UMLS:C0020437 - FACTA Search

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Query: UMLS:C0020437 (hypercalcemia)
10,293 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The alteration in calcium metabolism in rats ingested with saline was investigated. Rats were freely given saline as drinking water for 2 and 7 days. Calcium concentration in the serum was significantly elevated by saline ingestion for 2 and 7 days, while serum inorganic phosphorus concentration was not altered. Serum urea nitrogen concentration was significantly increased by saline ingestion for 7 days. Calcium content in the femoral-diaphyseal and metaphyseal tissues was not altered by saline ingestion for 7 days. Calcium content in the kidney cortex was significantly elevated by saline ingestion for 7 days. Ca2+-ATPase activity in the basolsateral membranes of kidney cortex was clearly increased by saline ingestion for 2 and 7 days. The enzyme activity was not altered by the addition of sodium chloride (10(-3) and 10(-2) M), parathyroid hormone (10(-7) and 10(-6) M), and calcitonin (3 x 10(-8) and 3 x 10(-7) M) in the enzyme reaction mixture. A calcium-binding protein regucalcin mRNA expression in the kidney cortex was markedly suppressed by saline ingestion for 7 days, although such a suppression was not seen for 2 days. These results suggest that saline ingestion causes the disturbance of calcium transport system in the kidney cortex of rats, and that the renal disorder may induce hypercalcemia.
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PMID:Alterations in Ca2+-ATPase activity and calcium-binding protein regucalcin mRNA expression in the kidney cortex of rats with saline ingestion. 914 14

Chronic uremia is associated with secondary hyperparathyroidism (HPT). The purpose of the present investigation was to study the reversibility of secondary HPT after reversal of uremia by an isogenic kidney transplantation in the rat. Secondary HPT was induced in two models: Model A comprised 5/6 nephrectomized rats kept on a standard diet (N = 12; PTH 210 +/- 43 pg/ml; plasma urea 24 +/- 2 mmol/liter; and normal control rats, N = 12; PTH 45 +/- 5 pg/ml; plasma urea 6 +/- 0.2 mmol/liter); and Model B comprised 5/6 nephrectomized rats kept on a high phosphorus diet (N = 12; PTH 769 +/- 157 pg/ml; plasma urea 18 +/- 2 mmol/liter). The parathyroid function was examined by measuring the secretory response of PTH to an acute induction of hypo- and hypercalcemia. Acute hypocalcemia in the hyperphosphatemic uremic rats did not significantly increase serum PTH levels (N = 6, delta Ca2+ -0.56 mmol/liter; maximal PTH 1045 +/- 164 pg/ml; basal PTH 690 +/- 134 pg/ml; NS). During hypercalcemia the PTH levels were significantly higher than in the normal controls (N = 6; minimal PTH 24 +/- 5 pg/ml vs. normal controls 5 +/- 0.2 pg/ml, P < 0.05). After 20 weeks of uremia, the uremia was reversed by the isogenic kidney transplantation. One week after reversal of the uremia the PTH levels became normal in both models A and B (28 +/- 6 and 63 +/- 16 pg/ml, respectively) and the kidney transplanted rats from model B had a normal secretory response of PTH to both hypo- and hypercalcemia. To study whether both parathyroid cell hypertrophy and hyperplasia could be down-regulated, 8 uremic glands (N = 9) or 20 normal glands (N = 6) were implanted into one normal rat. Within two weeks the rats regained normocalcemia and PTH levels remained normal from the third day after the increase of glandular mass. The 20 gland rats all had normal PTH suppressibility in response to calcium (minimal PTH 5 +/- 0.3 pg/ml). In conclusion, experimental severe secondary hyperparathyroidism is reversible very quickly after the reversal of uremia. Hyperphosphatemia in uremia is important for the non-suppressibility of the parathyroid glands to calcium. In non-uremic rats even severe parathyroid hyperplasia can be controlled, resulting in normal plasma PTH and Ca2+ levels and in a normal response to hypercalcemia. Thus, the minimal PTH secretion obtained during the induction of hypercalcemia is not an expression of the parathyroid mass.
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PMID:Reversibility of experimental secondary hyperparathyroidism. 935 Jun 46

