Download Autosomal recessive PKD

Renal Cystic Disease
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ADPKD
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ARPKD
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Tuberous Sclerosis
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Medullary Sponge Kidney
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Von-Hippel Lindau Disease
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Medullary Cystic Disease
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Acquired Cystic Kidney
Disease
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Multicystic Renal Dysplasia
Mark D. Purcell DO
Nephrology/Internal Medicine
Carolina Nephrology, PA
203 Mills Avenue
Greenville, SC 29605
(864) 271-1844
[email protected]
Case Presentation
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54 y.o. Caucasian male
C.C.: “Concerned about developing cysts in
kidneys. 3 of 4 of my siblings have it!”
PMH: Negative
PSH: Negative
Meds: Rarely OTC NSAIDs
Allergies: None
Case Presentation
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ROS: Negative
Physical exam:
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VSS
No abnormal findings on exam
Labs:
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Cr=1.1
Hgb=14.2
UA: Neg for protein or blood, RBC=2-4, WBC=0
Questions?
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“Do I have Cystic kidneys?”
“If not, what are my chances of developing Cystic kidneys
in the future?”
“If I have it, what is the treatment?”
“I heard some could develop a stroke, right?”
“Could my children get tested to see whether they have it?”
“What are my chances of needing dialysis?”
Differential Diagnosis
Simple renal cysts
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The most common renal masses
Solitary, multiple and bilateral
Occur most often over age 50
Often seen on screening ultrasound exam
Range in size from less than 1cm to 10cm
Usually do not compromise renal function
Simple renal cysts
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Usually one epithelial layer without renal elements
Differential diagnosis : rule out more serious
disorders
Polycystic kidney disease: family history, bilateral, gross
hematuria, infection
 Loculated cystic disease: unilateral
 Malignancy: thickened irregular walls, septae, enhance
with contrast, multilocular mass
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Simple renal cysts
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Treatment: Usually none required
Pain: rare, Acetaminophen, NSAIDs short course if
renal function preserved
Rare if ever aspiration and surgery
Infection: Rare
Bosniak Classification
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Based on morphologic and enhancement
characteristics of cysts by CT scanning
Used to help diagnose and manage cystic lesions in
the kidney
Categories from I to IV based on increasing
likelihood of malignancy
Simple Cyst
Simple cyst
Autosomal Dominant PKD (ADPKD)
Autosomal Dominant PKD (ADPKD)
Presentation of ADPKD
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Usual presentations:
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Screening with positive family history
Flank pain, or
Kidney Disease
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On Ultrasound or CT, large kidneys with multiple bilateral cysts are
seen
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Cysts may also be seen in the liver, pancreas, and spleen
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Families with well known mutations in PKD genes
Clinical Manifestations
Extra-renal manifestations
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Cerebral Aneurysms
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Hepatic cysts (most common extra-renal manifestation)
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4% young adults up to 10% in older patients
Role of screening uncertain (MRI vs CT angiogram)
High risk patients: family history, require anticoagulation, pre-op, high risk
occupation, symptomatic patients
Occur later than renal cysts, increase with age
Cardiac valve disease: 25-35% of patients
Colonic diverticula: seen more in patients on dialysis
Abdominal wall inguinal hernias
U/S and Renal Cysts
J Am Soc Nephrol 13(9):2384-98, 2002
Acquired Cysts vs. ADPKD
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Patients with advanced renal failure may present with
acquired multiple renal cysts on ultrasonography or CT
These kidneys, however, have a normal or reduced size and
the renal contour is smooth
Many patients have known pre-existent renal disease
There is also no family history of PKD
ADPKD: U/S Diagnostic Criteria
ADPKD on U/S
ADPKD on CT
Epidemiology and Genetics
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ADPKD is by far the most commonly inherited
kidney disease
Prevalence ranges from 1-2.5 %
Characterized by the development of multiple renal
cysts
Associated with extra-renal manifestations
Caused by mutations identified in at least three
genes (PKD1, PKD2, PKD3)
N Engl J Med 329(5):332-42, 1993
Genetics
J Am Soc Nephrol 13(9):2384-98, 2002
Genetics
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PKD1 is an extremely large and complex gene (46 exons)
14 kb mRNA
Polycystin 1 is over 4000 amino acids
PKD1 gene is adjacent to one of the genes for tuberous
sclerosis (TSC2), a different disorder that is also associated
with cyst (angiomyolipoma) formation in the kidneys
J Am Soc Nephrol 13(9):2384-98, 2002
Genetics
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PKD2 is a much smaller gene
