Uric acid and chronic renal disease: possible implication of hyperuricemia on progression of renal disease.
about
Role of NADPH Oxidase in Metabolic Disease-Related Renal Injury: An UpdateSerum cystatin C is a potential endogenous marker for the estimation of renal function in male gout patients with renal impairment.Uric acid transport and diseaseDo thiazides worsen metabolic syndrome and renal disease? The pivotal roles for hyperuricemia and hypokalemiaThe efficacy and safety of febuxostat for urate lowering in gout patients ≥65 years of age.The association between hyperuricemia and betel nut chewing in Taiwanese men: a cross-sectional study.Identification of microRNAs and their target genes in Alport syndrome using deep sequencing of iPSCs samples.Idiopathic recurrent calcium urolithiasis (IRCU): variation of fasting urinary protein is a window to pathophysiology or simple consequence of renal stones in situ? A tripartite study in male patients providing insight into oxidative metabolism as pUricases as therapeutic agents to treat refractory gout: Current states and future directions.Elevated level of renal xanthine oxidase mRNA transcription after nephropathogenic infectious bronchitis virus infection in growing layers.The relationship between hyperuricemia and the risk of contrast-induced acute kidney injury after percutaneous coronary intervention in patients with relatively normal serum creatinine.Uric Acid and renal disease.Association of incident gout and mortality in dialysis patientsElevated uric acid increases the risk for kidney disease.Serum urate levels and consumption of common beverages and alcohol among Chinese in Singapore.Glut9 is a major regulator of urate homeostasis and its genetic inactivation induces hyperuricosuria and urate nephropathy.Uric acid levels have no significant effect on renal function in adult renal transplant recipients: evidence from the symphony study.The role of serum uric acid in cardiovascular disease in type 2 diabetic and non-diabetic subjects: a narrative review.Estrogen receptor β signaling induces autophagy and downregulates Glut9 expression.Impact of Febuxostat on Renal Function in Gout Patients With Moderate-to-Severe Renal Impairment.Serum Uric Acid Levels and Renal Impairment among ST-Segment Elevation Myocardial Infarction Patients Undergoing Primary Percutaneous InterventionPreservation of renal function during gout treatment with febuxostat: a quantitative study.Tophaceous gout and renal insufficiency: a new solution for an old therapeutic dilemma.Relative efficacy of casein or soya protein combined with palm or safflower-seed oil on hyperuricaemia in rats.High salt intake promotes a decline in renal function in hypertensive patients: a 10-year observational study.Albuminuria, proteinuria, and urinary albumin to protein ratio in chronic kidney disease.Uric acid and incident chronic kidney disease in dyslipidemic individuals.Urate-induced acute renal failure and chronic inflammation in liver-specific Glut9 knockout mice.Hyperuricaemia and accelerated reduction in renal function.Central arterial characteristics of gout patients with chronic kidney diseases.Benzbromarone Attenuates Oxidative Stress in Angiotensin II- and Salt-Induced Hypertensive Model Rats.Salivary Biomarkers of Oxidative Stress in Children with Chronic Kidney Disease
P2860
Q28074668-DFC30661-337E-41A7-BA67-B2C2DA8E6777Q33565394-04B777F7-3F67-4B90-93C5-D3E53E277402Q33882958-20F094BE-1392-4F21-8666-82604F35708DQ33989505-CC16205B-F617-4A76-B97B-236946CF3E6EQ34204854-140661F7-7299-4420-BF3B-ED8D7FC2673AQ34524645-C767896C-2CC6-4F57-9AD2-C21DCD67D6CAQ35170636-420781E0-07B1-4679-A6A4-F64E2BD5ABC3Q35959059-54D99AB5-54B4-432E-941D-413CB17E76C0Q36002499-3D9CD0F0-1755-44E8-BEB5-D5C6C33F5559Q36431295-7A1EAE45-DDC0-43D6-AD9A-4FDA7C7FF119Q36554964-DAFACE71-0CCC-4404-A447-B44A72CA25BFQ36634631-AD6958D7-D772-4223-A2FE-DA526AA8AA54Q36949195-9CE411D0-344B-4CB6-AC16-BAB9F2AE81A9Q36985796-2EEDCE43-16EC-4519-8896-4BAA5C741255Q37010264-F88258F4-7417-49A3-A158-3AAE2B7AE744Q37340890-861448D1-7647-462D-99A2-95C505437E03Q37378415-3825D32D-1E88-421D-93EA-EFA80E28E90CQ37982966-73978A89-0D79-4C0D-B7A1-2F65C76D5F41Q38980400-9569AE72-761F-4184-BAFE-1785E4B0A44FQ39984416-F1EF3D27-0064-4D56-9DD1-B0F2650EAA9DQ41828053-24207ECD-D938-40BE-9C2A-EC44EEFB38FAQ42686586-EA0348C7-1D27-4227-B9E2-E47C87EAA0B4Q42737198-A2BAAD7C-EFAA-44F1-BAF7-49AAD9ABAE77Q43148107-4B4CF01A-6F8D-4783-8FC3-C07A08665AA2Q44500604-5F9734B3-B580-48FA-80B5-2787B3BB6C0EQ44706005-D8AD15A6-F4F2-4019-BC3E-59624DF8BCA6Q47660459-29A861A5-D1CA-4247-ABCE-1C5B87C249A2Q50875215-7C50E44D-43E5-4E4D-8890-1ADBC7388261Q51152490-6369B8DA-64A1-443F-B783-8F84ECD16075Q53832266-427D52FB-4166-4024-8004-14870296D52BQ55486963-CE1F544F-AE0C-4D9C-8ECC-CD41311BFC1BQ58789636-7574021D-B141-4589-B741-29A5477B77BA
P2860
Uric acid and chronic renal disease: possible implication of hyperuricemia on progression of renal disease.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Uric acid and chronic renal di ...... progression of renal disease.
@ast
Uric acid and chronic renal di ...... progression of renal disease.
@en
type
label
Uric acid and chronic renal di ...... progression of renal disease.
@ast
Uric acid and chronic renal di ...... progression of renal disease.
@en
prefLabel
Uric acid and chronic renal di ...... progression of renal disease.
@ast
Uric acid and chronic renal di ...... progression of renal disease.
@en
P1476
Uric acid and chronic renal di ...... progression of renal disease.
@en
P2093
Duk-Hee Kang
Takahiko Nakagawa
P356
10.1016/J.SEMNEPHROL.2004.10.001
P577
2005-01-01T00:00:00Z