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)

Near-term rat fetuses in utero are acidotic and hypoxic, and have high levels of total serum calcium. In the first hour of postnatal life, pO2 and pH increase and pCO2 and calcium fall. Between 1 and 4 h following birth, respiratory gases vary little, whereas pH continues to rise and calcium further declines. By 4 h, newborns reach normal pH levels but are markedly hypocalcemic. It is suggested that the 'hypercalcemia' of intrauterine life is related to acidosis in utero, and that following birth, the initial fall in serum calcium is associated with the blowing off of CO2 and a concomitant rise in pH. The later decline in circulating calcium is independent of alterations in respiratory gases and relates directly to the final correction of neonatal acidosis.
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PMID:pH and the level of calcium in the blood of fetal and neonatal albino rats. 0 63

Light microscopic examination of kidney tissue of guinea pigs exposed to 1.5% CO2, 21% O2, and balance N2 for periods as long as 42 days and of rats exposed to the same CO2 concentrations for up to 91 days showed that the incidence of focal kidney calcification increased with length of exposure. Calcification occurred primarily in the tubules of the renal cortex. Another group of guinea pigs were exposed to 1% CO2, 21% O2, and the balance N2 for periods up to six weeks and were later killed at regular intervals, together with control animals of the same litter. In the exposed animals, arterial PCO2 was elevated by 3-4 mmHg and hydrogen ions by about 4 nmol/liter. The standard bicarbonate level was lowered by 1-1.5 mmol, indicating a lack of renal reabsorption of bicarbonate (HCO3), which in turn placed greater stress on the bone buffer system and apparently caused bone calcium and phosphorus mobilization. Bone calcium and phosphorus levels exhibited a cyclic decrease, which resulted in cyclic hypercalcemia and hyperphosphatemia, after one week and six weeks of exposure to 1% CO2. Kidney calcium content increased significantly after two weeks of exposure (27%) and remained at this elevated level during subsequent exposures between the third and sixth weeks. These findings indicate that once the kidney calcification process has started, kidney mineralization is independent of fluctuations in the blood calcium level. A rise in plasma phosphate level that occurred after one day of exposure could have been a precipitating factor in the calcification process. The small but consistent increases in ionized calcium during a 4-week exposure to 1% CO2 may have stimulated the parathyroid, causing an increased blood calcium level that was independent of the two calcium tides in the blood associated with marked bone calcium loss.
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PMID:CO2-induced kidney calcification. 4 51

An assessment of free and total calcium measurements was made in 691 patients with suspected hypercalcemia or disorders often associated with hypercalcemia. In 18.9% of the 1049 specimens analyzed from nine different patient groups, a different impression of hypercalcemia was obtained depending on whether the free or total calcium was considered. Analysis of the ratio of free to total calcium indicated that there are two main factors which influence the distribution of calcium in the serum of hypercalcemic patients: the concentrations of albumin and parathyroid hormone. A lowered albumin concentration accounted for the altered distribution of calcium in patients with malignancies and partially accounted for the altered distribution in patients postrenal transplantation. In patients with confirmed primary hyperparathyroidism a higher ratio of free to total calcium was found, which could not be explained by alterations in protein, albumin, pH, or CO2 content but was related to parathyroid hormone concentration. Free calcium appears to be a slightly better indicator of elevated calcium states than total calcium. Measurements of free calcium should be particularly useful in patients with altered albumin concentration, with multiple myeloma in whom a calcium-binding protein could be present, after renal transplantation, and with suspected hyperparathyroidism and normal or slightly elevated total calcium values.
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PMID:Relationship of free and total calcium in hypercalcemic conditions. 42 92

The authors compared the presence of conjunctival calcifications in a group of 37 patients undergoing chronic hemodialysis with laboratory findings and radiologic examinations. These calcifications appear to develop in patients suffering from hypercalcemia, particularly when the mathematical product of inorganic calcium and phosphorus (Ca x PO4) exceeds the value of 3.8-4.0. Ocular calcifications are usually asymptomatic although conjunctival inflammation due to crystal deposition, better known as "red eyes", has been reported in uremic patients. This has been noted to improve after the Ca x PO4 product is reduced. Such a conjunctival inflammation has not been reported in patients undergoing chronic hemodialysis and we do not report any case of disturbance due to the presence of conjunctival lesions. These lesions usually occur in the paralimbal conjunctiva, in the limbal area exposed by the interpalpebral fissure. This is thought to be due to the relatively high alkalinity, resulting from the diffusion of CO2 from the exposed surface of the eye, which promotes the deposition of calcium salts. However, the frequent presence of pinguecula, or histologic elastosis, in the eyes of uremic patients with calcifications, suggests a pathogenic role of local degenerative changes as well. Among these 37 patients, 6 underwent a biopsy of the conjunctival lesions, allowing a pathological examination. This permitted the authors to confirm the presence of calcium deposits in the basal lamina of the conjunctival epithelium and also in the sub-epithelial tissue. In every case, a significant degeneration of the elastic tissue of the conjunctiva was found, confirming that this lesion can precede calcium deposition in these particular patients.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Conjunctival calcification in patients in chronic hemodialysis. Morphologic, clinical and epidemiologic study]. 306 62