Encodes a much smaller mRNA
Polycystin 2 is a little smaller than 1000 amino acids
J Am Soc Nephrol 13(9):2384-98, 2002
Polycystin 1 and 2
Polycystin-1
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Polycystin-1 is localized in renal tubular epithelia,
hepatic and pancreatic ducts, and all sites of cyst
formation in ADPKD
It is an integral membrane protein, found primarily
in plasma membranes
It is over-expressed in most but not all cysts in
kidneys from patients with ADPKD
J Am Soc Nephrol 13(9):2384-98, 2002
ADPKD pathophysiology
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PKD 1 gene codes a large and complex protein (polycystin-1)
Polycystin 1 acts as a receptor that binds to and activates
polycystin 2 leads to rapid flux of Ca++ through cell
membrane cation channels
G- protein binding site is activated
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Normal tubular morphogenesis and growth
Mutations in the polycystin gene with promote abnormal growth
of cysts
A second “hit” or somatic mutation of the allele inherited from the
normal parent is required for cyst formation
Double-hit and Cyst Formation
Kidney Int 67(4):1234-47, 2005
Cyst Formation
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Protein-protein, cell-cell, and cell-matrix interaction
defects
Impaired tubulogenesis in cells derived from
ADPKD cysts in vitro
Abnormalities in renal cilia due to polycystin
mutations contribute to renal cyst formation.
Certain genetic defects in cilia formation and
function are related to cyst development
J Am Soc Nephrol 13(9):2384-98, 2002
Cyst Formation
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Fluid secretion in the cysts may be mediated in part
by the cystic fibrosis transmembrane conductance
regulator (TCR)
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Individuals with both ADPKD and cystic fibrosis
may have less severe cystic disease of the kidney and
liver compared to family members with ADPKD
but without cystic fibrosis
Renal Manifestations
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Hematuria
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Can be gross or microscopic
Isosthenuria
Proteinuria
Nephrolithiasis
Pain
Cancer
Anemia
Hematuria
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May be macroscopic
Incidence 35-50%
Macroscopic hematuria associated with worse outcome
Etiology:
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UTI
Nephrolithiasis
Strenuous activity
RCC
?Cyst rupture
Am J Kidney Dis 20(2):140-3, 1992
Isosthenuria
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Many have a mild concentrating defect
177 adult patients with normal kidney function, all had a modest impairment in
concentrating ability in response to overnight water deprivation, which
worsened with age in parallel to the decline in concentrating ability of
unaffected family members
Kidney Int. 35(2):675-80, 1989
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The concentrating defect may not be clinically evident except if a history of
polydypsia or polyuria is elicited
The underlying cause is not known, but disruption of tubular architecture,
defect in principal cell function, or early tubulointerstitial disease are postulated
factors
A central cause has been excluded since vasopressin levels are elevated in this
disorder
Kidney Int. 68(5):2405-18, 2005
Proteinuria
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Not very common
Usually <1 g/d
Parallel to renal function
Nephrotic syndrome usually means superimposed
GN
N Engl J Med 329(5):332-42, 1993
Nephrolithiasis
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Up to 20% of patients
>50% uric acid
Rest is mostly calcium oxalate
ESWL successful with small stones
Risks
Low urine volume
 low urinary citrate
 less often hyperuricosuria and hypercalciuria
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Am J Kidney Dis 22(4):513-9, 1993
Pain
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Abdominal and flank pain
 Infection
 Nephrolithiasis
 Cyst
rupture/hemorrhage
Renal Cell Carcinoma
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Mayo Clinic and Foundation, Rochester
25 patients
No male predominance was observed (12 men, 13 women)
The age of presentation was earlier than that seen in the general
population (45 versus 61 yr)
Fever, night sweats, and weight loss were prominent at presentation
Fever is a more common presenting symptom of renal cell carcinoma in
ADPKD (32% vs 7%)
20% of the patients had metastatic disease at presentation
Even with computed tomography and magnetic resonance, the diagnosis
was difficult and often delayed
WBC scan can wrongly suggest a cyst infection
More often concurrently bilateral (12 versus 1 to 5%), multicentric (28
versus 6%), and sarcomatoid in type (33 versus 1 to 5%)
Am Soc Nephrol 1994 Mar;4(9):1661-9
Urinary Tract Infection
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30-50% lifetime incidence
Similar to general population (organisms,
antibiogram, presentation and treatment)
Infected cyst present with a new area of discrete
tenderness (pyelonephritis is associated with diffuse
flank pain)
For infected cysts, fluoroquinolone orally for a
minimum of 4-6 weeks
Am J Kidney Dis 10(2):81-8, 1987
Nephrol Dial Transplant 13:2455, 1998
Am J Kidney Dis 2006; 47:e9
Clinical findings and course
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Patients may present with hypertension, hematuria, flank
pain, calculi, or urinary tract infection
 Hypertension may present with normal renal function.
