatory
Disorderassociated
Modified from Shen B, et al. AJG 2005;100;93-101
Presacral Anastomotic Sinus
Lian L, et al. Endoscopy 2010;42 Suppl 2:E14
Slide courtesy of the authors
187
IPAA: Pediatric Outcomes
• 202 children over 30 years at Mayo
• 87% returned questionnaires
• Median follow up 181.5 months (7.8-378.5)
Polites SF. J Pediatr Surg 2015 epub
IPAA: Pediatric Outcomes
•
•
•
•
•
UC pouch survival 92%
16% diagnosed with CD (61% pouch survival)
12% chronic pouchitis
7% pouch failure
QOL excellent in majority
Polites SF. J Pediatr Surg 2015 epub
IPAA: Cancer Risk
• 42 reports of pouch adenocarcinoma
• Possibly due to “Islets” after mucosectomy
• Potential contributing factors:
– ?pouchitis
– ?Primary Sclerosing Cholangitis (PSC)
• Previous neoplasia is main risk factor
Cancer 2011;117:3081–3092
Colorectal Dis 2012;14:92–97
Gastroenterology 2014;146:119–128
188
Pouch Cancer: Dutch Study
•
•
•
•
Population based (national pathology registry)
1200 IPAA patients
Found low rate of neoplasia (1.83%)
Prior Neoplasia was major risk factor
Gastroenterology 2014;146:119–128
IPAA Cancer:
Prior Neoplasia is Major Risk Factor
4X risk for prior dysplasia
25X risk for prior colon cancer
Gastroenterology 2014;146:119–128
Pouch Cancer: Dutch Study
• Conclusion—stratified by neoplasia history:
– No prior history: limited surveillance program
– Prior history: targeted surveillance program
Gastroenterology 2014;146:119–128
189
Pouch Surveillance: Society Guidelines
• ACG, AGA, ASGE—none
• British Society of GI:
– Yearly if high risk: Neoplasia, PSC, atrophy, inflammation
– Every five years in all others
Summary
• Pouch surgery improves quality of life
• Mechanical and inflammatory complications
• Technical expertise of surgeon
• Importance of team approach
Summary
Pouchitis: multiple potential etiologies
—Bacteria-related (C. difficile is emerging)
—If antibiotic refractory consider:
• Immune-mediated (including De novo Crohn’s)
• Ischemia-related
190
Summary
Cancer of the pouch rarely occurs
• Prior neoplasia is biggest risk factor
• PSC, chronic pouchitis also contribute
• Surveillance guidelines are not yet optimized
• ?3-5 years unless high risk
191
Communicating the Benefits and Risks
of IBD Therapy to Patients and Families
Corey A. Siegel, MD, MS
Geisel School of Medicine at Dartmouth
Dartmouth-Hitchcock Medical Center
NASPGHAN
2015 Postgraduate Course
Disclosures
Consultant/Advisory Board
Abbvie, Given Imaging, Janssen, Salix, Lilly, Pfizer, Prometheus,
Takeda, UCB
Speaker for CME activities
Abbvie, Janssen, Takeda, UCB
Grant support
CCFA, AHRQ (1R01HS021747-01)
Abbvie, Janssen, UCB, Salix
Intellectual property
Dartmouth-Hitchcock Medical Center and Cedars-Sinai Medical Center have a patent pending
for a “System and Method of Communicating Predicted Medical Outcomes”, filed 3/34/10. Dr.
Corey Siegel and Dr. Lori Siegel are inventors.
Different aspects decision making
Severity of
illness
Benefits and
Risks of
Treatment
Medical
Decision
Making
Patient and Family Preferences
192
Hierarchy of Needs for the IBD Patient
Physician focus
Histologic Remission
Endoscopic Remission
Clinical Remission
Diarrhea, Bleeding, Pain, Fatigue, Incontinence
Just feel normal
Avoid hospitals and surgery
Patient focus
Leaving the house, going to school or work
Ability to eat and maintain weight
Staying Alive
Learning Objectives
» To review the risks of immunomodulators and
biologics
» To discuss decision making between anti-TNF
monotherapy or combination therapy
» To learn about tools that can be used to better
communicate the benefits and risks of IBD therapy
193
Crohn’s disease causes damage
Typical Course of a Crohn’s Patient
Damage occurs in UC as well
1. Proximal extension of disease
2. Stricturing
3. Pseudopolyposis
4. Dysmotility
5. Anorectal dysfunction
6. Impaired permeability
Torres, et al. Inflamm Bowel Dis 2012;18:1356.