Calcium citrate was evaluated as a dietary phosphate binder in 81 patients with end-stage renal disease. These patients were grouped as follows: Group 1, 43 patients who were treated with calcium citrate; and Group 2 (the control group), 38 patients who were treated with aluminum-containing compounds. Blood chemistries were measured monthly and medications adjusted to maintain the following levels: serum calcium, greater than 9 mg/dl; serum phosphorus, less than 5.5 mg/dl; and total CO2 content, greater than 22 mmol/liter. At the end of the treatment period, the following serum values were obtained in Groups 1 and 2, respectively: calcium, 9.6 +/- 1.2 mg/dl (mean +/- SD) versus 8.9 +/- 0.8 mg/dl (P less than 0.001); phosphorus 5.5 +/- 1.9 mg/dl versus 7.0 +/- 2.3 mg/dl (P less than 0.005); and calcium-phosphate product, 52 +/- 18 versus 61 +/- 21 (P less than 0.05). Differences in alkaline phosphatase, total CO2 content, and C-terminal parathyroid hormone (C-PTH) values were not statistically significant between the two groups. Fifteen patients in Group 1 were then switched to aluminum-containing compounds and chemistries were compared one month later. During calcium citrate therapy, serum calcium was significantly higher, while C-PTH and serum alkaline phosphatase were significantly reduced. No difference was noted in serum phosphorous and total CO2 content. A questionnaire completed by 17 patients in Group 1 documented excellent patient tolerance to calcium citrate. Hypercalcemia (greater than 10.5 mg/dl) was the only significant complication, but only one patient became symptomatic. We conclude that, as a phosphate binder, calcium citrate is at least as effective as aluminum-containing compounds.
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PMID:Calcium citrate, a nonaluminum-containing phosphate-binding agent for treatment of CRF. 328 Aug 55

The urine-concentrating mechanism was studied in chronic hypokalemia (seven dogs given a low K(+), high NaCl diet plus injections of deoxycorticosterone acetate [DOCA]) and chronic hypercalcemia (seven dogs given vitamin D). In the potassium-depleted dogs, muscle, serum, and urine K(+) fell markedly, but glomerular filtration rate (GFR) and body weight varied little. Maximum urine osmolality fell in all dogs (mean decrease = 45%); however, solute-free water reabsorption (T(CH2O)) at high rates of solute excretion remained normal in three of four dogs. Free water excretion (C(H2O)) increased normally or supranormally as a function of increasing Na(+) delivery to Henle's loop in six dogs so tested. Hypercalcemia of several weeks duration caused a decrease in both GFR (mean 36%) as well as in maximum urine osmolality (mean 57%). Maximum T(CH2O) was not invariably depressed; in fact, when the values were adjusted for the reduced number of functioning nephrons (T(CH2O)/C(In)), four of seven studies were normal. C(H20)/C(In) increased normally (or supranormally) with increasing fractional Na delivery to Henle's loop in four of five dogs.I conclude that the lowered maximum urine osmolality in these hypokalemic and hypercalcemic dogs was not related to abnormal water reabsorption from the collecting ducts. Although not specifically measured in this study, it is very likely that solute accumulation in the renal medulla was reduced. This probably was not caused by abnormal delivery of sodium to, nor reabsorption of sodium from Henle's loop. It is likely that a more subtle defect exists in the countercurrent mechanisms for establishing a steep concentration gradient in the renal medulla. In the few hypercalcemic dogs in whom GFR was very low, I believe that injury to, and blockage of medullary tubules could account for most of the reduction in maximum U(Osm). Although not specifically ruled out, there is no evidence here to suggest that high serum Ca(+) or low serum K(+) per se causes a defect in sodium and water reabsorption in the mammalian nephron.
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PMID:Urine concentration and dilution in hypokalemic and hypercalcemic dogs. 543 74

Determining ionized calcium after CO2 equilibration of serum with subsequent electronic conversion to pH 7.40 (Ca2+corr) gives a practicable value for the diagnosis of calcium metabolism. "Anaerobic" sampling, necessary for the measurement of the actual calcium ion concentration, is obviated. Protein or albumin concentration in serum and complex-bound calcium do not interfere. Comparison of sera from 54 patients with bone metastases or myeloma, as well as from 300 patients with other diseases, indicate that the sensitivity of Ca2+corr in the diagnosis of hypercalcaemia is about twice or three times that of total calcium and that the latter's specificity - at least when ignoring protein concentration - is unsatisfactory with 18-45% "falsely" reduced values.
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PMID:[Total calcium or ionized calcium? A comparative study]. 670 5

