UMLS:C0020438 - FACTA Search

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

The pathogenetic roles of idiopathic renal hypercalciuria and absorptive hypercalciuria in children with urolithiasis have not yet been determined. Oral calcium loading studies were performed in 21 children with unexplained calcareous urolithiasis. Thirteen children, aged 20 months to 17 years, were found to have renal hypercalciuria after an overnight fast (urinary calcium-urinary creatinine [UCa/UCr] ratio in milligrams, greater than 0.21). Four children were found to have absorptive hypercalciuria. In this group, fasting UCa/UCr values were normal (SEM, 0.12 +/- 0.02); however, UCa/UCr values were elevated (SEM, 0.31 +/- 0.01) after the oral calcium load. Serum parathyroid hormone values were normal in all children with hypercalciuria. Urinary calcium excretion was normal in four patients. These data indicate that hypercalciuria may frequently occur in children with urolithiasis and that detailed metabolic evaluation is warranted in children with kidney stone disease.
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PMID:Hypercalciuria in children with urolithiasis. 710 17

Urine samples from 100 children and adolescents with micro- or macrohaematuria were investigated using phase contrast microscopy to establish the percentage of G1-cells that could differentiate glomerular from non-glomerular haematuria. The G1-cell is a special form of dysmorphic erythrocyte which seems to be specific for glomerular haematuria. Glomerular haematuria, defined by clinical criteria from biopsy, physical examination, standard laboratory evaluation and family history, was observed in 51 patients (group 1). Non-glomerular haematuria was found in 49 patients (group 2). The latter group had urinary tract infections, urolithiasis, hypercalciuria or haematuria caused by urological operation or diagnostic procedure. The percentage of dysmorphic erythrocytes differed significantly between the two groups studied (42 +/- 3% in group 1 vs. 6 +/- 1% in group 2, mean +/- SEM, P < 0.01); there was also a significant difference in G1-cells (19.4 +/- 1.7% in group 1 vs. 0.6 +/- 0.2% in group 2, mean +/- SEM, P < 0.01). When glomerular haematuria was defined on the basis of > or = 30% dysmorphic erythrocytes by phase contrast microscopy, sensitivity, specificity and efficiency were 71%, 100% and 85%, respectively. When glomerular haematuria was defined on the basis of > or = 5% G1-cells, sensitivity, specificity and efficiency were 100%, 100% and 100%, respectively. The differentiation of glomerular and non-glomerular haematuria in children by determination of G1-cells appears to be more sensitive and efficient than the determination of the percentage of dysmorphic erythrocytes by phase contrast microscopy.
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PMID:Validity of G1-cells in the differentiation between glomerular and non-glomerular haematuria in children. 757 4

Chronic metabolic acidosis typically results in hypercalciuria and negative calcium balance. The impact of chronic respiratory acidosis on calcium metabolism has been less well studied. To address this issue, metabolic balance and static bone histomorphometric data were obtained during a 14-day exposure of rats to 10% CO2 (blood pH 7.33, PaCO2 83 mm Hg) and were compared with pair-fed controls. All rats were fed a 0.8% calcium diet. Urinary calcium excretion (mg/period, mean +/- SEM) was increased during both week 1 and week 2 (16 +/- 3 vs 9 +/- 1 and 16 +/- 2 vs 9 +/- 1, CO2 group vs controls, respectively [p < 0.05]). Net intestinal calcium absorption (intake minus fecal excretion) was increased throughout the period of hypercapnia (week 1, 213 +/- 19 mg vs 135 +/- 15 mg; week 2, 135 +/- 16 mg vs 43 +/- 14 mg; and cumulatively, 344 +/- 27 mg vs 178 +/- 20 mg, CO2 group vs controls [p < 0.01]). As a consequence of the marked increment in intestinal calcium absorption during hypercapnia, mean net calcium balance was more positive than that of controls throughout the study (week 1, 197 +/- 18 mg vs 126 +/- 15 mg; week 2, 120 +/- 15 mg vs 34 +/- 15 mg; and cumulatively, 317 +/- 25 mg vs 159 +/- 20 mg, CO2 group vs controls, respectively [p < 0.01]). There were no significant differences in calcium intake, plasma total calcium, immunoreactive parathyroid hormone, 25-hydroxyvitamin D, or creatinine clearance between the two groups.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of chronic respiratory acidosis on calcium metabolism in the rat. 760 39

