Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0018099 (gout)
5,192 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report a 66-year-old Chinese man with chronic renal insufficiency (creatinine 1.7 mg/dL) and gout suffering from slurred speech and right hemiplegia for 3 days. Acute cerebral infarction was confirmed by computed tomography. Conscious disturbance occurred on the tenth hospital day without significant changes on imaging study when compared with a previous scan. Hypercalcemia (total calcium 14.1 mg/dL) and acute exacerbation of chronic renal failure (serum creatinine 2.5 mg/dL) were noticed. Hypercalciuria (FECa 3.2%), and low serum levels of intact parathyroid hormone and 1,25(OH)2D3 suggested nonparathyroidal hypercalcemia. An extensive workup failed to identify any etiology of hypercalcemia. Hypercalcemia and renal failure were temporarily ameliorated after aggressive volume expansion and loop diuretic treatment but recurred 2 weeks later. Immobilization hypercalcemia was considered after the exclusion of other discernible causes and was successfully treated with rehabilitative exercises and bisphosphonates without further recurrence during a 2-year follow-up. Clinical alertness to immobilization as a possible cause of hypercalcemia may avoid unnecessary and invasive examinations, life-threatening complications and annoying recurrences.
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PMID:An unrecognized cause of recurrent hypercalcemia: immobilization. 1663 46

Colchicine myoneuropathy is a rare and often underdiagnosed disease. It often presents as painless subacute muscle weakness. We present a case of painful colchicine myoneuropathy in a 76-year-old man with chronic renal failure and gout. Published work about clinical presentations of colchicine myoneuropathy in gouty arthritis patients are reviewed. During the previous year, the patient had a drug regimen of colchicine 0.5 mg three times per day for a 3 day course each month. He developed bilateral lower leg weakness and severe myalgia. His serum creatinine level was 680.7 micromol/L and creatinine kinase was 959 IU/L on admission. Laboratory findings included decreasing amplitude of motor and sensory nerve conduction velocity and an electromyogram showed small amplitude, short duration polyphasic waves over the right biceps. A muscle biopsy disclosed vacuolar changes in the cytoplasm. These results all supported a diagnosis of colchicine myoneuropathy. After cessation of colchicine, the creatinine kinase level decreased approximately 50% in 6 days, myalgia subsided and his muscle weakness improved gradually over the next 2 weeks.
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PMID:Colchicine myoneuropathy in chronic renal failure patients with gout. 1701 70

Hyperuricemia is common after renal and cardiac transplantations, but it is rarely reported after liver transplantations. The aim of this study is to determine the frequency of hyperuricemia in children following orthotopic liver transplantation and the effects of calcineurin inhibitors tacrolimus and cyclosporine) on blood uric acid levels. Between September 1997 to January 2004, 76 liver transplantations were performed in 70 children (male/female; 39/31) at Ege University, Organ Transplantation Center (37 deceased donation and 39 live donors). Patients who had been transplanted within the last three months and patients who died within six months after liver transplantation were excluded from the study. Finally 59 patients were included in this study. Uric acid levels were measured before transplantation and after transplantation within six months intervals for two yr. In these series 17 cases had increased uric acid levels after liver transplantation (28.8%). Serum uric acid levels in both groups (tacrolimus or cyclosporine) were detected to be significantly higher than initial values at 12th months (p < 0.05). Hyperuricemia developed in eight patients receiving cyclosporine (eight of 11; 72%) whereas nine patients receiving tacrolimus developed hyperuricemia (nine of 48; 18%). However, the rate of having high uric acid levels was significantly higher in cyclosporine group compared tacrolimus group (p = 0.001, OR: 11.5, CI 95% 2.5-52.4). Uric acid levels were also significantly higher in cyclosporine group in 12th and 18th months (respectively, p = 0.003 and p = 0.003). Serum creatinine levels at 12th, 18th and 24th months were significantly higher in cyclosporine group than tacrolimus group (respectively, p = 0.009, p = 0.04 and p = 0.02). Hyperuricemia is a common complication after liver transplantation in children. Cyclosporine may cause hyperuricemia more often in respect to tacrolimus and this may be related to the impairment of renal functions. Complications developing because of hyperuricemia such as gout disease or renal calculi are quite rare in children.
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PMID:Frequency of hyperuricemia and effect of calcineurin inhibitors on serum uric acid levels in liver transplanted children. 1691 88