To investigate how hypercalcemia blunts renal concentrating ability, alterations in basal and arginine vasopressin (AVP)-elicited osmotic water (Pf) and urea (Purea) permeabilities were measured in isolated perfused terminal inner medullary collecting ducts (IMCD) from control and chronically hypercalcemic rats after dihydrotachysterol (DHT) (M. Levi, L. Peterson, and T. Berl. Kidney Int. 23: 489-497, 1983) treatment. The IMCD Pf of DHT-treated rats did not increase significantly after AVP and was accompanied by a significant 87 +/- 4% reduction in aquaporin-2 (AQP-2) protein but not mRNA. In contrast, both basal and AVP-elicited IMCD Purea from DHT rats were significantly increased and accompanied by a significant 41 +/- 11% increase in AVP-regulated urea transporter protein content. Immunoblotting with anti-calcium/polyvalent cation-sensing receptor protein (CaR) antiserum revealed specific alterations in CaR bands in endosomes purified from the apical membranes of inner medulla of DHT rats. These data are the first detailed analyses of hypercalcemia-induced alterations in AVP-regulated permeabilities and membrane transporters in IMCD. We conclude that selective alterations in IMCD transport occur in hypercalcemia, permitting the body to dispose of excess calcium without forming calcium-containing renal stones.
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PMID:Vasopressin-elicited water and urea permeabilities are altered in IMCD in hypercalcemic rats. 961 37

Infusing urea into low-protein-fed mammals increases urine concentration within 5-10 min. To determine which urea transporter may be responsible, we measured urea transport in perfused IMCD3 segments [inner medullary collecting duct (IMCD) segments from the deepest third of the IMCD] from low-protein-fed rats. Basal facilitated urea permeability increased 78%, whereas active urea secretion was completely inhibited. This suggests that upregulation of facilitated urea transport may mediate the rapid increase in urine concentration. Next, expression of active urea transporter(s) in perfused IMCDs was determined in rats with other causes of reduced urine concentrating ability. In untreated and water diuretic rats, IMCD1 segments showed no active urea transport, nor did IMCD2 segments from untreated or hypercalcemic rats. In IMCD1 segments from hypercalcemic rats, active urea reabsorption was induced. The induced active urea reabsorption was completely inhibited by replacing perfusate Na+ with N-methyl-D-glucamine (NMDG+). Active urea secretion was completely inhibited in IMCD3 segments from hypercalcemic rats. In contrast, water diuresis stimulated active urea secretion in IMCD2 segments. The induced active urea secretion was inhibited by phloretin, ouabain, triamterene, or replacing perfusate Na+ with NMDG+. In conclusion, the response of active urea transporters to reductions in urine concentrating ability follows two paradigms: one occurs with hypercalcemia or a low-protein diet, and the second occurs only in water diuresis.
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PMID:Urea transport processes are induced in rat IMCD subsegments when urine concentrating ability is reduced. 988 81