Renal function starts to decline usually by the fourth
decade. (GFR decreases 4-6 mL/min/year)
Gradual progression to End Stage Renal Disease
Pain from cysts and enlarged kidneys is a common
manifestation as disease progresses
Clinical findings and course
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Risk for progression to ESRD
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Genotype PKD1 vs PKD2
Hypertension
Early onset proteinuria and hematuria
Males
Increasing kidney size and rate of growth
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Biggest risk factor for progression to end stage renal disease (CRISP trial)
Left ventricular mass index
Proteinuria alone
Family members who progress to ESRD
Mortality
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National registry data: similar to other patients with end-stage renal
disease and most are due to cardiac causes
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One report examined the cause of death in 129 pts
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Cardiac 36%
Infection 24%
Neurologic 12% (rupture ICA and bleed)
Cancer 0%
Pregnancy
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Fertility rate similar to unaffected family members
Hypertensive women at increase risk of fetal loss
Increase risk of ectopic pregnancy
J Am Soc Nephrol 5(12):2048-56, 1995
Treatment
1. Inhibit fluid secretion to slow cyst growth:
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Vasopressin V2 receptor antagonists (animals)
J Am Soc Nephrol 16:846, 2005
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blocking sodium channels with the potassium-sparing diuretic
amiloride (animals)
Kidney Int 35:1379, 1989
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? Caffeine restriction (In vitro)
J Am Soc Nephrol 13:2723, 2002
2. Inhibition of cell proliferation
No clinical studies are available
 mTOR inhibitors reduces cyst formation and growth in
animal models
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Treatment
3. Control of hypertension: renoprotection and IC bleeding
Nephrol Dial Transplant 18:2314, 2003, Journal of the Renin-Angiotensin-Aldosterone System. 7(3):139-45, 2006
4. Cyst drainage: pain control, not for renal function
J Am Soc Nephrol 2(7):1219-26, 1992
5. Metabolic acidosis to prevent bone disease and muscle wasting
6. Protein restriction: no benefit
7. Transarterial embolization/ Ethanol ablation
Treatment
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No specific treatment proven to delay progression of ADPKD
Rigorous blood pressure control may slow progression of ESRD
and decrease risk of cardiovascular mortality
If no contraindication, ACE-inhibitor should be first line therapy
Statin therapy to reduce risk of cardiovascular disease
Vasopressin receptor antagonists with some in vitro evidence
Increased fluid intake, suppress ADH, inhibit cyst growth
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Inc fluids esp with stones
Hemodialysis favored over peritoneal dialysis
Transplantation
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Post-transplant erythrocytosis
Diverticulitis with perforation
Symptomatic aneurysms
Often require unilateral or bilateral nephrectomy
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Avoid recurrent urinary infections
Need a place to put the graft
Increased patient satisfaction
No benefit to survival
ADPKD and ICA Screening
Screening
ADPKD, Mortality and ESRD
Progression to ESRD, why?
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Compression of adjacent normal parenchyma (?)
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But no one knows for sure. This is a hypothesis
Histologic examination of patients with early and
end-stage renal failure suggests that progressive
renal failure in ADPKD correlates with the
development of vascular sclerosis and interstitial
fibrosis
Kidney Int 42(5):1259-65, 1992
Negative family history
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Diagnosed in up to 25% of cases
Milder forms of the disease may have gone
undetected in previous family members
5 % may be a new mutation
No definitive diagnostic imaging criteria
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10 or more cysts in each kidney
Autosomal recessive PKD
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Incidence 1:10,000 – 1:40,000
Always associated with hepatic involvement
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More severe cases seen on ultrasound in utero
Less severe seen with enlarging kidneys after birth
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Congenital hepatic fibrosis
Patients alive after 1st month have 80% chance of survival to 15 and beyond
Genetic defect on chromosome 6 – PKHD1 gene encodes protein
fibrocystin
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Found in cortical and medullary collecting ducts
Epithelial cells of bile ducts
Autosomal recessive PKD
Autosomal recessive PKD
Autosomal recessive PKD
Autosomal recessive PKD
Autosomal recessive PKD
Diagnosis and Outcomes
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Diagnosis usually made by ultrasound
Kidneys diffusely hyperechogenic with multiple
small cysts
Dilated water filled collecting ducts on MR
Adults may have slowly progressive kidney
dysfunction
Systemic hypertension develops in 75%
No good screening for the gene currently
Medullary sponge kidney
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Malformation of the terminal collecting ducts in the renal pyramids
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Formation of small and large medullary cysts, do not involve the
cortex
Usually bilateral but can be unilateral
Benign disease with complications of nephrolithiasis and urinary tract
infections
Underlying defect is not known
Often discovered by incidental radiology study such as intravenous
pyelogram
Flank pain, hematuria, UTIs related to stones
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Medullary sponge kidney
Cystic dilations lead to a “brushlike” appearance on IVP.