Serum uric acid levels are maintained by urate synthesis and excretion. URAT1 (coded by SLC22CA12) was recently proposed to be the major absorptive urate transporter protein in the kidney regulating blood urate levels. Because genetic background is known to affect serum urate levels, we hypothesized that genetic variations in SLC22A12 may predispose humans to hyperuricemia and gout. We investigated rs893006 polymorphism (GG, GT and TT) in SLC22A12 in a total of 326 Japanese subjects. Differences in clinical characteristics among the genotype groups were tested by the analysis of variance (ANOVA). In male subjects, mean serum uric acid levels were significantly different among the three genotypes. Levels in the GG genotype subjects were the highest, followed by those with the GT and TT genotypes. However, no differences between the groups were seen in the distributions of creatinine, Fasting plasma glucose (FPG), HbA(1c), total cholesterol, triglyceride, HDL cholesterol levels or BMI. A single nucleotide polymorphism (SNP) in the urate transporter gene SLC22CA12 was found to be associated with elevated serum uric acid levels among Japanese subjects. This SNP may be an independent genetic marker for predicting hyperuricemia.
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PMID:Association between intronic SNP in urate-anion exchanger gene, SLC22A12, and serum uric acid levels in Japanese. 1692 Jan 56

Hyperuricemia and gout are common complications in adult renal transplant recipients. In pediatric recipients, however, hyperuricemia seems to be rare, but data are scarce. Thirty-two children (21 males, 11 females) were investigated for a median time of 4.8 years (range: 0.4-11.2 years) following renal transplantation. The median age of this pediatric study group was 13.9 years (range: 5.7-20.3 years), and the calculated glomerular filtration rate (GFR) was 61 ml/min per 1.73 m(2) (range:12-88 ml/min per 1.73 m(2)). All patients were given calcineurin inhibitors, with 22 and ten children receiving cyclosporine A (CSA) and tacrolimus (TAC), respectively. The median plasma uric acid was 385 micromol/l (range: 62-929 micromol/l); 15 children (47%) were above the age-related normal range. Only one patient experienced gouty arthritis. There was a significant correlation between plasma uric acid concentration and both time span after transplantation and plasma creatinine, and an inverse correlation to GFR (p<0.05). No significant correlation was found between plasma uric acid and body mass index (BMI). Plasma uric acid concentrations were neither different among CSA- and TAC-treated children, nor did they correlate with drug exposure or blood trough levels of CSA or TAC. Plasma uric acid concentration was not different when compared to children with chronic renal failure (CRF) of a similar degree in native kidneys. We conclude that hyperuricemia is common among pediatric renal transplant recipients and rather a consequence of chronic renal transplant dysfunction than the use of calcineurin inhibitors. Gout, however, is rare.
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PMID:Hyperuricemia and gout following pediatric renal transplantation. 1694 31

The association of elevated serum uric acid (hyperuricemia, gout) with the presence of classical coronary risk factors and coronary artery disease (CAD) or myocardial infarction (MI) has been analysed in many epidemiological studies. Numerous studies have revealed that hypertension, high body mass index (BMI), lipid disorders (especially raised triglycerides--TG level and low high dense lipoprotein cholesterol HDL-C level), increased creatinine or insulin levels have caused hyperuricemia. No association has been observed between hyperuricemia and diabetes type 2 and uricemia and glicemia. But in some studies the relationship between cholesterol and uric acid levels has been not confirmed. Hyperuricemia has been observed in patients with non-treated hypertension. Gout has often occurred with typical disorders for the metabolic syndrome X. Significant correlation of the serum uric level and the CAD presence and severity of coronary atherosclerosis confirmed by coronary angiography has been observed in women. Hyperuricemia has also indirect influence on progress of CAD by physical activity restriction, what causes sedentary mode of life and lead to obesity. Obesity is a known risk factor diabetes, lipid disorders and hypertension. To recapitulate, it is a matter of controversy as to whether uric acid is an independent cardiovascular risk factor or rather it only represents reinforcement of typical risk factor.
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PMID:[Is hyperuricemia a cardiovascular risk factor?]. 1701 83

Reduction of serum urate and phosphate levels has been observed in patients receiving leflunomide therapy, but the mechanism for such changes has not been evaluated. Thirty-eight patients with rheumatoid arthritis who began leflunomide were studied. Serum urate, creatinine, and phosphate, and 24-hour uric acid, creatinine, and phosphate were measured before, during, and in some instances after leflunomide treatment. Clearances of urate and creatinine, fractional excretion of urate, and tubular reabsorption of phosphate were calculated. Undissociated urinary uric acid was estimated with a nomogram. Twelve patients gave consent to withdraw leflunomide treatment of a 2-week period and underwent a third study. Decreases in serum urate and phosphate levels were observed, with parallel increases in clearances of urate and in fractional excretion of urate, and a reduction in tubular reabsorption of phosphate. Clearances of creatinine and undissociated urinary uric acid remained unchanged. Two weeks after withdrawing the drug, a partial return toward baseline values was observed, but residual changes were apparent. No case of clinical gout was observed. Leflunomide enhances urate and phosphate loss, an effect that partially persisted after 2-week withdrawal. The long-term effect of mild phosphate wasting warrants further investigation. The urate-lowering effect of leflunomide may be useful in monitoring compliance in leflunomide therapy.
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PMID:Influence of leflunomide on renal handling of urate and phosphate in patients with rheumatoid arthritis. 1704 61

