Gene/Protein
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Drug
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Target Concepts:
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Query: UMLS:C0020500 (
hyperoxaluria
)
912
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Dietary deficiency
of thiamine or pyridoxine has been shown to produce
hyperoxaluria
and renal stone formation in man and experimental animals. To determine the possible contribution of exogenous glyoxylate and oxalate, the intestinal transport of [14C] - oxalate and [14C] - glyoxylate was measured in vitamin B1 and B6 deficient rats and their respective pair-fed controls. Results indicate that glyoxylate and oxalate are passively diffused from lumen to lamina propria in thiamine deficient and their pair-fed controls with no significant change in the rate of uptake of both the substrates. However B6 deficient rats showed a significant enhancement in the rate of oxalate uptake due to development of a new biphasic transport system. The rate of glyoxylate uptake by simple passive diffusion remained unaltered in pyridoxine deficiency.
...
PMID:Absorption of glyoxylate and oxalate in thiamine and pyridoxine deficient rat intestine. 394 75
Primary hyperoxaluria type 1 (PH 1) is complicated by a high rate of early end-stage renal failure (ESRF). In ESRF combined liver kidney transplantation has emerged as treatment of choice for teenagers and adults. In chronic renal failure (CRF) and for small children the situation is less clear. We report on three isolated liver transplantations and show the data of young children from the European Registry for liver transplantation in PH 1. Patient #1 developed ESRF at 3 months of age.
Deficiency
of alanine:glyoxylate aminotransferase proved PH 1. Progressive bone disease developed and the boy received a living related liver graft (LRLTx) at age two. Due to recurrent cholangitis kidney transplantation (KTx) is currently not feasible. Plasma oxalate decreased after LRLTx indicating correction of the metabolic defect. Patient #2 was diagnosed at the age of 14 months. He had nephrocalcinosis and hyperglycolic
hyperoxaluria
. Two years later he developed ESRF. At 5 years of age isolated liver transplantation was performed as a first step of therapy. Due to prolonged warm ischemia time organ function was poor. A severe bleeding complicated the course. The child died four weeks after transplantation from untreatable CMV septicemia. Patient #3 was evaluated for failure to thrive at 6 months of age. Urinary oxalate/creatinine ratio was 705 mumol/mol and gave rise to the diagnosis of PH 1. Renal failure slowly progressed to a creatinine clearance of 20 ml/min/1.73 m2 at 8 years, when liver transplantation (LTx) was performed. Four months later, GFR has not changed. Liver function and urinary oxalate/creatinine ratio are normal. Slowly deteriorating chronic renal failure can be stabilized through isolated liver transplantation and thus the rapid need for KTx will at least be delayed. Even more important, normalization of the oxalate metabolism prevents extrarenal oxalate deposits during renal failure.
...
PMID:Transplantation procedures in primary hyperoxaluria type 1. 883 45
