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

Calcium and phosphous metabolism was investigated in 20 patients with diabetes mellitus when their diabetes was under poor metabolic control and again once optimal glycaemic control was achieved with aggressive insulin therapy. Ten of the twenty uncontrolled diabetics had hypercalciuria; insulin therapy returned calcium excretion to normal in five. Twenty-four hour calcium excretion fell in all but two patients when optimal diabetic control was achieved and calcium excretion was positively correlated with glucose excretion. Urinary cyclic AMP excretion, which was in the high normal range during poor control, decreased significantly during optimal insulin therapy. These data suggest that the hypercalciuria of uncontrolled diabetes may be a form of renal hypercalciuria which could result in parathyroid stimulation which might contribute to the development of osteopenia in patients with diabetes mellitus.
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PMID:The hypercalciuria of diabetes mellitus: its amelioration with insulin. 21 58

The effect of the light-darkness cycle on the efficiency of the ultimobranchial and parathyroid glands in altering duodenal calcium transport and plasma and urinary concentrations of calcium was examined in the adult male frog (Rana pipiens). Frogs were unfed, but were allowed access to 0.05 M-CaCl2 in the surrounding medium after ultimobranchialectomy or parathyroidectomy. Calcium transport, as assayed by the everted gut-sac technique, was increased in ultimobranchialectomized frogs at sunrise, concomitant with acute hypercalcaemia and hypercalciuria. An opposite but chronic response was observed in parathyroidectomized frogs with intact ultimobranchial glands. The maximum response observed at sunrise occurred when the concentration of calcium in the plasma of control frogs was decreasing; the minimum response, which occurred 6 h after sunrise, was coincident with a diurnal peak in the concentration of calcium. Vitamin D3 (500 microgram/frog) enhanced calcium transport in ultimobranchialectomized frogs, which resulted in chronic hypercalcaemia and hypercalciuria. The results suggest that diurnal variations in the plasma concentration of calcium do not initiate ultimobranchial activity, but are a response to endocrine control synchronized with the transition from darkness to light.
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PMID:Diurnal variations in the influence of the ultimobranchial glands on calcium homeostasis in the frog (Rana pipiens). 21 89

To evaluate the role of vitamin D in the physiologic response to phosphorus depletion (P depleton) and the response to vitamin D administration in P depletion, we studied vitamin D-deficient (-D) rats, fed either a normal or low phosphorus diet and then injected intraperitoneally on alternate days with replacement vitamin D(3), 1.25 mug qod (D(3)); 1.25-dihydroxy-vitamin D(3)[1,25(OH)(2)D(3)] in physiologic, 54 ng qod (LD), and pharmacologic doses, 400 ng qod (HD); or vehicle alone (-D). The following results were obtained: (a) With P depletion, urinary excretion of inorganic phosphorus (Pi) fell to almost undetectable levels in -D rats, and two physiologic features of P depletion a calcemic effect and hypercalciuria, ensued. (b) With administration of vitamin D(3) or 1,25(OH)(2)D(3) in either doses to P-depleted rats, the renal retention of Pi was unaltered despite a significant elevation of serum Pi. (c) The calcemic response to P depletion was accentuated by vitamin D sterols, and the hypercalciuria of P depletion was reduced by 1,25(OH)(2)D(3), HD > LD > D(3). (d) In -D animals receiving normal Pi (+P), D(3), and 1,25(OH)(2)D(3), both LD and HD produced a significant calcemic and phosphatemic effect. (e) Urinary Pi excretion in +P animals was reduced slightly by vitamin D(3) whereas 1,25(OH)(2)D(3), both LD and HD, lowered urinary Pi markedly despite an increased serum Pi. (f) The serial values of serum Ca and Pi and urinary Ca in PD rats and the sequential values for urinary and serum Pi in +P rats indicated more rapid effects of 1,25(OH)(2)D(3), both HD and LD, compared with D(3). We conclude that: (a) The renal adaptation and physiologic response to PD does not require the presence of vitamin D. (b) 1,25(OH)(2)D(3) may directly enhance the renal tubular reabsorption of Pi even as serum Pi rises. (c) A hypocalciuric action of 1,25(OH)(2)D(3) in rats on low phosphorus diet could be direct or occur as a consequence of an increase in serum Pi produced by 1,25(OH)(2)D(3). The different sequential renal response to D(3) compared with 1,25-(OH)(2)D(3) raises the possibility that other natural forms of vitamin D(3) [i.e., 25(OH)D(3), 24,25(OH)(2)D(3), etc.] which may be present in vitamin D-fed rats but not those given only 1,25(OH)(2)D(3), could modify the actions of 1,25(OH)(2)D(3).
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PMID:Interactions between vitamin D deficiency and phosphorus depletion in the rat. 21 35

