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)

Calcitriol is effective in suppressing PTH levels in haemodialysis patients with hyperparathyroidism but has a low therapeutic index. There is a search for other vitamin D sterols that suppress PTH but cause less hypercalcaemia. We review evidence that 1 alpha-hydroxy-vitamin D2 (1 alpha-D2) may be an effective and safer alternative to calcitriol. In vitamin D-deficient rats, 1 alpha-D2 is equipotent to 1 alpha-D3, which is converted to calcitriol before it acts; but, in normal rats, 1 alpha-D2 is much less toxic at high doses. In osteopenia models, either steroid-induced or following ovariectomy, 1 alpha-D2 is equal to or more effective than 1 alpha-D3 in preventing bone loss but causes less hypercalciuria. Studies in osteoporotic women reveal minimal hypercalciuria with 1 alpha-D2 at doses up to 4 micrograms/day, data suggesting greater safety than reported with calcitriol or 1 alpha-D3. Preliminary data in haemodialysis patients with secondary hyperparathyroidism demonstrate the efficacy of 1 alpha-D2 in suppressing PTH levels with minimal untoward effects on serum Ca and no effects on serum P. Taken together, these observations suggest that 1 alpha-D2 deserves strong consideration as a therapeutic agent for secondary hyperparathyroidism associated with end-stage renal disease.
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PMID:1 alpha-Hydroxy-vitamin D2: a new look at an 'old' compound. 884 Mar 32

The hypercalciuria that eventually remains after the successful removal of a solitary parathyroid adenoma may originate from excessive intestinal calcium absorption, bone resorption or deficient renal reabsorption. In order to clarify this question, ten patients surgically cured from primary hyperparathyroidism (PHPx), ten age-matched normal subjects and five nephrolithiasic patients with renal hypercalciuria (RH) were studied after five days on a low calcium diet, either during fasting or after oral calcium load. Fasting serum calcium, amino-terminal and intact PTH levels and also urinary cAMP excretion were normal in every individual patient. Serum ionized calcium and inulin clearance (GFR) were used for calculations of the filtered load (FL Ca) and the fractional excretion of calcium (FE Ca). Six PHPx patients displayed fasting calciuria above the upper limit calculated for control subjects, despite having the lowest GFR and FL Ca (p < 0.05 vs control). These patients (h-PHPx) had a small calciuric response to oral calcium load. Serum 1,25-(OH)2D3 and 25OHD3 did not correlate with calciuria. Our findings exclude intestinal hyperabsorption and excessive bone resorption in h-PHPx patients, and strongly suggest a renal tubular defect in calcium reabsorption as the cause of their hypercalciuria. This defect could be primary, as in RH, but only three hPHPx patients had recurrent kidney stones before surgery. On the other hand, as a negative correlation between GFR and FE Ca was only found in PHPx patients, it seems probable that the disturbances in glomerular and tubular functions were secondary to the long standing hypercalcemic hyperparathyroidism.
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PMID:The cause of maintained hypercalciuria after the surgical cure of primary hyperparathyroidism is a defect in renal calcium reabsorption. 885 86