194
Two Drugs Are Better Than One
Corticosteroid-Free Clinical Remission at Week 50
All randomized patients (N=508)
p<0.001
p=0.028
41/170
p=0.035
59/169
78/169
Colombel, JF, et al. NEJM 2010
But we can’t forget about the tradeoffs
What our patients hear (and see)…
Why are people so afraid?
Risk
Unknown
Unknown
Not Observable
Risk
New Risk
• Nuclear accidents
• Biologics and NEW drugs
Not Dreadful
Controllable
Equitable
Voluntary
Dreadful
Dread
Uncontrollable
Catastrophic
Risk
Involuntary
• Steroids
• Downhill skiing
• 5-ASAs
• Immunomodulators
Known Risks
Observable
Old Risk
Slovic P. Perception of Risk. Science 1987.
195
What are the most important side-effects
of 6MP/Azathioprine?
Frequency
Estimate
Event
Stop therapy due to adverse event
11%
Allergic reactions
2%
Nausea
2%
Hepatitis
2%
Pancreatitis
3%
Serious infections
5%
0.04%-0.09% (49/10,000)
Non-Hodgkin’s lymphoma
Siegel CA, et al. APT 2005 (weighted average); Siegel CA, et al. CGH 2009
Beaugerie et al, Lancet 2009;7:374.
Solid tumors and thiopurines in IBD
(non-GI and non-skin cancers)
Study
Armstrong 2010
Types of cancer
Number of
patients
Statistically
significant
lung, breast
1955
NO
Fraser 2002
breast, bronchial,
renal
6262
NO
Connell 1994
gastric, lung,
breast, cervical
755
NO
No clear association between
thiopurines and solid tumors in IBD
Methotrexate and Lymphoma
»Not a lot out there in IBD
› PubMed search for “(Crohn’s OR ulcerative colitis) AND
methotrexate AND lymphoma” – 1 case report
› Farrell study: 2 of 4 cases of NHL were treated with MTX (2
out of 31 patients treated with MTX!)
»More info available for RA
› Sweden: 348 lymphomas in RA patients, 37 were EBV+,
29/37 exposure to MTX
› Australia: SIR 5.1 (95% CI 2.2-10)
› United States: OR 1.4 (0.7-2.9)
Farrell, et al. Gut 2000. Baecklund, et al. Curr Opin Rheumatol 2004. Burchbinder, et al.
Arthritis Rheum 2008.Wolfe, et al. Arhthritis Rheum 2007.
196
Adverse Events Associated with
anti-TNF Treatment
Event
Estimated
Frequency
Stop therapy due to adverse event
10%
Infusion or injection site reactions
3%-20%
Drug related lupus-like reaction
Serious infections
Same
Mono or
Combo
1%
3%
Tuberculosis
0.05% (5/10,000)
Non-Hodgkin’s lymphoma (combo)
0.06% (6/10,000)
Multiple sclerosis, heart failure,
serious liver injury
Case reports only
Siegel CA. The inflammatory bowel disease yearbook, volume 6.; Infliximab package insert; Vermeire Gastro 2003;
Cush, Ann Rheum Dis 2005; Lenercept study group, Neurology 1999; ATTACH trial 2003
Risk of Dying from Sepsis on Infliximab:
Systematic Review
Reference
Study Design
# Deaths from sepsis thought
attributable to infliximab
# of
Patients
Ljung et al. Gut 2004
Population
Based Cohort
1
191
Seiderer et al.
Digestion 2004
Single-Center
Cohort
0
92
Colombel et al.
Gastroenterology 2004
Single-Center
Cohort
5
500
Sands et al. NEJM 2004
Randomized
Controlled Trial
2
282
Hanauer et al.
Lancet 2002
Randomized
Controlled Trial
1
573
Rutgeerts et al.
Gastroenterology 1999
Randomized
Controlled Trial
0
73
Risk of death from sepsis = 4/1000 pt-yrs
Siegel et al. Clin Gastroenterol Hepatol. 2006;4:1017-1024.
BUT it is a subgroup of patients at this high risk
»Older
› Average age = 63 (systematic review); 67 (Mayo)
»Multiple co-morbidities
»Concomitant steroids and/or narcotics
»Long-standing disease
Young “healthy” patients are not in the
clear, but probably at much less risk
Siegel, CGH 2006; Colombel, Gastro 2004; Lichtenstein CGH 2006; Toruner, Gastro 2008
197
Risk of NH Lymphoma with anti-TNF + IM
treatment for Crohn’s Disease: A Meta-Analysis
» 8905 patients representing 20,602 pt-years of exposure
» 13 Non-Hodgkin’s lymphomas 
6.1 per 10,000 pt-years
» Mean age 52, 62% male
» 10/13 exposed to IM* (really a study of combo Rx)
NHL rate
per 10,000
SIR
95% CI
SEER all ages
1.9
-
-
IM alone
3.6
-
-
Anti-TNF + IM vs SEER
6.1
3.23
1.5-6.9
Anti-TNF+ IM vs IM alone
6.1
1.7
0.5-7.1
Siegel et al, CGH 2009;7:874.