Due to urea's role in producing concentrated urine, its transport is critically important to the conservation of body water. Within the renal inner medulla, urea is transported by both facilitated and active urea transport mechanisms. The vasopressin-regulated, facilitated urea transporter (UT-A1) in the terminal inner medullary collecting duct (IMCD) permits high rates of transepithelial urea transport and results in delivery of large quantities of urea into the deepest portions of the inner medulla where it is needed to maintain a high interstitial osmolality for maximal urine concentration. Four cDNA isoforms of the UT-A urea transporter family have been cloned. In addition, there are three secondary active, sodium-dependent, urea transport mechanisms in IMCD subsegments: (1) active urea secretion in the apical membrane of the terminal IMCD from untreated rats; (2) active urea absorption in the apical membrane of the initial IMCD from low-protein fed or hypercalcemic rats; and (3) active urea absorption in the basolateral membrane of the initial IMCD from furosemide-treated rats. This review will focus on integrative studies of the rapid and long-term regulation of urea transporters in rats with reduced urine concentrating ability. These studies led to the surprising result that the basal-facilitated urea permeability in the terminal IMCD and UT-A1 protein abundance are increased during in vivo conditions associated with an impaired urine concentrating ability. In contrast, there are two response patterns of active urea transporters: (1) hypercalcemia, a low-protein diet, and furosemide result in induction of active urea absorption in the initial IMCD, albeit by different mechanisms, and inhibition of active urea secretion in the terminal IMCD; while (2) water diuresis results in up-regulation of active urea secretion in the terminal IMCD without any active urea absorption in the initial IMCD. The first pattern contributes to the urine concentrating defect by increasing urea delivery to the base of the inner medulla, thus decreasing urea delivery distally to the inner medullary tip. The second response pattern will directly decrease urea content in the deep inner medulla. UT-A urea transporters are also expressed outside the kidney. Recent studies show that the liver has phloretin-inhibitable urea transport and that it occurs via a 49 kDa UT-A protein. When rats are made uremic, the abundance of this 49 kDa UT-A protein increases in the liver in vivo. This up-regulation of the 49 kDa UT-A protein may allow hepatocytes to increase ureagenesis to reduce the accumulation of ammonium and/or bicarbonate in uremia.
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PMID:Regulation of urea transporter proteins in kidney and liver. 1074 66

A retrospective study was conducted to characterize the diseases, clinical findings, and clinicopathologic and ultrasonographic findings associated with hypercalcemia (serum calcium concentration >11 mg/dL) in 71 cats presented to North Carolina State University Veterinary Teaching Hospital. The 3 most common diagnoses were neoplasia (n = 21), renal failure (n = 18), and urolithiasis (n = 11). Primary hyperparathyroidism was diagnosed in 4 cats. Lymphoma and squamous cell carcinoma were the most frequently diagnosed tumors. Calcium oxalate uroliths were diagnosed in 8 of 11 cats with urolithiasis. Cats with neoplasia had a higher serum calcium concentration (13.5 +/- 2.5 mg/dL) than cats with renal failure or urolithiasis and renal failure (11.5 +/- 0.4 mg/dL; P < .03). Serum phosphorus concentration was higher in cats with renal failure than in cats with neoplasia (P < .004). Despite the fact that the majority of cats with uroliths were azotemic, their serum urea nitrogen and creatinine concentrations and urine specific gravity differed from that of cats with renal failure. Additional studies are warranted to determine the underlying disease mechanism in the cats we identified with hypercalcemia and urolithiasis. We also identified a small number of cats with diseases that are not commonly reported with hypercalcemia. Further studies are needed to determine whether an association exists between these diseases and hypercalcemia, as well as to characterize the underlying pathophysiologic mechanism for each disease process.
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PMID:Hypercalcemia in cats: a retrospective study of 71 cases (1991-1997). 1077 91

The response of adult T-cell leukemia (ATL) to chemotherapy is poor, and a major obstacle to successful treatment is intrinsic or acquired drug resistance. To determine the clinical significance of multidrug resistance protein (MRP) 1 in ATL, we studied MRP1 expression and its association with clinical outcome. The expression of MRP1 mRNA in leukemia cells from 48 ATL patients was studied by slot blot analysis. The expression level of MRP1 mRNA in chronic-type ATL was significantly higher than that in lymphoma-type ATL (P = 0.033). There was no correlation between MRP1 expression and age, gender, WBC count, LDH, hypercalcemia, blood urea nitrogen, or performance status. However, the expression of MRP1 mRNA correlated only with peripheral blood abnormal lymphocyte counts (P = 0.008). The transporting activity of MRP1 was assessed using membrane vesicles. Membrane vesicles prepared from ATL cells with high expression of MRP1 mRNA showed a higher ATP-dependent leukotriene C(4) uptake than did those with low expression of MRP1 mRNA. This uptake was almost completely inhibited by LTD(4) antagonists ONO-1078 and MK571. In acute- and lymphoma-type ATL, high expression of MRP1 mRNA at diagnosis correlated with shorter survival, and Cox regression analysis revealed that MRP1 expression was an independent prognostic factor. These findings suggest that functionally active MRP1 is expressed in some ATL cells and that it is involved in drug resistance and has a possible causal relationship with poor prognosis in ATL. Multidrug resistance-reversing agents, such as ONO-1078 and MK571, that directly interact and inhibit the transporting activity of MRP1 may be useful for treating ATL patients.
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PMID:Prognostic significance of multidrug resistance protein in adult T-cell leukemia. 1159 4

