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Query: UMLS:C0018099 (
gout
)
5,192
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Urate deposits within microtophi were found in 8% of unselected autopsies in Brisbane, Australia. Significant association were demonstrated with (a) a history of gouty arthritis and (b) the existence of nitrogen retention and renal disease of apparently primary, but not gouty, origin. However, in 26% of the patients, a retrospective survey of their medical records did not reveal any causative factor. The possible aetiological importance of the urine flow rate is stressed. The presence of medullary urate deposits at autopsy was most frequently associated with a history of
gout
or the presence of pre-existing and non-gouty renal disease, although no aetiological factor could be determined in a quarter of the cases.
Nephron
1981
PMID:Urate deposits in the renal medulla. Prevalence and associations. 732 50
The prevalence of hyperuricemia was investigated in 214 kidney allograft recipients, 81 were on azathioprine and steroids and 133 on cyclosprine (CyA) and low-dose steroids or on triple therapy. All had stable renal function, serum creatinine < 2.5 mg/dl, and a follow-up between 12 and 120 months. At the time of the study, blood and urine samples were obtained to perform tests of renal function. The renal handling of urate was evaluated by a combined pyrazinamide and probenecid test in 35 selected patients (12 normouricemic on azathioprine, 9 normouricemic on CyA and 14 hyperuricemic on CyA). The prevalence of hyperuricemia was higher in the group of patients on CyA (19.7 vs. 66.9%, p < 0.001), as well as the concentration of serum urate (6.1 +/- 1.9 vs. 7.6 +/- 1.7, p < 0.001), and serum creatinine (1.2 +/- 0.3 vs. 1.4 +/- 0.4, p < 0.001). In patients on CyA, multivariate analysis showed that the most important predictive variables of hyperuricemia were: serum creatinine, FEurate, diuretic use and CyA blood levels (r = 0.73, p < 0.0001). Thirteen patients on CyA (9.9%) had at least one episode of gouty arthritis. Those patients were older than the hyperuricemic patients without
gout
(45.7 +/- 6.7 vs. 37.1 +/- 13.5 years, p < 0.01), had worse renal function (serum creatinine 1.9 +/- 0.4 vs. 1.5 +/- 0.4 mg/dl, p < 0.01), and higher prevalence of hypertension (100 vs. 63.1%, p < 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
Nephron
1995
PMID:Impairment of tubular secretion of urate in renal transplant patients on cyclosporine. 747 18
Our attention was initially called to 2 young Japanese sisters with
gout
and renal insufficiency, which led to an investigation of members of their family with similar conditions. One sister, a 26-year-old woman who had suffered from polyuria since infancy, suffered from
gout
and renal insufficiency. Her younger sister also had a history of polyuria, hyperuricemia, and moderately reduced renal function. Their urinary uric acid levels were reduced but purine enzyme activities in the erythrocytes were normal. A renal biopsy specimen from the younger sister showed severe interstitial fibrosis with tubular atrophy. An investigation of the family revealed an autosomal dominant transmission pattern. We believe these are new familial cases of juvenile gouty nephropathy found in a Japanese family.
Nephron
1995
PMID:Newly discovered familial juvenile gouty nephropathy in a Japanese family. 747 27
Progressive hereditary nephropathy is described in 6 members of a single family. Renal biopsies, performed in 3 patients, revealed tubular atrophy, interstitial fibrosis, and lymphomonocytic infiltration associated with severe vascular lesions. These features were disproportionately serious when related to age, arterial pressure, and renal function. Similar familial nephropathy has been reported in the literature, generally in association with
gout
or asymptomatic hyperuricemia. The patients described here had normal blood concentrations of uric acid. It is proposed that the members of the present group of patients are suffering from the same interstitial nephropathy as that described in the literature and that the hyperuricemia found by other investigators is coincidental and does not play a pathogenetic role.