*not reported in 2
Risk of Developing non-Hodgkin’s Lymphoma
Patient receiving Immunomodulator +/- anti-TNF Therapy for 1 year
Risk without
medication
of lymphoma
with immune suppression
Siegel CA, Inflamm Bowel Dis 2010;16:2168.
What do we know about the risk of solid
tumors and anti-TNF?
» Rheumatoid arthritis
» 13,000 patients, ½ on biologics
» Inflammatory bowel disease
» Fairly limited data
Type of Cancer
Odds Ratio
Type of study
All cancers
1.0 (0.8-1.2)
Population based SIR 0.7 (0.2-1.7)
651 patients
All solid tumors
1.0 (0.8-1.2)
Colon
0.8 (0.3-1.7)
Lung
1.1 (0.7-1.8)
Breast
0.9 (0.5-1.3)
Pancreas
0.5 (0.1-2.6)
Melanoma
2.3 (0.9-5.4)
Non-melanoma
1.5 (1.2-1.8)
Single center
734 patients
Associated risk
OR 0.97 (0.56-1.65)
Wolfe, Arthritis and Rheumatism 2007;56:2886.
Mason, Inflamm Bowel Dis 2013;19:1306.
198
Risks of anti-TNF in pediatric IBD patients
Dulai PS, Siegel CA, Dubinsky MC. Inflamm Bowel Dis 2013:19:2927.
Dulai PS, et al. Clin Gastroenterol Hepatol. 2014;12:1443.
Systematic Review: Risks of Serious Infection and
Lymphoma with anti-TNF Therapy in Pediatric IBD
Risk with anti-TNF
Serious Infections
35/1000
Lymphoma
2/10,000
Risk with comparator
SIR (95% CI)
Immunomodulator 33/1000
Prednisone 73/1000
1.06 (0.83-1.36)
0.48 (0.40-0.58)*
Pediatric population 0.58/10,000
Thiopurines 4.5/10,000
Adults with anti-TNF 6.1/10,000
3.5 (0.35-19.6)
0.47 (0.03-6.44)
0.34 (0.04-1.51)
Scariest standard lymphomas are early
postmononucleosis in EBV-seronegative young male.
Consider avoiding thiopurines in EBV-seronegative males
Dulai PS, et al. Clin Gastroenterol Hepatol. 2014;12:1443. Magro F et al. J Crohns Colitis 2014;8:31.
Funny how it’s easy to forget about prednisone
Event
Any side-effect leading to
stopping prednisone
Estimated Frequency
55%
Ankle swelling
11%
Facial swelling
35%
Easy bruising
7%
Acne
50%
Psychosis - confusion/agitation
1%
Infections
13%
Cataracts
9%
Increased intraocular pressure
22%
High blood pressure
13%
Osteoporosis
Diabetes
33%
Chance increases 10x
Present IBD 2001, Rutgeerts APT 2001, Rutgeerts NEJM 1994
199
Are serious infections more common if
taking more than 1 medication?
