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:C0020438 (hypercalciuria)
2,502 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Primary distal renal tubular acidosis (dRTA) type I is a hereditary renal tubular disorder, which is characterized by impaired renal acid secretion resulting in metabolic acidosis. Clinical symptoms are nephrocalcinosis, nephrolithiasis, osteomalacia, and growth retardation. Biochemical alterations consist of hyperchloremic metabolic acidosis, hypokalemia with muscle weakness, hypercalciuria, and inappropriately raised urinary pH. Autosomal dominant and rare forms of recessive dRTA are known to be caused by mutations in the gene for the anion exchanger AE1. In order to identify a gene responsible for recessive dRTA, we performed a total genome scan with 303 polymorphic microsatellite markers in six consanguineous families with recessive dRTA from Turkey. In four of these there was an association with sensorineural deafness. The total genome scan yielded regions of homozygosity by descent in all six families on chromosomes 1, 2, and 10 as positional candidate region. In one of these regions the gene ATP6B1for the ss1 subunit of the vacuolar H(+)-ATPase is localized, which has recently been identified as causative for recessive dRTA with sensorineural deafness. Therefore, we conducted mutational analysis in 15 families and identified potential loss-of-function mutations in ATP6B1in 8. We thus confirmed that defects in this gene are responsible for recessive dRTA with sensorineural deafness.
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PMID:Confirmation of the ATP6B1 gene as responsible for distal renal tubular acidosis. 1257 97

Annual incidences of kidney stones are about 0.1-0.4% of the population, and lifetime prevalences in the USA and Europe range between 8 and 15%. Kidney stones occur more frequently with increasing age and among men. Within ten years, the disease usually recurs in more than 50% of patients. Nowadays, about 85% of all kidney stones contain calcium salts (calcium oxalate and/or calcium phosphate) as their main crystalline components. Because human urine is commonly supersaturated with respect to calcium salts as well as to uric acid, crystalluria is very common, i.e. healthy people excrete up to ten millions of microcrystals every day. Recurrent stone formers appear to excrete lower amounts or structurally defective forms of crystallization inhibitors which allows for the formation of large crystal aggregates as precursors of stones. Alternatively, crystal adhesion to urothelial surfaces may be enhanced in stone formers. Medical treatment of renal colic is based on nonsteroidal antiinflammatory drugs, because prostaglandins appear to play a crucial role in the pathophysiology of pain during ureteral obstruction. In addition, centrally acting analgesics such as pethidine-HCl may be required in many cases. The administration of high amounts (3-4 liters/day) of intravenous fluids should be abandoned, since it may raise intraureteral pressure whereby pain increases and kidney pelvis or fornices may rupture. All first-stone formers should undergo a simple basic evaluation, including stone analysis (x-ray diffraction or infrared spectrometry), serum values of ionized calcium (alternatively: total calcium and albumin) and creatinine, urinalysis and repeated measurements of fasting urine pH in order to detect urinary acidification disorders or low urine pH. In high-risk patients with as first stone episode (i.e. strongly positive family history, inflammatory bowel disease, short-bowel syndrome, nephrocalcinosis, bilateral stones, hypercalcemia, renal tubular acidosis, airline pilots) as well as in all recurrent stone formers, an extended metabolic evaluation should be performed. Two 24-hurines should be collected on free-choice diet not prior to three months after stone passage or urological intervention. Analysis includes measurements of volume, creatinine, calcium, oxalate, uric acid and citrate; sodium and urea as markers of salt and protein consumption are optional but clinically very helpful. Since hypercalciuria is of much less importance than increases in urinary oxalate, therapeutic efforts should primarily focus on lowering urinary oxalate excretion. Sufficient calcium intake, i.e. 1200 mg per day, is crucial, because it allows for binding of oxalate at the intestinal level whereby increases of urinary oxalate (reciprocal hyperoxaluria) can be avoided. Excess intake of flesh protein (meat, fish, poultry) is lithogenic since it increases urinary calcium, oxalate and uric acid, and lower citrate. On the other hand, a diet rich in alkali (vegetables, fruit) is associated with a lower risk of stone formation. A "common sense diet" containing sufficient amounts of fluids, 1200 mg of calcium per day and reduced amounts of flesh protein as well as salt is able to reduce the 5-year stone recurrence rate in calcium stone formers by 50%. The scientific evidence for drug treatment (thiazides, alkali citrate) is rather poor: the most widely quoted randomized thiazide trial included only 42 patients of whom 36% left the protocol prematurely, whereas 36-48% of patients included in three randomized studies with alkali citrate suffered from undesirable side-effects; nevertheless, citrate therapy reduced the stone recurrence rate by 38%, compared with 22% in patients on placebo treatment (p < 0.0005).
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PMID:[Pathophysiology, diagnosis and conservative therapy in calcium kidney calculi]. 1264 86