Nephron
1994
PMID:Familial interstitial nephropathy without hyperuricemia. 813 42
Primary gout is characterized by increased plasma and decreased urinary concentrations of hypoxanthine, xanthine and uric acid. To examine whether lead could explain the disturbance of purine metabolism in
gout
, we determined hypoxanthine, xanthine and uric acid metabolism and 5-day cumulative urinary lead excretion rates after an EDTA (calcium disodium edetate) test in 27 patients with primary
gout
and reduced creatinine clearance (C(cr)) and in 50 patients with
gout
and normal C(cr). The results were compared to those obtained in 26 normal subjects matched for age. All
gout
patients evidenced a marked renal underexcretion of hypoxanthine, xanthine and uric acid relative to their increased plasma levels. Purine metabolism was remarkably similar in both
gout
groups except for a significantly lower uric acid excretion in patients with reduced C(cr). Blood lead levels and cumulative lead excretion rates were significantly higher in
gout
patients with renal failure as compared to patients with normal C(cr). Fourteen patients (52%) with renal insufficiency and 6 (12%) with normal C(cr) showed increased lead excretion rates (95% Cl for the difference, 29-51%, p < 0.001). Mobilizable lead was not significantly correlated with serum or urinary purine concentrations. Hypoxanthine, xanthine and uric acid underexcretion was similar in
gout
patients with increased or normal cumulative lead excretion rates. The prevalence of atheromatosis and arterial hypertension together was significantly higher in
gout
patients with renal failure than in patients with normal C(cr) (81 vs. 60%, 95% Cl for the difference, 11-31%, p < 0.005). These results indicate that lead is not a significant contributor to the renal underexcretion of purines in
gout
. An increased mobilizable lead is not by itself evidence that lead is the cause of the renal insufficiency in patients with primary
gout
. Atheromatous nephropathy and/or nephroangiosclerosis may explain impaired renal function in patients with primary
gout
.
Nephron
1997
PMID:Purine metabolism in patients with gout: the role of lead. 906 56
Two patients, a 47-year-old woman suffering from chronic renal failure, hyperuricemia and
gout
, and her 26-year-old son with hyperuricemia and chronic renal failure, are described. The father and two siblings of the woman had died of chronic renal failure. Both patients had a markedly reduced fractional excretion of urate, which was significantly increased by both benzbromarone and probenecid. A renal biopsy of the son revealed an unspecific chronic tubulointerstitial nephropathy. By light microscopy, many proximal tubular epithelial cells showed signs of apoptosis, which was confirmed with the specific TUNEL assay. We propose a hypothesis based on a gain-of-function mutation of the luminal anion exchanger of the proximal tubulus to explain reduced uric acid excretion, dominant inheritance and apoptosis of tubular epithelial cells in this rare disease. Treatment with a combination of allopurinol to reduce the renal urate load and benzbromarone to block the tubular anion exchanger and normalize fractional uric acid excretion is suggested.
Nephron
1998
PMID:Apoptosis of tubular epithelial cells in familial juvenile gouty nephropathy. 967 37
This review explores the relationship between uric acid or urate and the pathogenesis of renal impairment. The following points and conclusions are emphasized: (1) uric acid is an end product of purine degradation in humans and normally depends upon renal excretion for the majority of its elimination from the body; (2) massive urate overproduction - usually occurring acutely because of tumor lysis, rhabdomyolysis, or some other cause of rapid nucleic acid turnover or tissue destruction - tends to cause acute renal failure because of an increase of intratubular uric acid precipitation and obstruction; (3) chronic urate overproduction (with increased urate excretion) is more likely to be associated with stones or
gout
than with acute renal failure; (4) chronic asymptomatic hyperuricemia is unlikely to cause renal disease,
gout
, or stones, but is associated with cardiovascular impairment over the long term, and (5) asymptomatic hyperuricemia may serve as an indicator of renal vascular disease, or, to the extent that it may reflect insulin-induced acceleration of renal tubule urate reabsorption, hyperuricemia may serve as an indicator of insulin resistance. Therefore chronic asymptomatic hyperuricemia may predict the adverse cardiovascular consequences of insulin resistance.
Nephron
1999
PMID:Hyperuricemic nephropathies. 987 14
Uromodulin (Tamm-Horsfall glycoprotein) is the most common protein excreted in the urine of healthy individuals, yet its function remains unclear. Mutations in the UMOD gene encoding uromodulin result in a marked decrease in the synthesis of uromodulin, as well as the accumulation of abnormal uromodulin in tubular cells, leading to tubular cell death. UMOD gene mutations are responsible for the autosomal dominant inheritance of chronic interstitial disease, leading to the need for renal replacement in the third through seventh decades of life. Individuals with UMOD mutations also suffer from hyperuricemia in childhood, and often suffer from
gout
in their teenage years. A similar clinical syndrome causing the autosomal dominant inheritance of chronic kidney disease, hyperuricemia, and anemia has recently been attributed to mutations in the REN gene encoding renin. Recently, polymorphisms in the UMOD gene have been found responsible for increased urinary uromodulin production and an increased risk of chronic kidney disease. This review summarizes information on uromodulin biology and clinical manifestations of mutations in the UMOD gene, as well as similar inherited interstitial diseases. It provides new information regarding UMOD gene polymorphisms and their association with chronic kidney disease.
Nephron
Clin Pract 2011
PMID:Uromodulin-associated kidney disease. 2107 70
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