0521779407-09 CUNY1086/Karliner 0 521 77940 7 June 4, 2007 21:13
Hyperoxaluria 755
■PHII: longer survival than type I despite similar urinary oxalate excre-
tion, median onset 16 years, clinical heterogeneity (siblings with
mutations may be asymptomatic), end-stage renal disease may still
occur (12%), <30 documented cases
tests
Laboratory
■basic blood studies:
➣BUN, creatinine, Ca2+, PO4 2-, PTH may be normal or elevated
■basic urine studies:
➣urinalysis may show hematuria, calcium oxalate crystals
Screening
■elevated urine oxalate (>0.5 mmol/24 h/1.72 m2, but may be nor-
mal in impaired renal function), glycolate (>1 mmol/24 h/1.72 m2,
but may be normal in∼1/3 PHI patients) in PHI, L-glycerate
(> 0.2 mmol/24 h/1.72 m2) in PHII. NB: oxalate excretion in children
increases linearly with age and reaches adult levels at∼14 years
■elevated urine oxalate:creatinine ratio (>0.10 mmol/mmol)
■elevated blood oxalate (>30 mcM/liter), glycolate (>2500 mcM/liter)
Confirmatory Tests
■liver biopsy (PHI, PHII) or leukocytes (PHII) for enzymatic assay
■AGT immunoblotting by Western analysis (PHI)
■DNA analysis may be available in some centers (G170R and I144T
mutations account for up to 40% of mutant alleles in PHI)
Prenatal Diagnosis
■possible on chorionic villi or amniocytes by direct DNA for PHI
(genetic counseling must stress lack of genotype-phenotype corre-
lation in PHI)
■enzymatic on fetal liver for PHI
Imaging
■abdominal X-ray: calcified arteries (calcium oxalate crystals)
■renal ultrasound: nephrolithiasis
■skeletal X-rays: dense bone, ‘bone-in-bone’ phenomenon, radiolu-
cent metaphyseal bands, pathologic fractures
differential diagnosis
■causes of secondary oxalosis: renal failure from any cause, gas-
trointestinal disorders (Crohn’s disease, cystic fibrosis, pancreatic