A female presented with pain in left flank, detected to have bilateral renal calculi with deranged liver functions. On investigation found her to have Wilson's disease with hypercalciuria and incomplete distal renal tubular acidosis. Patient was started on penicillamine following which her hepatitis improved but hypercalciuria persisted after 10 weeks of follow up. The rarity of such presentation and literature review for the same is discussed.
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PMID:Rare presentation of Wilson's disease: a case report. 1536 14

Neither severe distal renal tubular acidosis nor hypercalciuria have been recognized to cause severe hypocalcaemia. We describe a 53 years old woman with distal renal tubular acidosis and hypercalciuria who demonstrated severe hypocalcemia, normalized after calcium and vitamin D supplementation and treatment with thiazide.
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PMID:[Hypercalciuria with severe hypocalcaemia in association with distal renal tubular acidosis--case report and differential diagnostics]. 1550 95

Low-molecular-weight (LMW) proteinuria has been described in patients with primary distal renal tubular acidosis (dRTA). However, other proximal renal tubular dysfunctions have rarely been reported. In this report we describe reversible and multiple proximal renal tubular cell dysfunctions in a patient with dRTA. A 4-year-old girl was admitted to our hospital for investigation of short stature and proteinuria. Laboratory studies revealed a hyperchloremic metabolic acidosis without aciduria, hypokalemia, hypouricemia with uricosuria, hypercalciuria, LMW proteinuria, phosphaturia, and generalized aminoaciduria. The patient was diagnosed as having dRTA with multiple proximal renal tubular dysfunctions. All proximal renal tubular dysfunction subsided 1.5 years after starting alkali therapy. The precise pathogenic mechanisms underlying the development of multiple proximal renal tubular dysfunctions in dRTA remained unclear. However, proximal renal tubular endosomal dysfunction resulting from a profound intracellular acidosis caused by vacuolar H+-ATPase dysfunction or hypokalemic nephropathy might contribute to the development of proximal renal tubular dysfunctions in patients with dRTA.
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PMID:Proximal renal tubular dysfunction in primary distal renal tubular acidosis. 1554 7

In order to examine the etiology of refractory rickets, we evaluated the case records of patients presenting between 1990 and 2002. Subjects with impaired renal functions were excluded. Of 131 patients, 25.9 % each had hypophosphatemic rickets and distal renal tubular acidosis (RTA), 19.6 %vitamin D dependent rickets (VDDR), 11.3 % proximal RTA, 9.1 % liver disease and 6.1 % malabsorption. A significant proportion of patients with VDDR and proximal RTA showed deformities in the first year of life, whereas those with distal RTA and hypophosphatemic rickets presented later. Patients with hypophosphatemic rickets had predominant involvement of lower limbs; hypercalciuria was found in 4. Distal RTA was associated with marked rickets and normal levels of alkaline phosphatase. Hypophosphatemia and low tubular reabsorption of phosphate, though characteristic of hypophosphatemic rickets, was also seen in patients with VDDR (19.2%) and distal RTA (17.6 %). Our findings suggest that application and interpretation of appropriate investigations are useful in determining the cause of non-azotemic refractory rickets allowing initiation of specific therapy.
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PMID:Non-azotemic refractory rickets in Indian children. 1569 54