Cadmium is an inessential trace metal which accumulates in human tissues from contamination of food, water or air. The kidney is the critical organ following long-term, low-level absorption either by inhalation or ingestion; accumulation occurring in tubular epithelium in the form of a cadmium-metallothionein complex, giving rise to tubular dysfunction. In a group of 12 cadmium workers some of whom were followed for up to 16 years, tubular proteinuria, renal glycosuria, aminoaciduria, hypercalciuria and defects of concentration and acidification have been observed. Two men became recurrent renal stone formers and 1 man, who had nephrocalcinosis when first seen, later developed vitamin D-resistant osteomalacia. Renal tubular dysfunction following cadmium exposure may continue symptom-free for long intervals, but in a proportion of cases serious clinical effects may eventually develop.
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PMID:Cadmium nephropathy. 22 11

Hypercalciuria was considered as a secondary condition when associated with familial renal tubular acidosis. Later studies suggested that hypercalciuria could lead to renal tubular acidosis and nephrocalcinosis. Selected members of a family spanning five generations were studied. Renal tubular acidosis was present in eight subjects in three consecutive generations. Increased 24-hour urinary calcium excretion was present in nine subjects in three consecutive generations, alone in the younger generation, and in combination with renal tubular acidosis and nephrocalcinosis in the older generation. Calcium loading tests showed the absorptive nature of hypercalciuria in nine of 18 subjects studied. This report suggests that in this family the absorptive hypercalciuria is an autosomal dominant genetic defect with complete penetrance and variable expressivity which leads to renal tubular acidosis and nephrocalcinosis.
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PMID:Familial absorptive hypercalciuria and renal tubular acidosis. 22 1

We have investigated an 18-yr-old hypercalciuric female with features of both renal hypercalciuria and pseudohypoparathyroidism. She had increased circulating parathyroid hormone levels, which are common to both diseases. She also had a modest hypocalcemia and low normal basal cAMP excretion, both of which are more likely to occur in pseudohypoparathyroidism. She also had Albright's osteodystrophy, which is frequent in patients with pseudohypoparathyroidism and has never been reported in patients with renal hypercalciuria. In contrast to patients with pseudohypoparathyroidism, her serum 1,25-dihydroxycholecalciferol level was increased and her renal responses to parathyroid hormone infusion, including renal calcium reabsorption, were normal. This patient, therefore, raises the possibility that some patients with renal hyperalciuria may have a forme fruste of pseudohypoparathyroidism.
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PMID:Albright's osteodystrophy in a patient with renal hypercalciuria. 22 62

Idiopathic hypercalciuria constitutes two major variants-absorptive hypercalciuria, characterized by a primary intestinal hyperabsorption of calcium, and renal hypercalciuria, in which renal tubular reabsorption of calcium is primarily impaired. The two forms of hypercalciuria may be distinguished from each other, since a) parathyroid function is stimualted in renal hypercalciuria, but normal or suppressed in absorptive hypercalciuria, b) the renal leak of calcium is present in renal hypercalciuria, but not in absorptive hypercalciuria, c) intestinal calcium absorption is probably increased primarily in absorptive hypercalciuria, and secondarily in renal hypercalciuria (from parathyroid hormone excess), d) the increased calcium absorption in renal hypercalciuria probably results from the parathyroid hormone-dependent stimulation of 1,25-dihydroxyvitamin D synthesis, whereas that in absorptive hypercalciuria may be vitamin D-independent, e) the response of the two conditions to certain treatments is unique, and f) the sequelae of parathyroid hormone excess, such as low bone density and negative calcium balance, may be present in renal hypercalciuria, but not in absorptive hypercalciuria. These findings provide a physiological basis for the consideration of absorptive and renal hypercalciurias as distinct and separate entities.
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PMID:Physiological basis for absorptive and renal hypercalciurias. 22 36