The effects of two models of chronic hypercalcemia on renal acid-base metabolism were studied in rats. In the first series of experiments, rats were rendered hyperparathyroid by the autologous grafting of 20 to 24 parathyroid glands into a single recipient. Hypercalcemia (5.48 +/- 0.03 mEq/liter in high PTH animals, 4.96 +/- 0.06 mEq/liter in pair-fed controls, P less than 0.001) occurred as did metabolic alkalosis (plasma total carbon dioxide 25.44 +/- 0.47 mEq/liter vs. 23.84 +/- 0.57 in controls, P less than 0.05). The rise in total carbon dioxide was in part a renal tubular effect since urine pH was lower (6.77 +/- 0.04 vs. 6.95 +/- 0.04, day 5, P less than 0.01) bicarbonaturia less (165 +/- 26 vs. 283 +/- 28 mumoles/24 hr, day 5, P less than 0.01) and titratable acid (TA) excretion increased (164 +/- 43.4 vs. 48.2 +/- 2.53 mEq/24 hr, day 5, P less than 0.01) in hyperparathyroid animals vs. pair-fed controls. To test the specific role of hypercalcemia versus PTH in this effect, normoparathyroid animals were treated with 1.25 (OH)2 vitamin D3 or SHAM injected, Urinary cAMP was reduced in these animals (0.030 +/- 0.004 mumoles/8 hr) compared to hyperparathyroid rats (0.055 +/- 0.01 mumoles/8 hr P less than 0.05) suggesting differences i PTH levels. Hypercalcemia occurred in 1,25(OH)2 vitamin D treated animals as did increased plasma total carbon dioxide and urinary TA while urinary bicarbonate excretion and urinary pH were reduced. Because hypercalcemia was associated with elevated total carbon dioxide in both models, it is proposed that chronic hypercalcemia stimulated renal acid excretion and in a sustained manner results in metabolic alkalosis, at least in part, on a renal basis.
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PMID:Effects of two models of hypercalcemia on renal acid base metabolism. 689 40

The effect of phosphate deprivation on urinary acidification was investigated in rats fed a phosphate-deficient diet and in control rats fed the same diet supplemented with phosphate. Phosphate-deprived animals developed hypophosphatemia, hypercalcemia, and hypophosphaturia, but failed to develop hyperchloremic metabolic acidosis following 30 or 60 days of phosphate deprivation. Baseline urine pH was significantly higher in phosphate-deprived rats than in controls, but baseline urine HCO3 excretion was not significantly different between the two groups. The pattern of HCO3 reabsorption in phosphate-deprived rats was identical to that of controls at both low and high plasma HCO3 levels. During chronic NH4Cl administration, both 30- and 60-day phosphate-deprived rats had a sigificantly higher minimal urine pH and lower titratable acid and net acid excretion than seen in controls. NH4 excretion was significantly lower than controls in the 60-day phosphate-deprived rats only. During Na2SO4 administration the minimal urine pH was significantly lower in controls than in phosphate-deprived rats, but there was overlap of urine pH values. At comparable levels of urine pH, NH4 excretion was significantly lower in phosphate-deprived rats than in controls. Phosphate-deprived rats were able to raise urine-blood CO2 pressure to the same levels as controls during both HCO3 loading and Tris buffer administration. Phosphate-deprived rats had greater extrarenal buffering capacity than controls as evidenced by a lower decline in blood pH and HCO3 during HCl infusion in phosphate-deprived rats. These data demonstrate that phosphate deprivation is associated with distal acidification defect, impaired NH3 excretion, and increased extrarenal buffering capacity. The increased availability of buffer in phosphate deprivation may play an important role in acid-base homeostasis in this condition.
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PMID:Distal acidification defect induced by phosphate deprivation. 741 57

Even small losses of gastrointestinal secretions when combined with reduced intake of electrolytes may seriously disturb electrolyte balance. Knowledge of the ionic composition of secretions lost is essential in planning therapy. Loss of gastric contents usually results in excessive loss of chloride; in achlorhydria this is not the case. Loss of sodium and potassium may be large in either case and is often underestimated. Small bowel obstruction results in a more balanced loss of electrolyte which may not affect acidbase balance greatly. In diarrhea loss of base predominates, and may result in a large potassium deficit. Steatorrhea due to nontropical sprue results in large fecal losses of sodium, potassium and chloride, in addition to the large calcium and phosphorus loss. In chronic peptic ulcer excessive ingestion of milk and absorbable alkalies may result in hypercalcemia, azotemia and alkalosis, without hypercalciuria. Since renal function is usually adequate in the milder gastrointestinal disturbances, electrolyte and fluid replacement should be started early, and can be guided by generally available laboratory tests, the carbon dioxide combining power and serum chloride levels, provided the predominate ionic loss is known and potassium deficiency remedied. If this is done, development of serious fluid and electrolyte deficits can usually be prevented.
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PMID:Electrolyte balance in gastrointestinal disease. 1326 Sep 27

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