Gout continues to be a health problem around the world, and the treatment may turn into a real challenge when the patient presents a certain degree of chronic renal failure (CRF). We discuss a case of tophaceous gout in a 68-year-old male patient without urolithiasis and with uric acid (UA) underexcretion and CRF (creatinine clearance of 42 ml/min). Uricosuric treatment with benzbromarone and urinary alkalinization was administered, and acute gouty attacks improved substantially. Subsequently, allopurinol was added to the treatment to accelerate tophi reduction in the hands, feet, elbows and knees. After 30 months of treatment, serum UA declined from 10 to 3.2 mg/dl. Urinary UA excretion of 0.44 g/24 h in the baseline rose to 0.85 g/24 h, returning to the baseline value after 30 months. UA clearance tripled, rising from 3.05 ml/min before treatment to 9.48 ml/min, and remained at this level. It is worth stressing that even in cases of severe tophaceous gout, the response to clinical treatment may be satisfactory with substantial reduction of tophi and full acute gouty attack remission even in patients presenting a certain degree of CRF.
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PMID:Excellent response to the clinical treatment of tophaceous gout. 1704 91

Allopurinol is used widely for the treatment of purine disorders such as gout, but efficacy and safety of allopurinol has not been analyzed systematically in an extensive series of patients with HPRT deficiency. From 1984 to 2004 we have diagnosed 30 patients with HPRT deficiency. Eighteen patients (12 with Lesch-Nyhan syndrome or complete HPRT deficiency, and 6 with partial HPRT deficiency) were treated with allopurinol (mean dose, 6.44 mg/Kg of weight per day) and followed-up for at least 12 months (mean follow-up 7,6 years per patient). Mean age at diagnosis was 7 years (range, 5 months to 35 years). Treatment with allopurinol was associated to a mean reduction of serum urate concentration of 50%, and was normalized in all patients. Mean urinary uric acid excretion was reduced by 75% from baseline values, and uric acid to creatinine ratio was close or under 1.0 in all patients. In contrast, hypoxanthine and xanthine urinary excretion rates increased by a mean of 6 and 10 times, respectively, compared to baseline levels. These modifications were similar in patients with complete or partial HPRT deficiency. In 2 patients xanthine stones were documented despite allopurinol dose adjustments to prevent markedly increased oxypurine excretion rates. Neurological manifestations did not appear to be influenced by allopurinol therapy. Allopurinol is a very efficacy and fairly safety drug for the treatment of uric acid overproduction in patients with complete and partial HPRT deficiency. Allopurinol was associated with xanthine lithiasis.
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PMID:Efficacy and safety of allopurinol in patients with the Lesch-Nyhan syndrome and partial hypoxanthine- phosphoribosyltransferase deficiency: a follow-up study of 18 Spanish patients. 1706 67

Familial juvenile hyperuricemic nephropathy (FJHN) is an autosomal dominant genetic disorder that is characterized by hyperuricemia, gout, and tubulointerstitial nephritis. FJHN is caused by mutations in the UMOD gene, which encodes for uromodulin, the most abundant urinary protein. Herein is demonstrated that patients with FJHN and renal insufficiency exhibit a profound reduction in urinary uromodulin together with either elevated or decreased plasma uromodulin. One young patient with FJHN, however, had normal serum creatinine and normal urinary uromodulin with elevated plasma uromodulin. These observations suggest that there are different urinary and plasma uromodulin profiles in early and late disease and that there may be an altered direction of uromodulin secretion in the course of FJHN as a result of improper intracellular sorting of the mutated protein in the thick ascending limb. With the use of immunohistochemistry and a quantitative immunoassay, targeting and secretion of wild-type and mutant (C77Y and N128S) uromodulin were investigated in the polarized renal epithelial cell line LLC-PK1. In transfected cells, uromodulin mutants were targeted properly to the apical membrane but were secreted less efficiently to the apical compartment than wild-type protein. The expression of mutant uromodulin had no effect on caspase 3 activity. These results indicate that the mutations studied do not impair glycosyl-phosphatidylinositol-mediated apical targeting of the protein but do affect apical secretion. Because the mutant proteins are secreted as efficiently as wild type to the basolateral compartment, the possibility arises that interactions with the immune system at the site of secretion are a contributing factor to the development of tubulointerstitial nephritis in FJHN.
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PMID:Membrane targeting and secretion of mutant uromodulin in familial juvenile hyperuricemic nephropathy. 1718 81


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