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)

Ca2+ entry into the cell may be an early event in the pathophysiology of bile salt-induced gastric mucosal injury. The aim of this study was to characterize the rise in cytosolic free Ca2+ associated with bile salt injury and its association with cell injury and death. Rabbit gastric mucosal cells were preloaded with the Ca2+ indicator fura 2-acetoxymethyl ester (fura 2-AM) for 20 min at 37 degrees C and then exposed to graded concentrations of the bile salt deoxycholate (DC). Cytosolic free Ca2+ concentration ([Ca2+]i) was estimated by spectrofluorometry. The resting [Ca2+]i in gastric cells was 177 +/- 15 nM (n = 6). When cells were subjected to 0.5 mM DC, there was a time-dependent rise in [Ca2+]i. An increase in [Ca2+]i was observed within 2 min, at which time [Ca2+]i rose from 177 +/- 15 to 480 +/- 30 nM. The maximal increase in [Ca2+]i was observed after 20 min of exposure to 0.5 mM DC (639 +/- 49 nM), and [Ca2+]i remained unchanged for at least 2 h. The increase in [Ca2+]i depended on the concentration of DC. The minimum effective dose of DC was 0.2 mM, with which [Ca2+]i was increased by 1.6-fold (from 177 to 285 nM). At 0.5 mM DC also caused a rise in 45Ca2+ influx into the cells and reduced the viability of gastric cells from 96% to 58% at 2 h. The DC-induced rise in cytosolic free Ca2+ depended on the presence of extracellular Ca2+. In the absence of extracellular Ca2+ there was no rise in cytosolic Ca2+ and gastric cells were protected from cell death caused by DC. The DC-induced cell death was reduced from 26% to 10% and from 37% to 16% at 60 and 90 min, respectively, by removal of extracellular Ca2+. The association of DC with gastric cells was not altered by removing extracellular Ca2+. This suggests decreased DC-induced injury in the absence of extracellular Ca2+ is due to the protection from cellular hypercalcemia rather than some other mechanism related to reduced binding and/or association of DC to gastric cells. These experiments show that rising [Ca2+]i appears to be an early pathophysiological event in bile salt-induced cellular injury and that extracellular Ca2+ is critical to produce this effect.
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PMID:Cellular hypercalcemia is an early event in deoxycholate injury of rabbit gastric mucosal cells. 765 70

Hyperphosphataemia plays a key role in the pathogenesis of renal osteodystrophy, and phosphate-binding agents are required in many chronic dialysis patients. Aluminium hydroxide and calcium carbonate are well-established phosphate binders, but their use is associated with toxicity or poor efficacy. Calcium acetate is known to be a potent phosphate binder, and has recently been used successfully in chronic dialysis patients. In this randomized cross-over trial in 31 chronic haemodialysis patients, equimolar doses of calcium acetate and calcium carbonate were administered for 6 weeks each. Compliance was estimated from tablet counts, and biochemical parameters were measured at the end of each treatment period. Of the 31 patients 23 completed both treatment arms; of the remainder, three withdrew due to adverse symptoms, hypercalcaemia necessitated treatment withdrawal in two, and three died. Non-compliance was significantly higher with acetate (18.3% tablets not taken) than with carbonate (8.7%). Serum phosphate was significantly lower after treatment with acetate (1.51 mmol/l) than with carbonate (1.80), as was the Ca x PO4 product (3.59 vs 4.18 respectively) and PTH (17.8 vs 25.4 pmol/l respectively). Serum calcium was significantly higher after acetate therapy (2.40 vs 2.32 mmol/l). No significant difference was found for sodium, potassium, bicarbonate, urea, creatinine, and haemoglobin. This study confirms that the treatment of hyperphosphataemia is more effective with calcium acetate than with calcium carbonate. For the first time an associated beneficial effect on secondary hyperparathyroidism has also been demonstrated. Patient tolerability of calcium acetate was considerably poorer, probably due in part to tablet formulation and bulkiness, as well as possible direct gastrointestinal effects of the acetate salt.
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PMID:Calcium acetate versus calcium carbonate as phosphate-binding agents in chronic haemodialysis. 780 Feb 11

