Download Nutritional Implications of Superior Mesenteric Artery Syndrome

Activity
 Think back to your Dietetic Internship.
 What was one of the most humbling and potentially
embarrassing moments?
 In a few words, write this moment on a piece of
paper, do not put your name on the paper (this will
remain anonymous)
 Fold the paper and place it in front of you when you
are finished

Nutritional Implications of
Superior Mesenteric Artery
Syndrome
Meghan Zook
Sodexo Dietetic Intern
Definition of SMAS
 Uncommon and potentially fatal cause of small
bowel obstruction
 Occurs when the 3rd portion of the duodenum
becomes closed off due to external pressure from
the Superior Mesenteric Artery and the Aortic
Artery
 Occurs in 0.013%-0.3% of the general population
 Occurs in mainly youth and young and slender
females
Pathophysiology
 In a normal adult, the SMA leaves the Aortic artery
at the location of the first lumbar vertebra
 This creates an angle in which the duodenum passes
through
 Duodenum is fixed at this point by the ligament of
Treitz
 Angle normally is 25-60 degrees*
*no exact definition of what angle is considered
“normal”
SMA
Mesenteric
fat pad
3rd portion of the
duodenum
Aorta
Pathophysiology cont.
Pathophysiology cont.
 Symptoms of SMAS begin to occur when the angle
is reduced to approx. <25 degrees
 Symptoms are due to mechanical compression of
the duodenum, not from ischemic insult
Pathophysiology cont.
Anatomic reasons
Abnormally short ligament of Trietz
Superior mesenteric artery with
unusually low origin
Loss of mesenteric fat pad
Eating disorders
Tube-feeding-dependent patients who
are underfed
Excessive exercise
Gastric bypass surgery
Wasting/malabsorption diseases
Post-surgical
External compression
Spinal correction surgery
Abdominal surgery
Trauma
Abdominal trauma
Spinal cord injury
Local pathology
Malignancy
Aortic aneurysm
Chronic inflammation and adhesions
Other names
 Wilkie’s Syndrome
 Nutcracker Syndrome
 Cast syndrome
 Chronic Duodenal Ileus
History of SMAS
 Carl von Rokitansky in 1861
 Series of autopsies on thin young women
 All had post-prandial pain and vomiting
 Under-studied until 1927
 D. P. Wilkie performed first original research
 75 patients
 Similar symptoms
Early Research
 Further research has remained slim
 Limited number of diagnosed cases
 Between 1800s and 1985 – 400 cases
 Most were children and females
 Pre-existing conditions: disordered eating patterns,
cancer, other wasting diseases
 Controversy existed due to questions about
pathology and methods used to diagnose
Current Research
 Body of literature has begun to grow
 13 articles
 9 case reports (bulk of the literature)
 4 observational research studies (multiple patients)
 2 studies of pediatric patients
Patient Population
 67 patients total
 47 of these were female (70%)
 Mean age of 26.77 years
Past Medical History
 Included:
 Intentional dieting (2)
 Tuberculosis interstitial nephritis (1)
 Traumatic paraplegia (1)
 Appendicular perforation (1)
 Mild COPD, repair of perforated duodenal ulcer (1)
 Several years of disordered eating (3)
 Other psychosocial issues
 Drug/alcohol abuse (2)
 Domestic abuse (1)
*several articles only listed symptoms and not past medical history
Disordered Eating Patients
 21-year old Japanese female
 2 years bulimia nervosa, 6 years anorexia nervosa – vomiting 1-2x
per day
 47-year old female
 “many-year” history of anorexia nervosa
 Laxative use and excessive exercise
 15-year old girl
 History of anorexia nervosa
Presenting Symptoms
 Post-prandial pain and discomfort
 Bilious emesis
 Anorexia
 Weight loss
Diagnostic Tests
 Barium upper GI studies – “Gold Standard”
 Small bowel follow through and Doppler blood flow
assessment
 Abdominal ultrasounds
 CT scans
 Discern the degree between the SMA and Aortic
Artery, fat, and dilation of stomach and 1st and 2nd
part of the duodenum
Abdominal Ultrasound
CT Scan
Barium Upper GI Series
Misdiagnosed Persons
 Several individuals were first misdiagnosed
 Reflux disease
 Treated with Proton-Pump Inhibitors
 Other possible misdiagnoses:
 Peptic ulcer disease
 Gall bladder disease
 IBS
 Duodenitis
 Cholelithiasis
 Visceral neuropathy
 Pancreatitis
 Gastroparesis
Treatment Options
 Conservative – goal is to increase mesenteric fat pad, all
patients except 4 were first conservatively treated
 Aggressive – surgical relief
 Depends on medical staff and surgeon
 Depends on acute vs. chronic SMAS
Conservatively Treated
 Length of treatment
 4 days to several weeks
 1 study by-passed conservative treatment
completely (4)
 Nasogastric decompression
 Parenteral & Enteral Nutrition
 Positioning patient during meals
Parenteral & Enteral Nutrition
 Goal:
 Avoid re-feeding syndrome
 Provide enough nutrition for weight gain and to
build up the mesenteric fat pad
 Total Parenteral Nutrition Advised
 May run with Enteral Nutrition
 NJ tube treaded past the point of decompression
PN and EN Recommendations
 No recommendations through ASPEN
 1 study, 1 patient (70 Y.O. man) – Chan et al.
 Bolus feeds through NJ tube – Ensure by Nestle
 50 mL Q4 hours, increased gradually to 250 mL
 Study took place in Singapore
*ASPEN recommends continuous feeds if feeding into the duodenum
 Use clinical judgment and nutritional status of the patient to
determine appropriate calorie and protein needs
Fluids and Soft Foods
 1 study, 1 patient (47 Y.O female with anorexia
nervosa) – Mascolo et al.
 Small and frequent liquids
 Sitting in knee-chest positioning
 On CT scan, this patient was found to have only
partial compression of the duodenum
 Patient improved and was able to slowly advance
her diet
Positioning
 After meals
 Knee-chest position
 Left side lying
Medications
 Controversy over whether or not certain medications should be
given during conservative treatment
 Medications to increase gastric emptying (Metoclopramide)
 Dangerous?
 Several reviewed articles used metoclopramide and anti-emetic
 Successful conservative treatment outcomes
 No recommended regimen for medication
Aggressively Treated
 Normally follows period of conservative treatment
 67 patients
 Conservative Treatment successful for 56%
 If patient does not gain weight and continues to be
unable to eat or drink foods, surgery is
recommended
Surgical Procedures
 Strong’s Procedure (3)
 Gastrojejunostomy (1)
 Open or Laparoscopic Duodenojejunostomy (13)
 Gold Standard
Strong’s Procedure
 Mobilization by division of the ligament of Treitz
 Preoperative gastric decompression with NG tube
Dissection allows the 3rd portion of the duodenum to
drop lower, relieving pressure
25% rate of failure
Gastrojejunostomy
Open or Laparoscopic
Duodenojejunostomy
Recovery
 Many patients will require help for existing or developed
disordered eating patterns
 Chan et al (27 pediatric patients, 8 male)
 21 conservatively treated
 14 good recovery within 10-13 weeks
 6 underwent surgery (type not listed)
 5 had successful surgeries
 1 female developed adhesion ileus and needed TPN for 3 weeks until
the ileus had resolved
Recovery cont.
 Shin et al (18 pediatric patients, 11 male)
 13 responded to conservative treatment
 (4 recurrences, 3 recovered again, 1 did not - anorexia nervosa - and
was lost to follow-up)
 1 female with anorexia nervosa responded to laparoscopic
gastrojejunostomy and symptoms were relieved within 2 weeks
 Others were lost to follow-up
Role of the Clinical Dietitian
 Perform assessment to obtain patient nutritional status upon
patient admission – document degree of malnutrition
 Work with medical team to give opinion as to whether or not
patient is able to be conservatively treated or if patient requires
immediate surgical attention
 If conservative treatment is an option, prescribe calories and
protein and take care to avoid re-feeding syndrome
 Try to increase patient nutritional status as soon as possible
 Use clinical judgment to decide upon enteral formula and
feeding rate
Conclusions
 Body of literature leaves much to be desired
 Specifically in regards to feeding recommendations
 More original research on large groups of subjects
 Less focus on case reports
 Hopefully in the future we will see
recommendations for formula type and how long to
conservatively treat
Quiz Time!
1. What are the two arteries that are responsible for
compression of the duodenum during SMAS?
2. What is the name of the surgical procedure that is
considered the “Gold Standard” used to treat
SMAS?
3. List something that you did not know before this
presentation.
 Questions?
References