To assess bone mineral density (BMD) in idiopathic calcium nephrolithiasis, dual-energy x-ray absorptiometry was performed at lumbar spine, upper femur (femoral neck, Ward's triangle, and total area), distal tibial diaphysis, and distal tibial epiphysis in 110 male idiopathic calcium stone formers (ICSF); 49 with and 61 without hypercalciuria on free-choice diet). Results were compared with those obtained in 234 healthy male controls, using (1) noncorrected BMD, (2) BMD corrected for age, height, and BMI, and (3) a skeletal score based on a tercile distribution of BMD values at following four sites: lumbar spine, Ward's triangle, tibial diaphysis, and tibial epiphysis. After correction, BMD--and therefore also skeletal score--tended to be lower in the stone formers than in controls at five of the six measurement sites, that is, lumbar spine, upper femur, Ward's triangle, tibial diaphysis, and tibial epiphysis, limit of significance being reached for the last two sites without difference between hypercalciuric (HCSF) and normocalciuric stone formers (NCSF). Estimated current daily calcium intake was significantly lower in patients (616 +/- 499 mg/24 h, mean +/- SEM) than in controls (773 +/- 532, p = 0.02). Of 17 patients who in the past had received a low-calcium diet for at least 1 year, 10 had a low skeletal score (4-6) whereas only 1 had a high score (10-12; p = 0.037). Of the 12 stone formers in the study with skeletal score 4 (i.e., the lowest), 8 had experienced in the past one or more fractures of any kind versus only 19 of the remaining 77 patients with skeletal score 5-12 (p = 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Low bone mass in idiopathic renal stone formers: magnitude and significance. 781 97

This study is the first reported administration of 1 alpha-hydroxyvitamin D2 (1 alpha-OHD2) to human subjects. A total of 15 postmenopausal osteopenic women were given increasing oral doses of 1 alpha-OHD2, beginning with a low dose of 0.5 microgram/day. In 15 subjects, the doses were raised at weekly intervals to 1.0, 2.0, 4.0, and 5.0 micrograms/day, and in 5 of these subjects, the dose was further increased to 8.0 or 10.0 micrograms/day. Mean urine calcium +/- SEM showed a dose-related increase from 134 +/- 17 mg/24 h on 0.5 microgram/day to 198 +/- 21 mg/24 h on 4.0 micrograms/day (p < 0.05) and to 241 +/- 35 mg/24 h on 5.0 micrograms/day (p < 0.05). No subjects had hypercalciuria (> 350 mg/24 h, the upper limit of the laboratory normal range) at doses less than 5.0 micrograms/day; 5 subjects had hypercalciuria at or above 5.0 micrograms/day (3 at 5.0 micrograms/day, 1 at 8.0 micrograms/day, and 1 at 10.0 micrograms/day). Mean serum calcium increased slightly on the 4.0 micrograms dose only (p < 0.05) but remained well within the normal range. Mean creatinine clearance and BUN, used as measures of renal function, showed no significant changes. Routine blood and urine assays also showed no significant changes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of increasing doses of 1 alpha-hydroxyvitamin D2 on calcium homeostasis in postmenopausal osteopenic women. 805 88

The present study investigated whether overnight urine collection can replace 24-hour urine collection to measure urinary calcium (Ca) excretion in healthy individuals. One hundred healthy men (age 25-74 years) on their usual diet participated in the present study as part of an ongoing epidemiological population-based survey. Two separate bags (daytime and overnight bags) were given together with instructions to collect a complete 24-hour urine sample divided in to the daytime and the overnight specimen. Urinary Ca was analyzed by atomic absorption spectrophotometry and creatinine by the picric acid colorimetric method. Overnight urinary Ca was correlated to daytime (r = 0.618, p < 0.0001) and 24-hour urinary Ca (r = 0.891, p < 0.0001). In the 17 men found to have hypercalciuria (24-hour urinary Ca > or = 7.5 mmol), the overnight urinary Ca averaged 4.44 +/- 0.29 mmol/12 h (mean +/- SEM, range 2.35-6.38 mmol/12 h), indicating that an overnight urinary Ca of < 2.35 mmol/12 h (< 60% of the overnight urinary Ca distribution) ruled out the possibility of finding hypercalciuria in 24-hour urine. Fourteen of the seventeen hypercalciuric men had overnight urinary Ca in the upper 20% of the distribution (> or = 3.25 mmol/12 h). Hypercalciuria was found in 14 of the 19 men (73.7%) with an overnight urinary Ca of > or = 3.25 mmol/12 h, but only in 3 of the 81 men (3.7%) with an overnight urinary Ca of < 3.25 mmol/12 h.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Can overnight urine replace 24-hour urine collection to measure urinary calcium in epidemiologic studies? 816 21

