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Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UMLS:C0451641 (
urolithiasis
)
3,973
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Deciding whether to accept a donor with nephrolithiasis is a multifaceted task because of the challenge of finding enough suitable donors while at the same time ensuring the safety of both donors and recipients. Until not long ago, donors with a history of renal stones or with stones emerging during screening on imaging were not considered ideal, but recent guidelines have adopted less stringent criteria for potential donors at risk of stones. This review goes through the problems that need to be approached to arrive at a wise clinical decision, balancing the safety of donors and recipients with the need to expand the organ pool. The risk of declining renal function and worsening stone formation is examined. Documents (consensus statements, guidelines, etc.) on this issue released by the most important medical societies and organizations are discussed and compared. Specific problems of living kidney donation associated with certain systemic (chronic hypercalcemia due to CYP24A1 gene mutations, primary hyperoxaluria, APRT deficiency) and renal (medullary sponge kidney, cystinuria, distal renal tubular acidosis, Dent's disease,
Bartter syndrome
, familial hypomagnesemia with hypercalciuria and nephrocalcinosis) Mendelian disorders that cause nephrolithiasis are also addressed.
Urolithiasis
2019 Feb
PMID:Living kidney donation from people at risk of nephrolithiasis, with a focus on the genetic forms. 3047 Aug 67
In the last decades, proteomics has been largely applied to the Nephrology field, with the double aim to (1) elucidate the biological processes underlying renal diseases; (2) identify disease-specific biomarkers, predictor factors of therapeutic efficacy and prognostic factors of disease progression. Kidney stone disease, and in particular, inherited nephrolithiasis (INL) are not an exception. Given the multifactorial origin of these disorders, the combination of genomics and proteomics studies may complement each other, with the final objective to give a global and comprehensive mechanistic view. In this review, we summarize the results of recent proteomic studies which have expanded our knowledge about INL, focusing the attention on monogenic forms of nephrolithiasis (cystinuria, Dent's disease,
Bartter syndrome
, distal renal tubular acidosis and primary hyperoxaluria), on polygenic hypercalciuria and on medullary sponge kidney disease.
Urolithiasis
2019 Feb
PMID:Urinary proteome in inherited nephrolithiasis. 3056 46