Excessive animal protein consumption is associated with a greater risk of occurrence of renal calcium stone, presumably because of the attendant endogenous acid production. Indeed, chronic acid load enhances urinary calcium excretion possibly through an increased bone calcium release. Because acute studies are best designed to elucidate the mechanism, renal or extra renal, underlying hypercalciuria in the setting of enhanced acid load, we examined the response of 9 healthy adults (8 males, 1 female, aged 38 +/- 3 years, weight 67 +/- 2 kg) and 34 hypercalciuric recurrent calcium stone formers (31 males, 3 females, aged 44 +/- 2 years, weight 72 +/- 2 kg), without any associated disease, to an oral acid load (NH4Cl 2 mmol/kg body wt). After an overnight fast, each patient and control was studied during one one-hour period before and three two-hour periods after their intake of the acid load. An additional group of four time-control subjects (4 males, aged 33 +/- 2 years, weight 66 +/- 2 kg) was studied as the experimental groups except that they did not receive the acid load. On baseline, the three groups exhibited similar glomerular filtration rates, net acid excretions, and plasma calcium and magnesium concentrations. However, fasting urine calcium and magnesium excretions were higher in hypercalciuric calcium stone formers than in healthy control or time-control subjects. In time-control subjects, plasma acid base status, net acid excretion, filtered loads of calcium and magnesium, and urinary calcium and magnesium excretions remained unchanged all over the study. By contrast, after the oral acute acid load, net acid excretion increased and urinary pH decreased similarly in patient and control groups; glomerular filtration rate did not change, as well as plasma calcium and magnesium concentrations. Nevertheless, urinary calcium and magnesium excretions markedly increased, in both groups, independently of changes in tubular sodium handling and in plasma parathyroid hormone concentration. The increase in urinary calcium and magnesium excretions that occurred in the absence of any change in the filtered load of calcium and magnesium was therefore mediated by a decrease in tubular calcium and magnesium reabsorption, independent of PTH, but dependent on changes in net acid excretion. A positive linear relationship between urinary calcium and magnesium excretions suggested that the target tubular site for acid load was the thick ascending limb of Henle's loop. Finally, a negative linear relationship was demonstrated between the acid load-induced increase in urinary calcium excretion and fasting urinary calcium excretion; indeed, the lowest calciuric responses were observed in patients with the highest fasting urinary calcium excretion. Thus there was no additional effect of the acid load-induced inhibition on intrinsic defect in tubular calcium reabsorption which suggests that the tubular target site for acid load and the site of calcium transport defect in idiopathic hypercalciuria may be the same.
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PMID:Calciuric response to an acute acid load in healthy subjects and hypercalciuric calcium stone formers. 887 75

We report the case of a 46-year-old male patient who, after disease-free intervals of five, four and one and a half years following resection of an 'atypical' parathyroid adenoma in 1982, relapsed with clinical and laboratory recurrence of primary hyperparathyroidism (PHP). Noninvasive, traditional and modern imaging methods localized small distinct metastatic foci in both lungs without evidence of primary thyroid, neck or mediastinal tumor. Three successive bilateral lung nodule excisions resulted in a long PHP remission, while a three month treatment with normal saline infusions, diuretics, calcitonine and pamidronate infusions, following the last recurrence, resulted in moderate improvement of hypercalcemia and hypercalciuria with no effect on both PTH secretion or on the size of new metastatic lung foci. Recurrent mPCa with or without secretion of biologically active PTH is optimally treatable with successive surgical resections of the metastases and intermittent medical treatment to achieve PTH secreting tumor mass reduction and a beneficial metabolic effect.
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PMID:Metastatic parathyroid carcinoma (mPCa): natural history and treatment of a case. 950 19

Once-daily sc injection of PTH 1-34 can normalize mean serum and urine calcium levels in patients with hypoparathyroidism; however, once-daily PTH has diminishing effects on serum calcium after 12 h, such that serum calcium levels fall below the normal range in some patients. Once-daily PTH also causes a marked increase in bone turnover, with persistent increases in markers of bone formation and resorption. To test the hypothesis that a twice-daily PTH regimen can produce more physiological control than a once-daily regimen, we performed a randomized cross-over trial, lasting 28 weeks, in 17 adult subjects with hypoparathyroidism. Each 14-week study arm was divided into a 2-week inpatient dose-adjustment phase and a 12-week outpatient phase. The PTH dose (given sc once daily at 0900 h or twice daily with one dose at 0900 h and the other at 2100 h) was adjusted to maintain both serum and urine calcium within, or close to, the normal range. During the second half of the day (12-24 h), twice-daily PTH increased serum calcium and magnesium levels more effectively than once-daily PTH. In patients with calcium receptor mutations (CaR), once-daily PTH normalized urine calcium, provided that serum calcium was maintained at levels below normal range. However, twice-daily PTH treatment produced higher mean serum calcium in patients with CaR with no significant rise in urine calcium excretion, and with no significant differences in either serum or urine calcium levels between CaR and patients with acquired or idiopathic hypoparathyroidism. Thus, treatment with twice-daily PTH is the better regimen for patients with CaR to overcome their tendency to hypercalciuria while producing near-normal levels of serum calcium. The total daily PTH dose was markedly reduced with the twice-daily regimen (twice daily 46+/-52 vs. once daily 97+/-60 microg/day, P < 0.001). We conclude that a twice-daily PTH regimen provides effective treatment of hypoparathyroidism and reduces the variation in serum calcium levels at a lower total daily PTH dose.
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PMID:A randomized, cross-over trial of once-daily versus twice-daily parathyroid hormone 1-34 in treatment of hypoparathyroidism. 976 50

