The appropriate use of liver transplantation in children with type-1 primary hyperoxaluria (PH-1) is not well established. We reviewed our experience with 36 children with PH-1, including 12 who underwent liver transplantation.From 1989-1998, 36 children from 10 families in northern Israel were diagnosed with PH-1. Eight children presented with renal failure; seven of these eight had the severe infantile form of the disease. One child was treated with kidney transplantation alone. Combined liver-kidney transplantation has been performed in nine children and preemptive liver transplantation in three children. A review of the patients' charts for the following parameters was performed: age, clinical signs, and renal sonographic findings at diagnosis, age at onset of dialysis, and current status. Type of transplant, pre- and posttransplant urine oxalate excretion, current renal function, survival, and complications were recorded in liver recipients.Of the 23 nontransplanted children, 9 died of complications related to severe systemic oxalosis and 14 are alive (mean follow-up, 7.4 years), including 2 who are candidates for transplantation. The child who underwent only kidney transplantation died of unrelated causes. Of the 12 liver recipients, 2 died within the first 3 months posttransplant and another child underwent retransplantation due to hepatic arterial thrombosis. At intervals after transplant ranging from 6-54 months, 10 recipients are alive (7 of the 9 recipients of combined liver-kidney transplants and all 3 recipients of preemptive liver transplants). Mean GFR in the 10 survivors is 77 ml/min/m2. In 9 of these 10, daily urinary oxalate excretion normalized. Renal function has improved (mean GFR 86 vs. 58 ml/min/m2) but renal oxalate deposits remain in the three recipients of isolated liver grafts.Our decade-long experience with children with PH-1 supports strategies for early diagnosis and timely liver transplantation. Preemptive isolated liver transplantation should be considered in children who develop the disease during infancy or in those with slowly progressive disease when significant symptoms develop. Combined liver-kidney transplantation is suggested for children with end-stage renal disease.
An infant with congenital agranulocytosis (Kostmann's syndrome) presenting with necrosis of the eyelids and lacrimal apparatus is reported. Although the disease is rare, its presence should be considered in infants with severe localized pyogenic infections.
Primary hyperoxaluria type 1 (PH1) is caused by a deficiency of the hepatic alanine:glyoxylate aminotransferase enzyme encoded by the AGXT gene on chromosome 2. Prenatal diagnosis of PH1 either by measurement of hepatic enzyme activity or DNA analysis provides a valuable contribution to the management of pregnancies at risk for the severe infantile form of this disease. DNA analysis is preferred because it can be performed earlier in pregnancy and eliminates difficulties encountered in measurement of tissue enzyme activity, particularly those related to sample instability. We have assessed the clinical value of two polymorphisms located in introns 1 and 4 of the AGXT gene as linkage markers for the prenatal diagnosis of PH1 in 12 families Eight of the twelve families were informative when either one or a combination of the two polymorphisms was used and prenatal diagnosis has been performed in two of these. The remaining four families were only partially informative. Five additional linkage markers on chromosome 2 have been identified which are co-inherited with the AGXT gene. Assays to detect these markers are currently under development.
X-linked adrenoleukodystrophy (ALD) is a peroxisomal disorder characterized by impaired peroxisomal β-oxidation of very-long-chain fatty acids (VLCFAs). This is probably due to reduced activation of the VLCFAs and results in demyelination of the nervous system and adrenocortical insufficiency. The ALD gene is localized on Xq28, has 10 exons and encodes a protein of 745 amino acids with significant homology to the membrane peroxisomal protein PMP70. Characterizing the disease causing mutations is of importance in prenatal diagnosis because 12-20% of women who are obligatory carriers show false-negative results when tested for VLCFA in plasma. We have analyzed DNA from blood samples of 7 Jewish (5 Sephardi and 2 Ashkenazi) and 3 Arab Israeli families suffering from ALD. Five missense-type mutations were identified: R104H, Y174C, L229P, R401Q, and G512C. A single mutation, R464X, was nonsense, and two, Y171 frameshift and E471 frameshift, were frameshift. Interestingly, a single mutation was identified in three families of Moroccan Jewish descent, probably due to a founder effect.
Pompe disease (glyocogen storage disease type-II) is an inherited deficiency of acid α-glucosidase (GAA), a lysosomal enzyme required for glycogen breakdown. This results in accumulation of glycoge...
Prolidase deficiency (PD) is a rare autosomal recessive disorder which may have a wide spectrum of clinical features. These features include a characteristic facies, cognitive impairment, rashes or skin ulceration, splenomegaly, recurrent infections involving mainly the respiratory system, and iminodipeptiduria. The disorder is caused by a mutation in the PEPD gene.To describe a cohort of unrelated PD patients from Northern Israel whose inborn error of metabolism was associated with systemic lupus erythematosus (SLE) and to identify in the medical literature all PD cases mimicked by and/or associated with SLE.Three patients with PD associated with SLE were clinically, biochemically and genetically investigated. These patients were from 3 unrelated consanguineous families residing in Northern Israel. A computer-assisted (PubMed) search of the medical literature from 1975 to 2011 was performed using the following key words: Prolidase deficiency, SLE, and systemic lupus erythematosus.An association between PD and SLE was found in 10 PD patients. These 10 patients included three from our cohort of 23 PD patients, and seven out of just under 70 PD patients previously reported in the literature.The present findings underscore the relatively high incidence of the association between SLE and PD, suggesting that this association may not be coincidental. The phenotypic similarities between SLE and PD might suggest that the PEPD gene constitutes a modifier gene or a genetic risk factor in the causation of SLE.
