Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

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

Investigation of multiple serum and urinary factors in 44 patients with calcium urinary stone disease confirmed a number of defects that have been described previously: elevation of mean serum calcium and uric acid above normal, and depression of mean serum magnesium. Urinary excretion of calcium and uric acid was increased and was increased and was probably related to food ingestion. Urinary magnesium also increased after eating but less than calcium, with the result that for most patients the magnesium to calcium x 100 ratio approached levels observed in stone formation. Urinary oxalate excretion was constant during the entire observation period and apparently was not affected by ingestion of a defined diet. Nine additional patients had persistent hypercalcemia owing to hyperparathyroidism (5 confirmed, 1 suspected), malignancy (2) and drug ingestion (1). Metabolic evaluation of patients with calcium urinary calculi continues to contribute to decisions regarding their best therapeutic regimen.
...
PMID:Contribution to therapeutic decisions of ratios, absolute values and other measures of calcium, magnesium, urate or oxalate balance in stone formers. 95 3

We have previously shown the synergistic interaction between fructose and magnesium (Mg) deficiency on renal calcification of female rats. The purpose of the present study was to determine whether the calcification formed in the kidneys of female rats fed an Mg-deficient fructose diet is due to phosphate or oxalate precipitates of calcium. The rats were divided into two dietary groups: fructose without Mg and starch with Mg. Rats were fed their respective diets for 9 weeks, and 24 h urine was collected for measuring urinary output, pH, Mg and calcium (Ca). The rats were then fasted overnight and after decapitation, blood was immediately collected for measuring plasma Ca and Mg, and the kidneys were removed. Left kidneys were used to determine their Mg and Ca contents, and right kidneys were dissected and fixed in neutral buffered formalin. Formalin-fixed specimens for microscopy were processed in paraffin using conventional procedures. Histochemical analysis was conducted by staining serial paraffin sections with haematoxylin, eosin, PAS-Schiff, alcian blue and trichrome. The sections were stained by the von Kossa method for calcium phosphate and by the silver hydroperoxide method for calcium oxalate. Only calcium phosphate was detected in the corticomedullary junction of the kidneys of female rats fed Mg-deficient fructose. The hypercalcaemia, hypercalciuria, and hypomagnesuria observed in the fructose group may cause calcium phosphate crystallization. A possible mechanism for the interaction between magnesium deficiency, fructose and oestrogen may be through parathyroid hormone which increases tubular fluid Ca and phosphorus (TF[Ca]x[P]). Further studies are required to prove the mechanism proposed here.
...
PMID:Fructose precipitates calcium phosphate in the kidneys of female rats fed magnesium-deficient diets. 179 51

In this brief review of various hypercalcemic disorders and the likelihood of renal calculus formation, it is clearly evident that renal calculi occur much more often in hyperparathyroidism than in the other hypercalcemic states. Dystrophic calcification and nephrocalcinosis are common to all of the hypercalcemic disorders, including hyperparathyroidism, when the hypercalcemia is marked and the limit of solubility of calcium and phosphate in serum is approached. Interestingly, in sarcoidosis there are calcium oxalate crystals in variously distributed sarcoid granuloma, and the renal calculi are composed of calcium oxalate. By contrast, in hyperparathyroidism, the calculi composed of calcium phosphate predominate. This indicates a subtle and as yet undefined alteration in oxalate metabolism in sarcoidosis. An increase in urine pH occurs in hyperparathyroidism, and this enhances formation of crystalline calcium phosphate. However, the striking disparity between the frequency of calculus formation in hyperparathyroidism and that in other hypercalcemic disorders, several of which may be of relatively long duration, suggests that there indeed may be increased promoters of crystal formation in the urine of hyperparathyroid patients.
...
PMID:Urinary calculi in hypercalcemic states. 208 14