»TREAT registry
› Corticosteroids (HR 2.0, 95% CI 1.4-2.9)
› Narcotics (HR 2.7, 95% CI 1.9-4.0)
»Opportunistic infections
Prednisone, 6MP/AZA,
Infliximab
Odds Ratio
(95% CI)
1 medication
2.9 (1.5–5.3)
2 or 3 medications
14.5 (4.9–43)
Lichtenstein CGH 2006; Toruner, Gastro 2008
Closer look at the Mayo experience with
opportunistic infections
Herpes zoster
Candida albicans
Herpes Simplex
CMV
EBV
Histoplasmosis
Blastomycosis
Streptococcus
E. Coli
Mycobacterium marinum
Mycobacterium fortuitum
Cryptococcus
Mycobacterium gordonae
28\
26
18
12
8
2
1
1
1
1
1
1
1
Toruner et al. Gastro 2008;134:929
200
Closer look at the Mayo experience with
opportunistic infections
Number of meds
0
1
2 or 3
Cases
38
38
24
Specific combinations
Corticosteroids alone
6MP/AZA alone
IFX alone
AZA/6MP + steroids
AZA/6MP + IFX
AZA/6MP + IFX + steroids
Controls
129
59
12
16
20
3
16
1
5
OR
1.0 (ref)
2.9 (1.5-5.3)
14.5 (4.9-43)
27
31
2
6
5
0
2.2 (1.0-4.9)
3.4 (1.5-7.5)
11.1 (0.8-148)
17.5 (4.5-68)
1.6 (0.1-19)
1.1 (1.0-1.2)
Toruner et al. Gastro 2008;134:929
COMMIT and SONIC Safety Results
MTX
(n=63
COMMIT
SONIC
Placebo
(n=63)
Blood and lymphatic system disorders
6.3%
11.1%
GI disorders
71.4%
76.2%
Infections
58.7%
61.9%
Connective tissue disorders
44.4%
38.1%
Respiratory disorders
20.6%
23.4%
AZA
+ placebo
(n=161)
IFX
+ placebo
(n=163)
IFX
+ AZA
(n=179)
(n=503)
Pts with  1 AE, n (%)
138 (85.7%)
139 (85.3%)
156 (87.2%)
433 (86.1%)
Pts with  1 SAE, n (%)
39 (24.2%)
26 (16.0%)
25 (14.0%)
90 (17.9%)
8 (5.0%)
4 (2.5%)
6 (3.4%)
18 (3.6%)
Serious infections
Total
Feagan et al. Digestive Disease Week, San Diego, CA 2008. Sandborn, WJ et al. ACG 2008
Risk of HSTCL is related to duration of
thiopurine use
Thiopurine only
6
Number of cases
Number of cases
Anti-TNF + Thiopurine
8
7
6
5
4
3
2
1
0
N=19
0-2
>2 to 4 >4 to 6 >6 to 8 >8 to
10
>10
Years exposure prior to
HSTCL
5
4
N=11
3
2
1
0
0-2
>2 to 4 >4 to 6 >6 to 8 >8 to
10
>10
Years exposure prior to
HSTCL
Consider this: Even in young males  Induce with our “best”
Estimated
risk+ anti-TNF)
in “at risk”
group
with combo
therapy
(thiopurine
and stop
thiopurine
after 6-12
≈ 1-3/10,000
months when
in deep remission
Kotlyar et al. Clin Gastroenterol Hepatol. 2011;9:36. Magro F et al. J Crohns Colitis 2014;8:31.
201
It’s not so easy!
Siegel, et al. DDW 2011.
Numbers are hard!
»Numeracy (quantitative literacy)
› ½ of patients were unable to convert:
» 1% to 10 in 1000
› 80% of patients were unable to convert:
» 1 in 1000 to 0.1%
› Patient have difficulty determining which is the
higher risk:
» 1 in 27 versus 1 in 37
Schwartz LM et al. Ann Intern Med. 1997;127(11):966-72.
Sheridan SL, Pignone M. Eff Clin Pract. 2002;5:35.
202
Fair and Clear Communication of
Risks and Benefits
»Beware of framing1,2
› Relative risk = 34% reduction in heart attacks
› Absolute risk = 1.4% reduction in heart attacks
BOTH show that treatment decreases chance of
Heart Attack from 4.1%  2.7%
1. Malenka DJ et al. J Gen Intern Med. 1993;8:543-8.
2. Hux JE, Naylor CD. Med Decis Making. 1995;5:152-7.
Explaining risk of the disease
»The future risk of their disease is very difficult to
explain to patients
»When patients are feeling well, they don’t worry
about complications of their disease
»When patients are sick, they just want to feel better
»We need to help patients understand that Crohn’s
and ulcerative colitis are progressive diseases that
can lead to complications in the future
Patients are Willing to Take High Risks in
Exchange for Improved Health
Maximal Acceptable Risk (Annual %)
1.0
N = 580
PML
0.9
Serious infection
0.8
Lymphoma
0.7
0.6
0.5
0.4
0.5
0.2
Risk of dying
from side-effect
all < 1 per 1000
0.1
0
Moderate to
Mild
Moderate to
Remission
Severe to
Moderate
Severe to Mild
Severe to
Remission
Johnson et al. Gastroenterology 2007.
203
Parents are willing to take even higher risks of
lymphoma…but only if their kids are sick!
