about
Clinical Pharmacogenetics Implementation Consortium guidelines for human leukocyte antigen-B genotype and allopurinol dosingThe genetics of hyperuricaemia and goutGenetic variation underlying renal uric acid excretion in Hispanic children: the Viva La Familia StudyImpaired response or insufficient dosage? Examining the potential causes of "inadequate response" to allopurinol in the treatment of goutSugar-sweetened beverage consumption: a risk factor for prevalent gout with SLC2A9 genotype-specific effects on serum urate and risk of gout.Association between SLC2A9 transporter gene variants and uric acid phenotypes in African American and white families.Revisiting the pathogenesis of podagra: why does gout target the foot?An update on the genetic architecture of hyperuricemia and goutGout, genetics and ABC transporters.The renal urate transporter SLC17A1 locus: confirmation of association with gout.The Establishment and Characteristics of Rat Model of Atherosclerosis Induced by HyperuricemiaWearable salivary uric acid mouthguard biosensor with integrated wireless electronics.ALPK1 genetic regulation and risk in relation to gout.Genetics of hyperuricemia and gout: implications for the present and future.Hyperuricaemia in the Pacific: why the elevated serum urate levels?Uric acid: a modulator of prostate cells and activin sensitivity.Additive composite ABCG2, SLC2A9 and SLC22A12 scores of high-risk alleles with alcohol use modulate gout risk.Copy number variants of ABCF1, IL17REL, and FCGR3A are associated with the risk of gout.No evidence for association of Chr 9p21 variant rs1333049 with gout in New Zealand case-control sample sets.Uric acid and thiocyanate as competing substrates of lactoperoxidase.Clinically insignificant effect of supplemental vitamin C on serum urate in patients with gout: a pilot randomized controlled trial.Uric acid priming in human monocytes is driven by the AKT-PRAS40 autophagy pathway.The impact of diuretic use and ABCG2 genotype on the predictive performance of a published allopurinol dosing tool.Comparative effects of green and black tea extracts on lowering serum uric acid in hyperuricemic mice.Variants of ALPK1 with ABCG2, SLC2A9, and SLC22A12 increased the positive predictive value for gout.Photocontrolled extraction of uric acid from biological samples based on photoresponsive surface molecularly imprinted polymer microspheres.The ABCG2 gene Q141K polymorphism contributes to an increased risk of gout: a meta-analysis of 2185 cases.Genetic analysis for rs2280205 (A>G) and rs2276961 (T>C) in SLC2A9 polymorphism for the susceptibility of gout in Cameroonians: a pilot study.An update on the genetic causes of hyperuricemia and goutPopulation-specific influence ofSLC2A9genotype on the acute hyperuricaemic response to a fructose load
P2860
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P2860
description
2010 nî lūn-bûn
@nan
2010 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
The genetic basis of hyperuricaemia and gout.
@ast
The genetic basis of hyperuricaemia and gout.
@en
The genetic basis of hyperuricaemia and gout.
@nl
type
label
The genetic basis of hyperuricaemia and gout.
@ast
The genetic basis of hyperuricaemia and gout.
@en
The genetic basis of hyperuricaemia and gout.
@nl
prefLabel
The genetic basis of hyperuricaemia and gout.
@ast
The genetic basis of hyperuricaemia and gout.
@en
The genetic basis of hyperuricaemia and gout.
@nl
P1433
P1476
The genetic basis of hyperuricaemia and gout.
@en
P356
10.1016/J.JBSPIN.2010.02.027
P577
2010-05-15T00:00:00Z