Idiopathic hypercalciuria, defined as the urinary excretion of more than 300 mg. calcium per day in men or more than 250 mg. calcium per day in women, or more than 4 mg. calcium per kg. per day, is observed in about 50 per cent of the patients with calcium oxalate/apatite nephrolithiasis and is one of the risk factors for stone formation. These patients do not exhibit hypercalcemia, elevated serum parathyroid hormone concentrations or urinary cyclic adenosine monophosphate excretion nor clinical evidence of sarcoidosis, other granulomas or a malignancy. Hypophosphatemia may be present. Augmented rates of intestinal absorption of dietary calcium account for most of the increments in urinary calcium. Serum 1,25-dihydroxyvitamin D concentrations are in the upper normal range or elevated among many patients and are normal but not suppressed in the others. Activation of 1,25-dihydroxyvitamin D formation may be secondary to hypophosphatemia or other, as yet undefined, factors. Since, 1,25-dihydroxyvitamin D apparently can up-regulate its own receptor, small increments in its synthesis and blood levels could amplify the effect of the hormone to stimulate intestinal calcium absorption. Calcium balances are slightly but significantly negative and urinary hydroxyproline excretion may be increased so that a generalized disorder of calcium homeostasis also involving bone may be present. Additional studies are required to determine the genetic basis for the occurrence of idiopathic hypercalciuria in families, the cause of greater expression of idiopathic hypercalciuria in men and whether environmental factors (high dietary sodium chloride, protein and purified carbohydrate intakes) contribute to the expression of idiopathic hypercalciuria. Although thiazide diuretics, inorganic phosphate, magnesium hydroxide and potassium citrate have provided effective therapy, prospective studies are needed to determine optimum therapy and the optimum duration of treatment.
...
PMID:Idiopathic hypercalciuria. 264 29

The mechanism of stone formation in the urinary tract is reviewed. Diet, urinary tract infection and metabolic disorders account for the different epidemiological patterns of stone formation. The diagnosis and management of renal tract calculi are discussed. Calcium stones are associated with hypercalciuria, urine acidification defects, the use of furosemide in premature babies, hypercalcaemia, hyperoxaluria, hyperuricosuria, an alkaline urine and hypocitraturia. Uric acid stones occur in acid urine, from increased purine synthesis with lympho- or myeloproliferative disorders or from several inborn errors of purine metabolism which can also cause xanthine or dihydroxyadenine stones. Cystinuria, inherited as an autosomal recessive disorder is best treated with a low sodium diet, a fluid intake exceeding 40 ml/kg per day maintaining urine pH between 7.5 and 8 and, if necessary, with oral penicillamine. Oxalate stones occur in relation to diet, bowel disease and primary inherited defects in oxalate metabolism. Urinary tract infection causing struvite and carbonate apatite formation is the commonest cause of stones in Europe.
...
PMID:Urolithiasis in children: current medical management. 270 15

Primary hyperparathyroidism resulted in calcium urolith formation and calcium nephropathy in 2 dogs. Uroliths composed of calcium phosphate were surgically removed from the bladder of one dog 3 months after surgical removal of a parathyroid adenoma. Five years later, hypercalcemia and urolithiasis had not recurred. In a second dog, calcium oxalate renal and bladder uroliths remained unchanged in size at 11 months after removal of a parathyroid adenoma. The possibility of primary hyperparathyroidism should be considered in any dog with calcium urolithiasis.
...
PMID:Calcium urolithiasis in two dogs with parathyroid adenomas. 369 84

Seventeen patients who recurrently formed idiopathic calcium kidney stones (SF) and 25 age- and sex-matched healthy blood donors (H) were challenged by an oral calcium load (1 g) after an overnight fast. Their usual diet was not changed before the test. Urine samples were taken before, 2 1/2, and 4 h after the calcium load. A blood sample was drawn 3 3/4 h after calcium loading. Before and 2 1/2 h after calcium dosage urinary measurements of calcium, magnesium, phosphate, oxalate, uric acid, and creatinine did not reveal any differences between SF and H. According to the calciuria after 4 h SF were separated in normocalciurics (NCSF) and hypercalciurics (HCSF). Nine-tenths of the NCSF had higher serum ionic calcium levels than H after calcium load (P less than 0.001), whereas HCSF were not different from H. Serum phosphate in SF was lower than in H (P less than 0.001). Carboxy-terminal parathormone, measured in 3 NCSF and 2 HCSF, was normal. Depending on the calciuria or calcemia 4 h after an oral calcium load, 16 of 17 SF showed a metabolic abnormality (hypercalcemia or hypercalciuria). It is concluded that intestinal calcium absorption in SF might be increased to variable rates.
...
PMID:[Peroral calcium administration test with free diet in idiopathic calcium nephrolithiasis--possibilities and limits]. 378 54