Corticosteroids are extensively prescribed in advanced cancer for various specific indications (e.g. spinal cord compression), for pain relief, as hormone therapy and to stimulate appetite and wellbeing. Choice of corticosteroid is dictated largely by local fashion, and times of administration are more traditional than pharmacological. Corticosteroids have many potential disadvantages, some life-threatening (e.g. masked septicaemia). Others are seriously debilitating (e.g. myopathy, avascular bone necrosis). Oropharyngeal candidiasis is a common complication. Corticosteroids are withdrawn in about 5% of patients because of unacceptable adverse effects, including moon-face and diabetes mellitus. Corticosteroid hypersensitivity occurs, and the succinate salts have been associated with bronchospasm. Steroid pseudorheumatism may occur with high dose therapy or when tailing off after a prolonged course. Important drug interactions with corticosteroids relate to salt and water retention, and decreased glucose tolerance. Some anticonvulsants cause an increased clearance of corticosteroids and, with dexamethasone, up to a 50% reduction in the anticipated effect. The benefit of corticosteroids in terms of increased appetite, mood and activity has been demonstrated in several controlled trials. The effect may well be time-limited in most patients. In several studies, corticosteroids have resulted in an analgesic-sparing effect. Some centres use very high doses of dexamethasone in cases of spinal cord compression, although the justification for these is not obvious. Corticosteroids are used to help relieve nerve compression pain and in symptomatic raised intracranial pressure. Corticosteroids are also injected locally into or around bone metastases, particularly ribs and the sacro-iliac joints. Epidural injections are used for patients with troublesome intractable low back pain. Corticosteroids are now used less often in hypercalcaemia because of poor response rates. More benefit is obtained, however, if high dosages are used, e.g. prednisolone 60 to 80 mg/day. Dexamethasone is widely used as an antiemetic in association with chemotherapy. Some centres use dexamethasone by continuous subcutaneous infusion in selected patients when the oral route is not feasible. The choice of starting dose of a corticosteroid is largely arbitrary. It is important, however, not to miss a possible treatment benefit by prescribing too low a dose. For most patients, an initial dosage of prednisolone of 30 to 60 mg/day (dexamethasone 4 to 8 mg/day) is appropriate. In patients with anorexia, there are several alternative options that should be considered. There is evidence to suggest that patients with advanced cancer receiving a corticosteroid are not as closely monitored as other patients. There is a need to state clearly in writing the reason(s) for prescription and to review after 1 or 2 weeks.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The risks and benefits of corticosteroids in advanced cancer. 781 99

Phosphate retention plays a major role in the pathogenesis of hyperparathyroidism at all stages of renal insufficiency. Dietary phosphate restriction is mandatory only for adults and is not advised for children because of the recommended diet allowance. Dietary restriction is usually not sufficient, and phosphate binders are almost always necessary when the glomerular filtration rate falls below 40 mL/min. Because long-term administration of aluminum phosphate binders is associated with risk of aluminum intoxication despite the use of so-called "safe doses", alternative phosphate binders should be used. Magnesium hydroxide and carbonate can be used only for dialysis patients because a low dialysate magnesium concentration is necessary to prevent the hazards of hypermagnesemia. Therefore, the major alternative is the use of alkaline salts of calcium. The most recently proposed salt, acetate, has a higher phosphate-binding capacity than carbonate but exposes patients to the same incidence of hypercalcemia despite the use of half the dose of elemental calcium. These salts should be taken with meals in order to complex more dietary phosphate and decrease calcium absorption and therefore the risk of hypercalcemia. Oral calcium alone, without 1 alpha OH-vitamin D3 derivatives, can prevent hyperphosphatemia and hyperparathyroidism in most uremic patients before dialysis and in about half of the patients dialyzed with a dialysate calcium of 1.5 to 1.65 mmol/L. 1 alpha OH-vitamin D3 derivatives, which increase intestinal absorption of phosphate, should be used only when hyperphosphatemia has been prevented by oral calcium and diet and when plasma parathyroid hormone levels increase above three times the upper limit of normal. To decrease hypercalcemic risk, patients should be given 1 alpha OH-vitamin D3 derivatives, preferably at night, as an intermittent bolus (intravenous or oral). In dialysis patients, the dialysate concentration of calcium may have to be further decreased in order to prevent hypercalcemia when high doses of oral calcium are necessary to control hyperphosphatemia.
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PMID:Management of hyperphosphatemia in patients with renal failure. 785 19