Twenty-one unselected patients with recurrent nephrolithiasis and normocalcemic hypercalciuria with or without hypophosphatemia and 18 normal subjects were studied with an oral calcium tolerance test and for 3- to 5-day periods while consuming a low normal (400 mg) and high-normal (1000 mg) calcium intake. The oral calcium tolerance test consisted of the measurement of the calcemic, calciuric, and parathyroid (assessed by determinations of serum immunoreactive parathyroid hormone and nephrogenous cAMP) responses to acute 1000- or 350-mg doses of calcium. Nineteen patients displayed normal results for basal serum calcium, parathyroid function, and fasting calcium excretion, and striking calcemic (mean increase in serum calcium, 0.9 vs. 0.2 mg/dl in the normal subjects) and calciuric (mean increase in urinary calcium, 0.33 vs. 0.15 mg calcium/100 ml GF in the normal subjects) responses to the 1000-mg calcium tolerance test, associated with a mean 54% suppression in nephrogenous cAMP. These patients were operationally defined as having "absorptive" hypercalciuria. The variable occurrence of hypophosphatemia in this group suggested that the pathogenesis of "absorptive" hypercalciuria may be complex and/or multifactorial. There were strong positive correlations between the calciuric response to the calcium tolerance test and fractional isotopic calcium absorption (r = 0.75, P less than 0.00), the calcemic responses to the test (r = 0.71, P less than 0.001) and the calciuric responses noted on the 1000- vs. the 400-mg daily calcium intake (r = 0.78, P less than 0.001). Two patients displayed low or low normal basal serum calcium, increased parathyroid function, increased fasting calcium excretion, and a striking calciuric but minimal calcemic response to the 1000-mg calcium tolerance test, associated with a moderate suppression in nephrogenous cAMP. These patients were operationally defined as having "renal" hypercalciuria. Several lines of evidence indicated that the hyperparathyroidism in these patients was physiological or secondary, including the near normalization of parathyroid function on the daily 1000-mg calcium intake. A steep slope of calcium excretion on calcium intake (due to increased calcium absorption) was noted in all hypercalciuric patients and accounted for the significantly improved diagnostic accuracy of screening patients for hypercalciuria on the high-normal calcium intake. The simple measurement of total cAMP excretion (nanomoles per 100 ml GF) and urinary calcium on the 1000-mg daily calcium intake seemed to provide reliable separation of patients with "renal" from those with "absorptive" hypercalciuria. A physiological (350 mg) dose of oral calcium produced a 30% suppression of nephrogenous cAMP in normal subjects; this suggests that dietary calcium exerts an important control of parathyroid function under physiological circumstances.
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PMID:Pathophysiological studies in idiopathic hypercalciuria: use of an oral calcium tolerance test to characterize distinctive hypercalciuric subgroups. 23 82

Three indices of circulating parathyroid hormone (PTH) activity were compared between two groups: the first a group of 23 patients from three large kindreds with autosomal dominant hypercalcemia without hypercalciuria [familial hypocalciuric hypercalcemia (FHH)] and the second a group of 64 patients with typical primary hyperparathyroidism (1HPT) manifesting comparable hypercalcemia. The group with 1HPT differed from normal with respect to plasma PTH 1HPT concentration (normal, less 0.2 ng/ml), urinary cAMP excretion per 100 ml glomerular filtrate (U cAMP/GF) (normal, 2.3 x/divided by 0.6 nmol/100 ml glomerular filtrate; mean, x/divided 1 SD), and renal tubular maximum of phosphate transport corrected for glomerular filtration rate (TMP/GFR; normal, 3.4 +/- 0.4 mg/dl; mean, +/- 1 SD). The group with 1HPT also diverged significantly from the group with FHH for all three indices: for PTH, 0.37 x/divided by .48 vs. 0.25 x/divided .46 (P less than 0.05); for UcAMP/GF, 4.3 x/divided by .53 vs. 2.6 x/divided .60 (P less than 0.0005); and for TMP/GFR, 2.0 +/- 0.6 vs. 2.6 +/- 0.7 (P less than 0.01). The between-group differences for all three indices were also significant after adjustment for their variation with serum calcium. However, only the difference in TMP/GFR remained significant after adjustment for covariance attributable to serum calcium concentration, age, and creatinine clearance. The group with FHH differed from normal for TMP/GFR but not for UcAMP/GF. However, analysis of changes in UcAMP/GF and serum calcium concentration around the time of parathyroidectomy in three patients with FHH suggested that the parathyroid glands contributed to the abnormalities of mineral homeostasis in at least one. It was concluded that higher serum concentrations of PTH do not account for the lower renal clearance of calcium and magnesium in FHH calcium concentration, the group with FHH showed indices suggesting lower circulating PTH activity than the group with 1HPT.
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PMID:Circulating parathyroid hormone activity: familial hypocalciuric hypercalcemia versus typical primary hyperparathyroidism. 23 92

Using a whole body radiation detector, we have measured the total body retention of 47-Ca 7 days after oral administration of the isotope to patients with various disorders of calcium metabolism. The percent retention of 47-Ca given with 90 mg of unlabeled (carrier) calcium varied with the calcium metabolic status as follows: normals (n equals 14), 33-43 percent (mean 38); primary hyperparathyroidism (n equals 28), 32-74 percent (mean 52); idiopathic hypercalciuria (n equals 9), 34-49 percent (mean 42); and hypercalcemia of other etiology (n equals 3), 23-26 percent (mean 25). Almost half (13/28) of those with hyperparathyroidism showed a retention above 55 percent, distinguishing them from subjects with idiopathic hypercalciuria. Retention of 47-Ca correlated poorly with clinical measures of severity of hyperparathyroidism. When isotope was diluted with a smaller amount of carrier calcium (20 mg), retention was increaseed in normals (n equals 5) to 46-54 percent (mean 50) and in hyperparathyroidism (n equals 5) to 64-87 percent (mean 73). After surgical cure of hyperparathyroidism retention of isotope returned toward normal in 5 of 7 subjects. Whole body retention of orally administered 47-Ca may prove useful in detecting hyperparathyroidism in subjects with mild hypercalcemia or hypercalciuria.
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PMID:Total body retention of orally administered 47-calcium in primary hyperparathyroidism. 23 21


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