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)

Vitamin D-resistant rickets is a group of rare disease characterized by lack of reaction to vitamin D administered in doses sufficient to manage patients with rickets caused by vitamin D deficiency. These disorders result from disturbed metabolism and activity of vitamin D and/or disturbed phosphate metabolism. The most common vitamin D-resistant form of rickets is X-linked hypophosphatemic vitamin D-resistant rickets. Other forms are as the following: oncogenic hypophosphatemic osteomalacia, autosomal dominant hypophosphatemic rickets, hereditary hypophosphatemic rickets with hypercalciuria and pseudo-vitamin D deficient rickets type I and II.
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PMID:[Vitamin D-resistant rickets]. 1586 46

X-linked hypophosphatemic rickets (XLH), autosomal dominant hypophosphatemic rickets, hereditary hypophosphatemic rickets with hypercalciuria, and tumor-induced osteomalacia share clinical and biochemical features, and are collectively referred to as hypophosphatemic rickets (HR). Recently, the molecular bases of HR were elucidated. A review of medical records and mutational analyses of the PHEX and FGF23 genes were performed on 17 unrelated Korean children with HR. The male-to-female ratio was 3:14, and 5 patients were familial. Initial laboratory tests revealed typical features of HR. Seven different PHEX mutations were detected in 8 patients: 2 missense mutations, 2 nonsense mutations, and 3 short deletions. No functional FGF23 mutation was detected in any patient. Patients with the PHEX mutation tended to have more severe skeletal disease than those without. Of the patients with this mutation, no genotype-phenotype correlation and no gene dosage effect were noted. Treatment with vitamin D and phosphate resulted in only a partial growth improvement in most cases, and was frequently complicated by hypercalciuria, hypercalcemia, nephrocalcinosis, or hyperparathyroidism. Renal glycosuria was detected in six cases and was associated with more severe skeletal disease. We conclude that current HR treatment is not fully safe or effective, and that close monitoring of treatment effectiveness and for complications should be performed during long-term treatment. No genotype-phenotype correlation in XLH was detected in this study, but a large-scaled study on this topic is warranted. The large proportion of patients with a normal genetic study suggests the possibility of other causative gene(s).
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PMID:A clinical and molecular genetic study of hypophosphatemic rickets in children. 1605 33

Hereditary hypophosphatemic rickets groups together X-linked hypophosphatemic rickets (XLH), autosomal dominant hypophosphatemic rickets (ADHR) and hereditary hypophosphatemic rickets with hypercalciuria (HHRH, autosomal recessive). Clinical and biological characteristics and treatment depend on specific etiology. Mutations causing hereditary hypophosphatemic rickets involve PHEX located on Xp11.22 for XLH and FGF-23 located on 12p13 for ADHR. The gene involved in HHRH remains unknown: candidates may encode proteins that modulate phosphate transporter expression or activity. Others forms of rickets must be ruled out: acquired hypophosphatemia due to oncogenic osteomalacia, X-linked recessive hypophosphatemic rickets or Dent's disease, and hereditary 1, 25-dihydroxyvitamin D-resistant rickets with a defect either in the 1-alpha-hydroxylase gene (pseudo-vitamin D deficiency rickets, PDDR) or in the vitamin D receptor (hereditary vitamin D-resistant rickets, HVDRR).
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PMID:[Hereditary hypophosphatemia in adults]. 1637 96

The rare Dent's disease manifests with medullary nephrocalcinosis, nephrolithiasis, hypercalciuria, low molecular weight proteinuria and other tubular dysfunctions, rickets or osteomalacia, and renal failure, in various combinations. It is a recessive X-linked condition. Clinicians consider family history a fundamental pointer to its diagnosis, but this is not invariably the case as clearly pointed out by the two reported cases.
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PMID:Family history may be misleading in the diagnosis of Dent's disease. 1641 11