Erythrocyte sodium-potassium (Na+/K+)-ATPase and sodium-lithium (Na+/Li+) countertransport activities were measured in 18 children (aged 9.6 years, range 6-16 years) with idiopathic hypercalciuria (IHU) to evaluate cellular Na handling. The effect of chronic thiazide administration on these parameters and on bone mineral density was also evaluated. Patients with IHU had significantly lower erythrocyte Na+/K+-ATPase activity than 23 age-matched healthy controls (mean +/- SEM 2,156 +/- 110 micromol P/l erythrocyte per hour vs. 3,165 +/- 175, P < 0.01). Thiazide treatment significantly lowered urinary calcium excretion; this was followed by a slight suppression of intact parathyroid hormone (iPTH). The urinary calcium/creatinine ratio before and during treatment was 0.90 +/- 0.07 mmol/mmol versus 0.51 +/- 0.06 respectively, P < 0.01. The corresponding iPTH levels were 5.9 +/- 0.6 pmol/l and 5.1 +/- 0.7, P < 0.05. The Na+/K+-ATPase activity increased significantly (2,769 +/- 169 micromol P/l erythrocyte per hour vs. 2,156 +/- 110 in the control period, P < 0.01) and the Na+/Li+ countertransport decreased (268 +/- 28 micromol Li/l erythrocyte per hour vs. 328+26 in the control period, P < 0.03). The bone mineral density Z score rose from -1.3 +/- 0.26 to -0.8 +/- 0.22 (P < 0.03). We conclude that IHU is accompanied by abnormalities of erythrocyte Na+/K+-ATPase and Na+/Li+ countertransport which are corrected by chronic hydrochlorothiazide administration. These changes could model alterations in renal tubular transport mechanisms still to be elucidated. Chronic thiazide treatment also has a positive effect on bone mineral density.
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PMID:Sodium transport and bone mineral density in hypercalciuria with thiazide treatment. 950 64

Hypercalciuria was induced in female Sprague-Dawley rats, aged 40+/-2 days, by 7-day administration (mean+/-SEM) of calcitriol (5.4+/-0.1 ng/100 g per day, intraperitoneal), furosemide (14.9+/-1.9 mg/100 g per day, oral), or ammonium chloride (3.8+/-0.1 mEq/100 g per day, oral). Calciuria increased from 1.9+/-0.2, 1.6+/-0.2, and 1.9+/-0.3 to 5.4+/-0.5, 4.0+/-0.9, and 5.4+/-0.5 mg/100 g per day in the calcitriol (VD, n = 9), furosemide (F, n = 6), and ammonium chloride (AC, n = 10) groups, respectively. Calciuria did not change (1.9+/-0.3 vs. 1.6+/-0.1 mg/100 g per day) in control rats (n = 8). Ninety-six percent of treated rats became hypercalciuric as assessed by urine calcium excretion above the 90th percentile of normal values. Hypercalciuria was of similar degree in the three groups of rats and was not associated with hypercalcemia, metabolic acidosis, severe serum electrolyte imbalance, or growth impairment. VD rats had low serum parathyroid hormone (PTH) concentrations (3.0+/-0.5 pg/ml vs. 15.8+/-1.3 pg/ml in controls, P <0.05), whereas serum PTH was not significantly elevated in F rats (16.2+/-1.8 pg/ml). Thus, the protocol caused three forms of hypercalciuria that mimicked the clinical conditions of idiopathic hypercalciuria in humans and may clearly be differentiated according to their mechanism of production. This experimental model of normocalcemic hypercalciuria may be useful to clarify unknown aspects of pathogenesis and pathophysiology of idiopathic hypercalciuria in children.
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PMID:Rat models of normocalcemic hypercalciuria of different pathogenic mechanisms. 963 37