We performed a retrospective study of 237 patients attending a specialty osteoporosis practice. Secondary causes for reduced bone mineral density (BMD) were evaluated in 196 postmenopausal women and 41 premenopausal women; mean age was 56 +/- 13.8 years (mean +/- SD). BMD was measured by dual-energy X-ray absorptiometry (DXA) (QDR 1000W/2000 Hologic). Levels of intact parathyroid hormone (iPTH), calcidiol [25(OH)D], thyroid-stimulating hormone, and 24-hour urinary calcium were measured, and serum and urine protein (SPEP and UPEP) electrophoresis were performed. Overall, 16% of our patients had 25(OH)D levels <15 ng/ml, the lowest acceptable vitamin D level without a concomitant rise in iPTH levels. Among the osteoporotic patients (T score <-2.5 SD), 17% had 25(OH)D levels <15 ng/ml and 7% <10 ng/ml. Among the osteopenic patients (-2.5 < T < -1.0 SD), 11% had 25(OH)D levels <15 ng/ml. Seventeen percent of patients with Z score </=-1.0 SD (low range normal value) had 25(OH)D levels <15 ng/ml. Low 25(OH)D levels were inversely related to high iPTH values (r = 0.30, P < 0.0001). Hypercalciuria was present in 15% of our patients, elevations of PTH levels (>65 pg/ml, upper normal limit of assay) were present in 11.5%, and hyperthyroidism in 4%. A 25(OH)D level of <25 ng/ml in women (n = 86) with no known secondary causes of low BMD was associated with an iPTH level above 49 pg/ml. The measurement of 25(OH)D levels is recommended in the evaluation of secondary causes for reduced BMD. Supplementation with vitamin D appears needed to keep 25(OH)D above 25 ng/ml, the level required to prevent increments in iPTH levels.
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PMID:Calcidiol and PTH levels in women attending an osteoporosis program. 1008 17

PTH stimulates bone formation to increase bone mass and strength in rats and humans. The aim of this study was to determine the skeletal effects of recombinant human PTH-(1-34) [rhPTH-(1-34)] in monkeys, as monkey bone remodeling and structure are similar to those in human bone. Adult female cynomolgus monkeys were divided into sham-vehicle (n = 21), ovariectomized (OVX)-vehicle (n = 20), and OVX groups given daily s.c. injections of rhPTH-(1-34) at 1 (n = 39) or 5 (n = 41) microg/kg for 12 months. Whole body bone mineral content was measured, as was bone mineral density (BMD) in the spine, proximal tibia, midshaft radius, and distal radius. Serum and urine samples were also analyzed. rhPTH-(1-34) treatment did not influence serum ionized Ca levels or urinary Ca excretion, but depressed endogenous PTH while increasing serum calcitriol levels. Compared to that in the OVX group, the higher dose of rhPTH-(1-34) increased spine BMD by 14.3%, whole body bone mineral content by 8.6%, and proximal tibia BMD by 10.8%. Subregion analyses suggested that the anabolic effect of rhPTH-(1-34) on the proximal tibia was primarily in cancellous bone. Similar, but less dramatic, effects on BMD were observed with the lower dose of rhPTH-(1-34). Daily s.c. rhPTH-(1-34) treatment for 1 yr increases BMD in ovariectomized monkeys without inducing sustained hypercalcemia or hypercalciuria.
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PMID:Daily treatment with human recombinant parathyroid hormone-(1-34), LY333334, for 1 year increases bone mass in ovariectomized monkeys. 1052 26