T-cell leukemia/lymphoma (T-c LL) associated with prior infection with HTLV-I is rarely described in children. We present herein, the clinical, morphological, and virologic features of T-c LL, which occurred in eight pediatric cases with similar features of ATLL described in adults. There were three girls and five boys with age ranging from 2 to 18 years. Lymphoadenopathy, hepatosplenomegaly and marked skin lesions were presented in all cases. Five patients had hypercalcemia. The diagnostic criteria of T-c LL were based on both morphological and immunophenotypical analyses characterized by T-cell markers positively. Seven cases were cCD3+, CD4/CD25+, whereas CD1a and TdT were negative in all cases tested. HTLV-I antibodies were detected in all cases. HTLV-I provirus integration of at least one provirus was seen in all cases tested by molecular analysis. Mother-to-child transmission of HTLV-I was demonstrated in six cases. Interestingly, a homozygous deletion in p16 gene locus was observed in all four cases studied, while exons 7 and 8 of p53 were deleted in one child. The deletion of the p16(INK4A)/p14(ARF) or mutation of p53, key regulatory protein of cell cycle checkpoint in G1/S progression, found in five of the eight pediatric patients suggests that in these cases genetic lesions associated with HTLV-I infection may predispose for an early onset of leukemia.
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PMID:Genetic mutation and early onset of T-cell leukemia in pediatric patients infected at birth with HTLV-I. 1175 65

Calcitriol, 1,25(OH)(2)D(3), has been reported to have a beneficial effect on bone histology in patients with predialysis chronic renal failure; however, such treatment involves a risk of hypercalcemia. To investigate the effects of 1,25(OH)(2)D(3) and 22-oxacalcitriol (OCT) on the progression of histologic deterioration, we administered intraperitoneal 1,25(OH)(2)D(3) or OCT, three times a week, to rats with adriamycin-induced progressive renal failure, from the 10th week after the induction of ADR-induced nephropathy. The rats were divided into the following groups: (1) high-dose 1,25(OH)(2)D(3), 0.2 microg/kg (group D(3)-0.2); (2) low-dose 1,25(OH)(2)D(3), 0.04 microg/kg (group D(3)-0.04); (3) high-dose OCT, 0.2 microg/kg (group OCT-0.2); (4) low-dose OCT, 0.04 microg/kg (group OCT-0.04); and (5) ADR-induced nephropathy (group ADR). The death rate at week 20 in group D(3)-0.2 was 50%, significantly higher than the death rates in the other groups, except for group D(3)-0.04 (P <.05). The serum creatinine and blood urea nitrogen levels were the highest in group D(3)-0.2, although the difference was not significant. In contrast, in groups OCT-0.2 and OCT-0.04, tubular changes and interstitial volume were smaller than in groups D(3)-0.2 and D(3)-0.04 (P <.05). Although calcium deposits increased in group D(3)-0.2, the difference was not significant. Glomerular expression of transforming growth factor-beta1 (TGF-beta1) expression was less in groups OCT-0.2 and OCT-0.04 than in groups D(3)-0.2 and D(3)-0.04 (P <.05). Glomerular fibronectin expression was less in group OCT-0.2 than in groups D(3)-0.2 and ADR (P <.05). Tubulointerstitial expression of TGF-beta1 was greater in group D(3)-0.2 than in group ADR and greater in group D(3)-0.04 than in group OCT-0.04 (P <.05). We conclude that a high dose of 1,25(OH)(2)D(3) accelerated the progressive renal deterioration of ADR-induced nephropathy, and, as a result, OCT was able to attenuate renal histologic lesions.
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PMID:Different effects of 22-oxacalcitriol and calcitriol on the course of experimental chronic renal failure. 1238 22

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

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