Orally or parenterally administered sodium is known to increase urinary calcium in experimental animals and humans, and there is well-documented correlation between urinary sodium and calcium in 24-h urine collections from normal subjects and renal stone formers. The correlation between urinary sodium and calcium is generally sodium driven, i.e., it is the sodium load that influences urinary calcium rather than vice versa, but the converse may also occur, as after an oral calcium load or in hypercalcemia. When sodium is the determinant, 100 mmol of sodium takes out approximately 1 mmol of calcium in the urine. When calcium load is the determinant, each millimole of calcium appearing in the urine is associated with an extra 10-20 mmol of sodium. Sodium-dependent calcium loss may continue indefinitely, but calcium-dependent natriuresis is self-limiting. There is a significant correlation between calcium and sodium in fasting urine from both pre- and postmenopausal women, but there is more calcium relative to sodium in postmenopausal women than in premenopausal women. In postmenopausal but not premenopausal women, urinary hydroxyproline is also related to obligatory sodium and calcium output, and restriction of salt intake lowers not only urinary sodium but also calcium and hydroxyproline. There is not only an increase in obligatory calcium excretion at the menopause, but also an increase in the fasting urinary sodium, which in turn accounts for some of the increase in calcium output. This rise in fasting urinary sodium represents a delay in sodium excretion that may have a significant effect on calcium homeostasis.
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PMID:The nature and significance of the relationship between urinary sodium and urinary calcium in women. 836 Jul 90

Gallium nitrate, a group IIIa metal salt, has been found to be clinically effective for the treatment of accelerated bone resorption in cancer-related hypercalcemia and Paget's disease. Here we report the effects of gallium nitrate on osteocalcin mRNA and protein levels on the rat osteoblast-like cell line ROS 17/2.8. Gallium nitrate reduced both constitutive and vitamin D3-stimulated osteocalcin protein levels in culture medium by one-half and osteocalcin mRNA levels to one-third to one-tenth of control. Gallium nitrate also inhibited vitamin D3 stimulation of osteocalcin and osteopontin mRNA levels but did not affect constitutive osteopontin mRNA levels. Among several different metals examined, gallium was unique in its ability to reduce osteocalcin mRNA levels without decreasing levels of other mRNAs synthesized by ROS 17/2.8 cells. The effects of gallium nitrate on osteocalcin mRNA and protein synthesis mimic those seen when ROS 17/2.8 cells are exposed to transforming growth factor beta 1 (TGF beta 1); however, TGF-beta 1 was not detected in gallium nitrate-treated ROS 17/2.8 cell media. Use of the RNA polymerase II inhibitor 5,6-dichloro-1-beta-D-ribofuranosylbenzimidazole demonstrated that gallium nitrate did not alter the stability of osteocalcin mRNA. Transient transfection assays using the rat osteocalcin promoter linked to the bacterial reporter gene chloramphenicol acetyltransferase indicated that gallium nitrate blocked reporter gene expression stimulated by the osteocalcin promoter. This is the first reported effect of gallium nitrate on isolated osteoblast cells.
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PMID:Gallium nitrate regulates rat osteoblast expression of osteocalcin protein and mRNA levels. 838 Dec 50

Experimental studies are frequently carried out using calcium salt treatment in rats. Modifications in plasma calcium levels could suggest important changes in cellular functions, transmitters and drug responses. Changes during continuous maintenance of hypercalcemia could, on the other hand, be different from those produced by an acute increase in calcemia. Nevertheless, to date no specific studies exist which evaluate and compare the modifications in calcemia and other alterations when different methods of administering acute and chronic calcium are used in rats. This paper presents a method for inducing acute hypercalcemia in Sprague-Dawley rats after intraperitoneal administration of different quantities of CaCl2. Different oral calcium treatments to induce chronic hypercalcemia were also evaluated. Hypercalcemia was more consistent when calcium was administered in both the solid and liquid diets. On day 14 of treatment the highest total and ionic plasma calcium levels appeared in rats fed with CaCO3 in the solid diet (4% Ca) and with CaCl2 in the liquid diet (1.5% Ca). With this treatment hypercalcemia was maintained for 2 months.
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PMID:Comparative study of different methods of inducing acute and chronic hypercalcemia in rats. 841 13

Using a strategy based on homology to the bovine parathyroid Ca(2+)-sensing receptor previously identified by us (5), we have recently isolated an extracellular, G protein-coupled Ca2+/ polyvalent cation-sensing receptor, RaKCaR (22), from rat kidney. The localization and physiological role(s) of this receptor in the kidney are not well understood. In the present study, we assessed the distribution of mRNAs for RaKCaR and the parathyroid hormone/parathyroid hormone-related protein (PTH/PTHrP) receptor along the rat nephron by in situ hybridization and reverse transcriptase-polymerase chain reaction of microdissected nephron segments. Our results show that transcripts for both receptors coexpress at glomeruli, proximal convoluted tubule, proximal straight tubule, cortical thick ascending limb, distal convoluted tubule, and cortical collecting duct. In addition, RaKCaR (but not PTH/PTHrP receptor) transcripts were found in the medullary thick ascending limb and outer medullary and inner medullary collecting ducts. These findings raise the possibility of roles for RaKCaR not only in the regulation of divalent mineral reabsorption but also in water reabsorption and urinary concentration. Taken together, our results provide new insights in understanding the effects of hypercalcemia on hormone-stimulated salt and water transport.
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PMID:Localization of the extracellular Ca(2+)-sensing receptor and PTH/PTHrP receptor in rat kidney. 889 27