1.2
1
0.8
Maximal
Acceptable
Risk of 0.6
Lymphoma
(%)
0.4
Adult patients
Parents
0.2
0
Severe to Remission
Moderate to Mild
Johnson et al. Risk Analysis 2009
Crohn’s Disease Decision Aid Sample Clips
Benefits
Risks
Early Therapy
204
Ulcerative Colitis Decision Aid Video
Sample Clips
Medical Therapy
for UC
Surgical Options
for UC
Option Grids
http://www.optiongrid.co.uk/
Crohn’s Disease Treatments (Pediatrics)
Use this grid to help you and your clinician decide on the best treatment for your disease
Combination Therapy
Anti-TNF
Infliximab (Remicade);
Adalimumab (Humira);
Certolizumab pegol (Cimzia)
An anti-tumor necrosis factor (TNF)
drug blocks one specific chemical
An immunomodulator is a medicine
Using an immunomodulator and an
(TNF) in the body. Blocking TNF
What type of medication that is taken to regulate or quiet down
regulates or quiets down the immune
anti-TNF drug together.
is this?
the immune system which then
system which then decreases
decreases inflammation.
inflammation.
Infliximab is given intravenously
(injected into the vein) three times in the
Daily, as a pill (azathioprine or 6MP),
first 6 weeks, then every 6-8 weeks.
Daily pills (or weekly shots if
Adalimumab is given subcutaneously
or weekly as a pill or shot
methotrexate) PLUS injections either
(injected under the skin) every other
How is this treatment
(methotrexate). It may take weeks to
months to be fully effective, so your
intravenous (into the vein) or
week, and Certolizumab is given
administered?
subcutaneous (under the skin).
subcutaneously monthly. These
doctor may prescribe a steroid, such as
medications act faster than
prednisone, to start.
immunomodulators, so you likely won’t
need steroids.
After 6 months of
There are no research studies in children directly comparing immunomodulators to anti-TNF drugs to combination therapy.
treatment, how many
But, we do have good estimates based on research in children and adults for each of these options.
people get relief of their
symptoms and don’t
Approximately 40 people out of 100
Approximately 55 people out of 100
Approximately 60 people out of 100
need steroids (e.g.,
(40%).
(55%).
(60%).
prednisone)?
Approximately 3 people out of 100
(3%) develop pancreatitis, where the
With combination therapy, possible to
Allergic reactions like a rash or
What are some common,
pancreas becomes inflamed and
get side effects from both
shortness of breath from an infusion, or
painful. Other short-term side-effects
but short-lasting, side
immunomodulators and anti-TNF
pain or swelling at the injection site can
may include nausea, fever, fatigue,
effects?
drugs.
occur.
lowering of the white blood cell count,
or increase in liver tests.
Frequently Asked
Questions
Immunomodulator
Azathioprine (Imuran, Azasan);
6-mercaptopurine (6MP, Purinethol),
Methotrexate
205
Crohn’s Disease Treatments (Pediatrics)
Use this grid to help you and your clinician decide on the best treatment for your disease
Frequently Asked
Questions
How common are
serious infections?
Immunomodulator
Azathioprine (Imuran, Azasan);
6-mercaptopurine (6MP, Purinethol),
Methotrexate
Anti-TNF
Infliximab (Remicade);
Adalimumab (Humira);
Certolizumab pegol (Cimzia)
Combination Therapy
Approximately 3%-6% (between 3-6 people of out 100) experience serious infections for each treatment option.
How many people stop
taking the medication
because of side effects?
Approximately 10 out of 100 (10%).
Approximately 6-7 people out of 100
(6%-7%).
What is the risk of
getting lymphoma
(lymph node cancer)?
Approximately 4 people out of 10,000
(0.04%) for azathioprine and 6MP. It
is not clear if methotrexate has any
risk of lymphoma, but not enough
research has been done to prove this.
It is not clear that anti-TNF therapy on
its own increases the risk of lymphoma
at all, but not enough research has been
done to prove this.
If side-effects occur, it might be
possible to stop one of the medications
and continue the other.
There does not seem to be a meaningful
increase in the risk of lymphoma if
adding an anti-TNF to an
immunomodulator. The risk is
approximately 4 people of out 10,000
(0.04%)
What is the risk of
getting lymphoma if not
taking these
medications?
The risk of developing lymphoma in the general pediatric population is 0.0058%
This is equal to approximately 0.58 per 10,000 or 5-6 people out of 100,000
What else should I know
about the risks of these
treatments?
A rarer form of cancer is hepatosplenic T-cell lymphoma. We don’t know exactly how often it occurs, but it is very rare
(less often than the type of lymphoma described above). It is seen mostly in young males. It is usually not treatable. This
lymphoma has occurred in people taking 6-MP or azathioprine by itself or as combination therapy with an anti-TNF drug.
There have not been cases reported in Crohn’s disease with either methotrexate or anti-TNF therapy on its own.
For women, it is important to note that methotrexate cannot be taken when trying to become pregnant.
Summary
»Immunomodulators and biologics have real,
measurable risks
»But the absolute risk is still very small
»Clearly communicating these data is hard!
»Shared decision making tools can make this easier
206