Using the ambulatory protocol previously described, 241 patients with nephrolithiasis were evaluated. They could be categorized into 10 groups from the results obtained. Absorptive hypercalciuria type I (87 per cent male) comprised 24.5 per cent and was characterized by normocalcemia, normal fasting urinary calcium (less than 0.11 mg/100 ml glomerular filtration), an exaggerated urinary calcium following an oral calcium load (greater than 0.20 mg/mg creatinine), normal urinary cyclic adenosine monophosphate (AMP) (less than 5.4 nmol/100 ml glomerular filtration) and serum parathyroid hormone (PTH), and hypercalciuria (greater than 200 mg/day during a calcium- and sodium-restricted diet). Absorptive hypercalciuria type II (50 per cent male) accounted for 29.8 per cent; its biochemical features were the same as those for absorptive hypercalciuria type I, except for normocalciuria during a restricted diet and low urine volume (1.42 +/- 0.55 SD liter/day). Renal hypercalciuria (56 per cent male), disclosed in 8.3 per cent, was represented by normocalcemia and high values for fasting urinary calcium (0.160 +/- 0.054 mg/100 ml glomerular filtration), urinary cyclic AMP (6.80 +/- 2.10 nmol/100 ml glomerular filtration) and serum PTH. Primary hyperparathyroidism (57 per cent female), accounted for 5.8 per cent, typically included hypercalcemia, hypophosphatemia, hypercalciuria and high urinary cyclic AMP. Hyperuricosuric calcium urolithiasis (100 per cent male) comprised 8.7 per cent, and was characterized by hyperuricosuria (776 +/- 164 mg/day) and urinary pH exceeding pK for uric acid (5.91 +/- 0.33). In enteric hyperoxaluria (60 per cent female), encountered in 2.1 per cent of cases, urinary oxalate was increased (6.29 +/- 13.2 mg/day). Noncalcium-containing stones were found in 2.1 per cent of the patients with uric acid lithiasis (100 per cent male) and in another 2.1 per cent of the patients with infection lithiasis (60 per cent female). These conditions were typified by low urinary pH (5.29 +/- 0.12) and high urinary pH (6.69 +/- 1.16), respectively. Renal tubular acidosis was found in one patient (male, 0.4 per cent). In 10.8 per cent of the patients (81 per cent male), no metabolic abnormality could be found, although urine volume was low (1.41 +/- 0.51 liter/day). Hypercalciuria could not be differentiated between absorptive hypercalciuria and renal hypercalciuria in 5.4 per cent of the patients. Thus, this ambulatory protocol disclosed a physiologic disturbance in nearly 90 per cent of the cases and provided a definitive diagnosis in 95 per cent of the patients.
...
PMID:Ambulatory evaluation of nephrolithiasis. Classification, clinical presentation and diagnostic criteria. 624 14

A series of 178 urinary stones is analysed qualitatively during a three year period from 1980 to 1982. The majority (96%) of stones orginate from the upper tract. Calcium oxalate stones are the commonest entity seen in the western countries but less than 20% of such stones occur locally. A large proportion consists of mixed stones and one third are infective as triple phosphate is present. 20% contain urate as a constituent whereas relatively pure urate stones constitute 4%. The true incidence of pure urate stones is higher (about 10%) as we have been dissolving them with alkalinisation of urine without surgery. Idiopathic hypercalciura occurs in 11.8% and none has persistent hypercalcaemia. Hyperuricosuria which is commoner, occurs in 24% of patients. It is important to identify this group as it results in the formation of metabolically active stones, and they can be treated with allopurinol to prevent recurrence of stones.
...
PMID:Stone composition and metabolic study in urinary calculous disease. 652 46

A 13-year-old boy with primary hyperoxaluria and a successful renal allograft developed symptomatic bone disease, hypercalcemia, and hypercalciuria. Transiliac bone biopsy revealed calcium oxalate crystals in the marrow within mononuclear phagocytes and multinucleated giant cells. Deep resorption bays were seen adjacent to these crystal-cell aggregates. Serum 1,25-(OH)2-vitamin D (calcitriol) and iPTH concentrations were low or normal. We suggest that hypercalcemia results from macrophage-mediated bone resorption initiated by Ca oxalate crystal deposition.
...
PMID:Calcium-oxalate-crystal-induced bone disease. 704 38


1 2 3 4 Next >>

---