Endogenous cortisol excess and glucocorticoid (GC) treatment have a profound effect on bone metabolism, acting at many sites. The mechanism of GC action on bone turnover is complex and has not been elucidated completely. GCs increase bone resorption, inhibit bone formation and have an indirect action on bone by decreasing intestinal Ca2+ absorption, modifying vitamin D metabolism, and sustaining a marked hypercalciuria, with variable changes in plasma PTH levels; finally, GCs inhibit the gonadotropic and somatotropic axis. GC-induced osteoporosis is preventable, treatable and potentially reversible. The prevention and treatment of GC-induced osteoporosis include some general measures (as well as the use of the minimal effective dose of GC), Ca2+ and vitamin D supplementation and treatment with bone anabolic and antiresorptive agents. Recent trials suggest that bisphosphonates are an effective therapeutic tool in the treatment of GC-induced bone damage. Recent data on GC receptor-selective modulators indicate that these new molecules might induce only minimal bone loss while maintaining the typical anti-inflammatory properties of GC. Another new line of study for the prevention of GC-induced osteoporosis is the characterization of the individual's susceptibility to GC-induced bone damage.
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PMID:Glucocorticoid-induced osteoporosis. 1070 47

The pathogenesis of idiopathic hypercalciuria (IH) has not been elucidated yet, but a correlation between IH and altered bone metabolism has been proposed. Since nitric oxide (NO) regulates osteoclasts' bone resorption, a possible role for NO can be suggested. In this study we evaluated iNOS gene expression by reverse transcription of mRNA from monocytes, followed by polymerase chain reaction in patients with IH subdivided into fasting (FH) and absorptive (AH) hypercalciuria. Since superoxide (O2-), which metabolizes NO, is overproduced by osteoclasts during bone resorption, peroxynitrite plasma level was evaluated as index of O2-. Vertebral BMD in IH as a whole group was lower vs controls (C) (Z score=-1.78+/-0.2 vs 0.51+/-0.25, p<0.001), but only FH patients showed a reduced bone density (2.13+/-0.18 vs 0.51+/-0.25, p<0.0001). PTH and calcitriol were not different. FH showed an increase in b-ALP vs AH and C (41.1+/-2.6 vs 30.1+/-3.9 vs 26.6+/-3.6 U/l p<0.02), and higher uHP, either on NCD (17.7+/-1.6 vs 11.4+/-1.3 mg/g uCr, p<0.04) or after LCD (26.7+/-2.5 vs 16.7+/-1.9, p<0.01). Cells from FH patients, but not from both AH patients and C, expressed iNOS. Peroxynitrite plasma level was elevated in FH (0.30+/-0.07) pmol/l while not detectable in AH and C. This study confirms an altered bone metabolism only in FH which shows an abnormal NO system. The increased iNOS gene expression in FH, in fact, points toward an altered NO system's activity downstream the generation of NO. A possible interaction of NO with O2-, which breaks down NO, and the role of this interaction in the pathophysiology of IH is discussed.
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PMID:Idiopathic hypercalciuria: O2(-)NO relationship and altered bone metabolism. 1080 Jul 59

Familial hyperparathyroidism (HPT), characterized by hypercalcemia and hypercalciuria, and familial benign hypocalciuric hypercalcemia (FHH) are the most common causes of hereditary hypercalcemia. The calcium-sensing receptor (CaR) regulates PTH secretion and renal calcium excretion. Heterozygous inactivating mutations of the gene cause FHH, whereas CaR gene mutations have not been demonstrated in HPT. In a kindred with 20 affected individuals, the hypercalcemic disorder segregated with inappropriately higher serum PTH and magnesium levels and urinary calcium levels than in unaffected members. Subtotal parathyroidectomy revealed parathyroid gland hyperplasia/adenoma and corrected the biochemical signs of the disorder in seven of nine individuals. Linkage analysis mapped the condition to markers flanking the CaR gene on chromosome 3q. Sequence analysis revealed a mutation changing phenylalanine to leucine at codon 881 of the CaR gene, representing the first identified point mutation located within the cytoplasmic tail of the CaR. A construct of the mutant receptor (F881L) was expressed in human embryonic kidney cells (HEK 293), and demonstrated a right-shifted dose-response relationship between the extracellular and intracellular calcium concentrations. The hypercalcemic disorder of the present family is caused by an inactivating point mutation in the cytoplasmic tail of the CaR and displays clinical characteristics atypical of FHH and primary HPT.
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PMID:Familial hypercalcemia and hypercalciuria caused by a novel mutation in the cytoplasmic tail of the calcium receptor. 1084 46


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