Two cases of hereditary hypophosphatemic rickets with hypercalciuria (HHRH) were reported in Japanese female siblings. Both of them manifested short stature and bowed legs, and biochemical examination revealed hypophosphatemia, phosphaturia, and hypercalciuria. The serum concentrations of 1,25-dihydroxyvitamin D (1,25(OH)(2)D) were elevated. In the oral phosphate loading test, serum phosphate levels were markedly increased in the HHRH patients, and the elevation was much higher than that in patients affected with X-linked hypophosphatemic rickets (XLH), suggesting the increased gastrointestinal absorption of phosphate in HHRH. Bone histology studies showed increased osteoid surface and width in HHRH, which was compatible with osteomalacia. In the HHRH patients, there were no hypomineralized periosteocytic lesions, which was a hallmark of XLH in bone histology. In one of the HHRH patients, phosphate administration alone almost completely cured the osteomalacia within a year, although pharmacological doses of 1,25(OH)(2)D(3) had little effect. In osteoblasts isolated from a HHRH patient, basal alkaline phosphatase (ALP) activities and osteocalcin syntheses by a physiological concentration of 1,25(OH)(2)D(3) were not stimulated by the increased medium phosphate concentrations from 0.5 to 4 mM. In contrast, these two parameters were stimulated by the increased medium phosphate concentrations both in normal and XLH osteoblasts, although the regulatory patterns of increased osteocalcin syntheses were different from normal to XLH osteoblasts; 2 and 4 mM of phosphate concentrations at least were necessary for normal and XLH osteoblasts, respectively. The gene analysis of phosphate transporter revealed a novel heterozygous mutation (R564C) in the exon of phosphate transporter NPT type IIc. These lines of evidence suggested that the pathogenesis of osteomalacia in HHRH was different from XLH in terms of the utility of phosphate in osteoblasts. These abnormalities were speculated to be associated with the abnormal functions of phosphate transporter gene type IIc, although the exact roles of this phosphate transporter in the human osteoblast are still unknown.
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PMID:Hereditary hypophosphatemic rickets with hypercalciuria: a study for the phosphate transporter gene type IIc and osteoblastic function. 1796 93

The regulation of phosphate homeostasis remains incompletely understood. Most insights into the underlying mechanisms were established by defining the molecular basis of different inherited disorders that are characterized by an abnormal regulation of phosphate homeostasis. Using this approach, three novel regulators were previously identified, namely PHEX (a phosphate-regulating gene with homologies to endopeptidases on the X chromosome), fibroblast growth factor (FGF)-23 and UDP-N-acetyl-alpha-D-galactosamine:polypeptide N-acetylgalactosaminyltransferase 3 (GALNT3). Other studies had revealed heterozygous mutations in the sodium phosphate co-transporter NaPi-IIa as the cause of hypophosphatemia associated with hypercalciuria and osteoporosis, and homozygous or compound heterozygous mutations in NaPi-IIc were shown to cause hereditary hypophosphatemic rickets with hypercalciuria. Recently, positional cloning approaches furthermore led to the identification of homozygous inactivating mutations in dentin matrix protein 1 (DMP1) as the cause of an autosomal recessive form of hypophosphatemia. Using different immunometric assays, intact and C-terminal FGF-23 levels were found to be elevated in patients with oncogenic osteomalacia, and the tumors responsible for this disease showed increased expression of FGF-23 mRNA. Intact and C-terminal FGF-23 levels are furthermore elevated in patients with X-linked hypophosphatemia. This disorder is caused by inactivating PHEX mutations suggesting that this endopeptidase is somehow, most likely indirectly, involved in the metabolism of intact FGF-23. FGF-23 levels were also found to be elevated in some patients with ARHP indicating that the lack of DMP1 up-regulates expression of this phosphaturic hormone. The concentration of C-terminal FGF-23, but not of intact FGF-23, is significantly elevated in two forms of tumoral calcinosis (TC). One form of TC is caused by homozygous inactivating GALNT3 mutations implying that the encoded enzyme, which is involved in the initiation of O-glycosylation, is important for preventing cleavage of FGF-23 into biologically inactive fragments. The second form of tumoral calcinosis is caused by different homozygous FGF-23 mutations that affect conserved serine residues that may undergo O-glycosylation by GALNT3; the lack of this post-translational modification leads to an abnormal processing of FGF-23 and increased secretion of C-terminal fragments. It remains unknown whether and how the different phosphate-regulating proteins interact with each other and it appears very likely that additional proteins are involved in this process. It also remains unclear whether the dramatically elevated FGF-23 levels in patients with different stages of chronic kidney disease affect bone metabolism, particularly the mineralization of newly formed osteoid.
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PMID:Novel regulators of phosphate homeostasis and bone metabolism. 1797 82