Knockout mouse models and human inherited diseases have provided important new insights into the physiologic role of chloride transport by CLC Cl(-) channels and KCC K-Cl co-transporters. ClC-K/barrtin Cl(-) channels are important for renal salt reabsorption and possibly for acid secretion by intercalated cells. The endosomal ClC-5 protein is crucial for proximal tubular endocytosis. Its disruption in mice and patients with Dent's disease leads to hypercalciuria and kidney stones through a pathologic cascade that may be entirely explained by an impairment of endocytosis. KCC4 is important for recycling Cl(-) for the basolateral anion exchanger in intercalated cells, as is evident from the renal tubular acidosis resulting from its knockout. Finally, both KCC3 and KCC4 are crucial for proximal tubular cell volume regulation.
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PMID:Chloride transport in the kidney: lessons from human disease and knockout mice. 1582 7

With the aim of assessing if biochemical changes occur in the follow up of patients with renal lithiasis, 237 patients were studied (115 women and 122 men, mean age 39 +/- 8 and 42 +/- 7 years, respectively) and controlled during 27.3 +/- 19.3 months. All of them had previously undergone metabolic evaluations at baseline and one or more than one control studies afterwards. Patients with a diagnosis of sponge kidney, renal tubular acidosis, primary hyperparathyroidism, anatomical malformations of the urinary tract, or urinary infections were not included. Two populations were identified: those who presented changes in the baseline diagnosis (139 patients, Group I) and those who presented no changes (98 patients, Group II). In these groups, no differences were observed in baseline metabolic diagnoses or in the follow-up period. Hypocitraturia was the additional diagnosis most frequently observed (43.1%), followed by Idiopatic hypercalciuria (20.8%) and abnormalities of uric acid (16.5%). In the group of 110 patients followed up for more than 3 years, 37 patients recurred (33%). Among the latter, 25 (23%) changed the baseline metabolic diagnosis vs. 12 (11%) that maintained the same diagnosis (p < 0.002). Changes in metabolic disorders were frequently observed in the follow up of patients with nephrolithiasis. These changes are not necessarily associated with the diet indicated or drug treatment. Hypocitraturia was the additional metabolic disorder most frequently found. In general, there is a higher recurrence rate in those patients who present changes in their biochemical parameters and undergo no treatment.
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PMID:[Renal lithiasis. Biochemical changes in the follow-up]. 1687 5

We report on a female patient with severe bilateral urolithiasis. A once-off stone analysis performed in the past revealed Mg-phosphate. Occasional UTIs were considered to be the sole cause of stone formation. To date, this assumption had not been checked thoroughly, while stone formation in the patient steadily increased. An inpatient metabolic and analytical work up was performed and stone-growth related urinary alteration was taken into account in urinalysis interpretation. No UTI. NH4Cl-loading test indicated RTA. CT revealed calculi in both kidneys. Carbonate-apatite (CAP) dominates stone composition. Computed urinary composition proximal to stones indicates hypercalciuria. In this patient, occasional UTIs (pH) masked the causes of urolithiasis. Lack of updated stone analysis (CAP), metabolic work up (RTA) and improved urinalysis interpretation (hypercalciuria) concealed the true causes of stone formation.
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PMID:Occasional urinary tract infections and urinary depletion effect mask RTA and carbonate-apatite formation in a strong urinary stone former. 1689 23

The purpose of the present review is to provide an update about the most common risk factors or medical conditions associated with renal stone formation, the current methods available for metabolic investigation, dietary recommendations and medical treatment. Laboratory investigation of hypercalciuria, hyperuricosuria, hyperoxaluria, cystinuria, hypocitraturia, renal tubular acidosis, urinary tract infection and reduction of urinary volume is based on the results of 24-hr urine collection and a spot urine for urinary sediment, culture and pH. Blood analysis for creatinine, calcium and uric acid must be obtained. Bone mineral density has to be determined mainly among hypercalciurics and primary hyperparathyroidism has to be ruled out. Current knowledge does not support calcium restriction recommendation because it can lead to secondary hyperoxaluria and bone demineralization. Reduction of animal protein and salt intake, higher fluid intake and potassium consumption should be implemented. Medical treatments involve the use of thiazides, allopurinol, potassium citrate or other drugs according to the metabolic disturbances. The correction of those metabolic abnormalities is the basic tool for prevention or reduction of recurrent stone formation.
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PMID:Renal stone disease: Causes, evaluation and medical treatment. 1711 7


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