Polydextrose (CAS no. 68424-04-4) is a water-soluble polymer of glucose that provides to foods the bulk and texture of sucrose. There are two main forms of polydextrose, an acidic form (PD-A) and a neutralized potassium salt (PD-N). Polydextrose is resistant to mammalian metabolic and microbial degeneration, rendering it both low in caloric value and non-cariogenic. Little polydextrose is absorbed intact although some is metabolized by caecal/colonic bacteria. At high enough levels of ingestion, this bacterial metabolism results in flatus, bloating, loose stools and ultimately a frank diarrhoea. Microbial metabolism also produces some volatile fatty acids that are absorbed by the animal and have calorigenic value. The species and dose threshold for persistent loose stools/watery diarrhoea determines the degree of electrolyte loss by the animal. In the dog, an obligate carnivore, sodium-sparing activity by the kidney and concomitant and obligatory calcium reuptake result in a well-defined aetiology of hypercalcaemia and subsequent nephrocalcinosis, particularly for PD-N. Of the species tested, the dog was the most sensitive to this carbohydrate with a no-effect level of 2000 mg/kg body weight/day. Omnivores, including the rat, mouse and monkey, have a no-effect level ranging from 2500 to 10,000 mg/kg body weight/day. No toxicity has been demonstrated in man, although the dose for laxation (to be distinguished from diarrhoea) is approximately 90 g/day (v. sorbitol at 70 g/day). Polydextrose did not show any reproductive toxicity, teratology, carcinogenesis, mutagenicity or genotoxicity. Polydextrose has been approved for food additive use (21 CFR 172.841) in the US, and an "ADI not specified" by the Joint WHO/FAO Expert Committee on Food Additives (JECFA, 1987). It has been approved in over 50 countries around the world and has been used extensively in the diet for over15 years. Specification monographs are published in the Food Chemicals Codex (FCC) (NAS, 1996) and the FAO Compendium (JECFA, 1995). This review provides an overview of the studies and salient data, not previously reported in the scientific literature, which had been submitted to regulatory agencies in support of these approvals.
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PMID:A review of the studies of the safety of polydextrose in food. 1022 45

We report a case of a 23-year-old Japanese woman who had severe hyperparathyroidism associated with chronic renal failure before the start of dialysis treatment. Her chief complaints were swelling and pain in both shoulders. Laboratory examination revealed renal failure (BUN 134 mg/dl, serum Cr 7.3 mg/dl), severe normocytic normochromic anemia (hemoglobin 4.3 g/dl), hypercalcemia (11.8 mg/dl), and hyperphosphatemia (9.7 mg/dl). Serum PTH levels were extremely increased (intact PTH >1,000 pg/ml: normal range 10-50 pg/ml). X-ray examination of the skull and shoulders showed a salt and pepper appearance, and cauliflower-like deformity of the distal end of both clavicles, respectively. Accelerated ectopic calcification was observed in the costal cartilages, internal carotid arteries, and splenic arteries. Ultrasonographic examination revealed enlargement of the four parathyroid glands. Thallium-technetium subtraction scintigraphy of the parathyroid glands showed increased uptake into the upper two. Renal needle biopsy revealed severe impairment of the interstitium and tubules with much milder changes in glomeruli. The etiology of the renal failure could not be identified. Hemodialysis, total parathyroidectomy and auto-transplantation into the forearm were immediately performed. The pathological diagnosis was chief cell hyperplasia of the parathyroid glands. Based on the presence of chronic renal failure, remarkable hyperphosphatemia with mild hypercalcemia, an unusually high level of serum PTH, and accelerated ectopic calcification, the patient was diagnosed to have severe secondary hyperparathyroidism caused by chronic renal failure with major impairment of the renal interstitium and tubules.
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PMID:Severe hyperparathyroidism with hypercalcemia associated with chronic renal failure at pre-dialysis stage. 1042 82

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