Baltazar, U., Dunn, J., Floresguerra, C., Schmidt, L., & Browder, W. (2000).
Superior mesenteric artery syndrome: an uncommon cause of intestinal
obstruction. Southern medical journal, 93(6), 606-608.

Gebhart, T. (2015). Superior mesenteric artery syndrome. Gastroenterology
Nursing, 38(3), 189-193.

McCallum R W. Superior mesenteric artery syndrome. Practical
Gastroenterology, 3. 12-19.

Naseem, Z., Premaratne, G., & Hendahewa, R. (2015). “Less is more”: Non
operative management of short term superior mesenteric artery syndrome.
Annals of Medicine and Surgery, 4(4), 428-430.

Nutrition care manual website. https://www.nutritioncaremanual.org/. Accessed
on April 29, 2016.

Rabie, M. E., Ogunbiyi, O., Al Qahtani, A. S., Taha, S., El Hadad, A., & El Hakeem, I.
(2015). Superior Mesenteric Artery Syndrome: Clinical and Radiological
References cont.

Merrett, N. D., Wilson, R. B., Cosman, P., & Biankin, A. V. (2009). Superior
mesenteric artery syndrome: diagnosis and treatment strategies. Journal of
Gastrointestinal Surgery, 13(2), 287-292.

Chan, D. K., Mak, K. S., & Cheah, Y. L. (2012). Successful nutritional therapy for
superior mesenteric artery syndrome. Singapore medical journal, 53(11), e233-6.

Shin, M. S., & Kim, J. Y. (2013). Optimal duration of medical treatment in superior
mesenteric artery syndrome in children. Journal of Korean medical science, 28(8),
1220-1225.

Shiu, J. R., Chao, H. C., Luo, C. C., Lai, M. W., Kong, M. S., Chen, S. Y., ... & Wang, C.
J. (2010). Clinical and nutritional outcomes in children with idiopathic superior
mesenteric artery syndrome. Journal of pediatric gastroenterology and nutrition,
51(2), 177-182.

Berchi, F. J., Benavent, M. I., Cano, I., Portela, E., & Urruzuno, P. (2001).
Laparoscopic treatment of superior mesenteric artery syndrome. Pediatric
Endosurgery and Innovative Techniques, 5(3), 309-314.
References cont.

Mascolo, M., Dee, E., Townsend, R., Brinton, J. T., & Mehler, P. S. (2015). Severe
gastric dilatation due to superior mesenteric artery syndrome in anorexia
nervosa. International Journal of Eating Disorders, 48(5), 532-534.

Gthrie Jr, R. H. (1971). Wilkie's syndrome. Annals of surgery, 173(2), 290.

Patel, A.H., Joshi, A.H., Shah, N. (2015). A case of superior mesenteric artery
syndrome. IJSR. 4(6), 92-93.