Stones may appear in clusters at
the affected renal calyces
Medullary sponge kidney
Prognosis
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Impaired urinary calcium excretion leads to stones
Long term prognosis excellent
Rarely advances to End Stage Renal Disease
Tuberous sclerosis
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Autosomal Dominant genetic disorder 1 in 5,000-10,000 births
Only one-third of cases are familial
Neurocutaneous disorder involving many organ systems
Clinical diagnosis made by disease findings
Two separate gene mutations
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TSC1 chromosome 9q34, encodes hamartin protein, expressed in normal tissues
TSC2 chromosome 16p13, encodes tuberin protein, participates in normal brain development
The two proteins form a complex that is thought to function as a negative regulator of the cell cycle
Interaction with polycystin 1 and tuberin
Clinical features: Triad seizures, mental retardation, and facial
angiofibromas occur in 50% of patients
Tuberous sclerosis complex
Major criteria
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Autosomal dominant
Renal angiomyolipoma
Facial angiofibromas, forehead plaques
Periungual fibromas
Three or more hypomelanotic macules
Shagreen patch
Multiples retinal nodular hamartomas
Cortical tubers, giant cell atrocytomas
Cardiac rhabdomyoma
lymphangioleiomyomatosis
Minor criteria
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Multiple renal cysts
Nonrenal hamartoma
Hamartomatous rectal polyps
Retinal achromic patch
Cerebral white matter radial
migration tracts
Bone cysts
Gingival fibromas
Confetti skin lesions
Multiple enamel pits
Facial angiofibromas
Ash leaf spot
Fibrous plaque
Angiomyolipoma
Von Hippel-Lindau Disease
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Autosomal dominant syndrome
1 in 36,000 newborns
Syndrome of benign and malignant tumors
Presents in childhood, adolescence or adults
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Mean presentation age 26
VHL gene mutation
Type I
 Type II: High risk for pheochromocytoma
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Von Hippel-Lindau disease
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Renal cysts
Retinal hemangiomas – Most common
Clear cell carcinomas of the kidney
Cerebellar and spinal hemangioblastomas
Pheochromocytoma
Endocrine pancreatic tumors
Epididymal cystadenomas
Treatment
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Genetic counseling
Early diagnosis of more invasive tumors
Hemangioblastoma
Medullary cystic disease
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Rare autosomal dominant cystic disease
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30-50 new cases in U.S. each year
Renal cysts at the corticomedullary junction
Small to normal size kidneys
Hyperuricemia and gout
Grouped with other hyperuricemic diseases
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Nephronophthisis/MCKD complex
Diagnosis and Treatment
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Strong family history
Preponderance of gout
Bland urinary sediment, no protein
US- may show medullary cysts
Slow progressive chronic kidney disease
Allopurinol for gout
Transplant is best option: disease does not recur
Aquired cystic Disease
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Associated with hemo/peritoneal dialysis
 Multiple small bilateral cysts
 Easily distinguished from PCKD
 No family history
 Kidneys small to normal size
 Incidence rises with time on dialysis
Pathogenesis not completely understood
 Nephron loss leads to hypertrophy of normal nephrons,
activates proto-oncogenes, growth factors
 Over time tubular hyperplasia and cyst formation
Dialysis associated cystic disease
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Most patients assymptomatic
Risk of renal cell carcinoma 47% over 10 years
Multicystic Renal Dysplasia
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Abnormal differentiation of renal
parenchyma
Often unilateral, opposite kidney
undergoes unilateral hyperplasia
Abnormal differentiation of
metanephric parenchyma
One of the most common forms of
congenital cystic renal diseases
One of the most common causes of
abdominal mass in newborns
Questions
Mark D. Purcell, DO
e-mail: [email protected]