Vitamin D insufficiency (VDI) is widely reported. In patients with normal PTH, the diagnosis rests on increases in fractional calcium absorption (FCA) when 25(OH)D increases above 30 ng/ml. However, estimates of increased FCA after correction of VDI vary dramatically, depending on study methods. We used a dual stable calcium isotope to clarify the impact of vitamin D repletion on FCA in postmenopausal women with VDI. We hypothesized that FCA would increase with vitamin D repletion. We studied postmenopausal women with VDI [25(OH)D = 16-24 ng/ml] and an estimated calcium intake <or=1100 mg daily. Exclusion criteria included hypercalcemia, hypercalciuria, renal insufficiency, nephrolithiasis, gastrointestinal disorders, osteomalacia, prior adult fragility fracture, baseline T-score < -3.0, and use of medications known to interfere with vitamin D or calcium metabolism. Each woman underwent inpatient FCA studies before and after correction of VDI. We used ergocalciferol 50,000 IU/d for 15 days to achieve vitamin D repletion. During each study, women consumed their typical diet. They ingested (44)Ca orally with breakfast and received (42)Ca intravenously. We collected urine for 24 h and measured its calcium isotope content by mass spectrometry. Eighteen women completed the study; all but two had normal PTH. During the first and second FCA studies, their mean 25(OH)D level was 22 +/- 4 and 64 +/- 21 ng/ml, respectively (p < 0.001). Subjects' average FCA was 24 +/- 7% initially and 27 +/- 6% after vitamin D repletion (p = 0.04). Thus, FCA increased by 3 +/- 1% with correction of VDI. Postmenopausal women with VDI experience small FCA increments with vitamin D therapy. In existing literature, this small change in FCA does not associate with lower fracture rates or consistently higher bone mass. Future studies should ascertain whether small FCA increments favorably affect the skeleton.
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PMID:Vitamin D insufficiency: disease or no disease? 1904 42

Hereditary hypophosphatemic rickets with hypercalciuria (HHRH) is caused by mutations in SLC34A3, the gene encoding the renal sodium-phosphate co-transporter NaPi-IIc. Despite increased urinary calcium excretion, HHRH is typically not associated with kidney stones prior to treatment. However, here we describe two sisters, who displayed nephrolithiasis or nephrocalcinosis upon presentation. The index patient, II-4, presented with short stature, bone pain, and knee X-rays suggestive of mild rickets at age 8.5 years. Laboratory evaluation showed hypophosphatemia, elevated 1,25(OH) (2) vitamin D levels, and hypercalciuria, later also developing vitamin D deficiency. Her sister, II-6, had a low normal serum phosphorous level, biochemically vitamin D deficiency and no evidence for osteomalacia, but had undergone left nephro-ureterectomy at age 17 because of ureteral stricture secondary to renal calculi. Nucleotide sequence analysis of DNA from II-4 and II-6 revealed a homozygous missense mutation c.586G>A (p.G196R) in SLC34A3/NaPi-IIc. Ultrasonographic examinations prior to treatment showed grade I nephrocalcinosis for II-4, while II-6 had grade I-II nephrocalcinosis in her remaining kidney. Four siblings and the mother were heterozygous carriers of the mutation, but showed no biochemical abnormalities. With oral phosphate supplements, hypophosphatemia and hypercalciuria improved in both homozygous individuals. Renal calcifications that are presumably due to increased urinary calcium excretion can be the presenting finding in homozygous carriers of G196R in SLC34A3/NaPi-IIc, and some or all laboratory features of HHRH may be masked by vitamin D deficiency.
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PMID:Hypophosphatemic rickets with hypercalciuria due to mutation in SLC34A3/NaPi-IIc can be masked by vitamin D deficiency and can be associated with renal calcifications. 1852 28