The relationship between bone mineral status and hypercalciuria is controversial. The effect on bone composition of different forms of hypercalciuria was studied in female rats made hypercalciuric by 7-week administration of oral furosemide (F, n=12), intraperitoneal 1,25-dihydroxy vitamin D (VD, n=11), or oral ammonium chloride (AC, n=12). Seven untreated rats served as controls (C). Hypercalciuria (mg/100 g per 24 h, mean +/-SEM) of F (4.3+/-0.2), VD (4.1+/-0.4), and AC (3.9+/-0.3) groups was of similar intensity (C rats 1.3+/-0.1, P<0.01). Weight and length gains and serum CO2, sodium, potassium, calcium, and phosphate were no different among the four groups. Bone was studied by dual-energy X-ray absorptiometry of left tibiae. AC rats had significantly less bone area (1.505+/-0.018 cm2) than VD and C (1.602+/-0.020 and 1.587+/-0.019 cm2). Bone mineral content was decreased in F (0.357+/-0.007 g) and AC (0.362+/-0.006 g) compared with VD (0.407+/-0.008 g) and C (0.389+/-0.009 g) groups. Bone mineral density was different between F (0.231+/-0.002 g/cm2) and VD and C rats (0.254+/-0.004 and 0.245+/-0.003 g/cm2), and also between AC (0.240+/-0.003 cm2) and VD rats. In these rat models, hypercalciuria of renal origin (F) and hypercalciuria caused by acid load (AC) adversely impaired bone mass.
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PMID:Influence of three different types of hypercalciuria on bone. An experimental study. 1041 59

Although calcium supplementation can cause hypercalciuria, the risk of nephrolithiasis has been shown to decrease rather than increase among subjects who had a higher calcium intake. Hypercalciuria is also a well-established side effect of calcitriol administration. However, the risk of nephrolithiasis is not well defined. The present study was undertaken to prospectively determine the effect of calcium with or without calcitriol on physicochemical risk factors associated with calcium oxalate nephrolithiasis in Thai postmenopausal women with osteoporosis. Subjects consisted of 53 Thai women more than 10 years postmenopausal who were randomly allocated to receive 750 mg of calcium carbonate supplement alone (n = 28) or 750 mg of calcium carbonate plus 0.5 microg calcitriol (n = 25) daily. Mean +/- SEM for age was 65.3+/-1.1 years, body weight 53.5+/-1.3 kg. Urine samples for biochemical assays were collected at baseline and 3 months after treatment. Supersaturation for calcium oxalate stone formation was assessed from the 24 h urine constituents by the Tiselius's index, AP(CaOx). Three months of calcium supplement alone resulted in a modest, but not significant, increase in urinary calcium (baseline, 2.90+/-0.43 mmol/day; after treatment 3.58+/-0.54 mmol/day) with no change in urinary oxalate, citrate or magnesium. In contrast, calcium together with calcitriol caused a significant increase in urinary calcium (baseline, 2.87+/-0.41 mmol/day; after treatment, 4.08+/-0.57 mmol/day; p < 0.05). No significant change in other urine constituents after treatment with calcium and calcitriol was detected. Therefore, AP(CaOx) did not significantly increase either after calcium alone (baseline, 1.17+/-0.39; after treatment, 1.36+/-0.28) or after calcium plus calcitriol (baseline, 1.09+/-0.17; after treatment, 1.09+/-0.19). However, after treatments, 12 subjects (23%)--6 receiving calcium supplement alone and 6 receiving calcium plus calcitriol supplement--had high AP(CaOx) values (greater than the upper limit of 95% Cl for AP(CaOx) derived from non-stone-forming Thai women). The post-treatment/baseline ratio was 3.21+/-0.74 for urinary calcium, 1.01+/-0.19 for urinary oxalate, and 2.23+/-0.42 (median 1.15) for AP(CaOx). The post-treatment/baseline ratio of calcium, but not for urinary oxalate, had a significant correlation with the post-treatment/baseline ratio of AP(CaOx). Our findings suggest that the alteration in the risk of calcium oxalate nephrolithiasis based on urinary composition is related to the alteration in urinary calcium. The risk of calcium oxalate nephrolithiasis does not increase significantly after calcium or combined calcium and calcitriol supplement in the majority of postmenopausal women with osteoporosis.
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PMID:Risk of calcium oxalate nephrolithiasis after calcium or combined calcium and calcitriol supplementation in postmenopausal women. 1098 63

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