In humans, Dent's disease, an X-linked renal tubular disorder, is characterized by low molecular weight proteinuria, aminoaciduria, glycosuria, hyperphosphaturia, hypercalciuria, nephrolithiasis, progressive renal failure and sometimes rickets or osteomalacia. The aetiology of X-linked Dent's disease is established to be caused by mutations of the CLCN5 gene. The protein product of this gene is the voltage-gated chloride-proton exchanger CLC-5. Previous studies by the Johns Hopkins group (Guggino) and the Hamburg group (Jentsch) have established that the Clcn5 knockout mouse recapitulates the renal attributes of Dent's disease. In order to understand the changes in kidney function that accompany the knockout of the Clcn5 gene, we examined gene expression profiles from dissected proximal segment 1 (S1) and segment 2 (S2) tubules of mouse kidneys. Overall, 725 genes are expressed differentially in the proximal tubules of the Dent Clcn5 knockout mouse model compared with those of control wild-type mice. A major finding is the change in the cholesterol synthesis pathway. Some interesting changes also occur in genes encoding transport proteins. One of these transport proteins, the sodium bile cotransporter gene, Slc10a2, has transcripts increased by 17-fold in the Clcn5 knockout mouse. The Clc-3 protein encoded by Clcn3, a chloride-proton exchanger related to Clc-5, has a 1.9-fold increase in transcripts. The Npt2c protein, a proximal tubule sodium phosphate cotransporter encoded by Slc34a3, has a 0.6-fold decrease in the number of transcripts. The sodium-proton exchanger-like protein, Nhe10/sperm, encoded by Slc9a10, has a 0.5-fold decrease in transcript number. These genes are discussed with regard to the possible physiological outcomes of their transcript or protein changes.
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PMID:Can we generate new hypotheses about Dent's disease from gene analysis of a mouse model? 1893 Oct 44

Absorptive hypercalciuria (AH) is associated with elevated levels of 1,25-dihydroxyvitamin D (1,25(OH)(2)D). While no increase of 1,25(OH)(2)D after oral administration of 25-hydroxyvitamin D (25OHD) at high doses has been claimed in normal subjects, a substrate-product relationship has been reported in normal children, young people after UV irradiation, older persons, postmenopausal women, primary hyperparathyroidism, renal failure, osteomalacia, and sarcoidosis. No data of this relationship in AH is available. To investigate 25OHD-1,25(OH)(2)D substrate-product relationship in AH, 161 AH patients (mean age 60.9+/-11.7 years) and 110 age- and sex-matched controls (mean age 61.5+/-12.4 years) were studied. In 57 controls and 52 AH subjects 25OHD-1,25(OH)(2)D relationship in basal conditions and after 2-week oral 25OHD (25 microg/day) administration were evaluated. In basal conditions 25OHD and 1,25(OH)(2)D were correlated in both, controls and AH; 25OHD treatment was followed by an increase in serum 25OHD and 1,25(OH)(2)D in both groups. However, delta responses of 25OHD and 1,25(OH)(2)D to 25OHD were higher in AH suggesting an enhanced activity of 1 alpha-hydroxylase. In conclusion, the higher response of 1,25(OH)(2)D after oral 25OHD in AH patients suggests a differential capacity between both groups in handling the increases in 1,25(OH)(2)D.
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PMID:Vitamin D substrate-product relationship in idiopathic hypercalciuria. 1901 26

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