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Query: UMLS:C0020438 (
hypercalciuria
)
2,502
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
1. To determine the relationships between parathyroid hormone activity and long-term sodium fluoride therapy in osteoporosis, cytochemical bioassays (for biologically active parathyroid hormone) were performed in 22 osteoporotic control patients and in 18 patients after 15 +/- 10 months of treatment (60 mg of sodium fluoride daily). Ten patients were studied longitudinally by repeated metabolic balances and were therefore common to both groups. All patients were receiving mineral supplements. 2. Cross-sectional data showed a fourfold mean increase in biologically active parathyroid hormone on fluoride treatment (P less than 0.005) together with a 51% increase in serum alkaline phosphatase (P less than 0.005). Longitudinal data showed, in addition, a significant increase in the calcium balance of 2.4 +/- 1.2 (SEM) mmol daily (P less than 0.05) and the development of a positive phosphorus balance (P less than 0.02). 3.
Fluoride
-treated patients were then analysed in two groups according to the level of biologically active parathyroid hormone. Thirty-two per cent of values were above the upper limit of normal (18 pg/ml). The mean serum alkaline phosphatase level in this group showed no elevation above that of the control patients, the overall rise being accounted for entirely by patients with normal levels of biologically active parathyroid hormone. High levels of biologically active parathyroid hormone were also associated with relative hypophosphataemia (P less than 0.01), relative
hypercalciuria
(P less than 0.05) and an increased urine/faecal calcium ratio (P less than 0.025). 4. Results show that long-term fluoride and calcium therapy increase biologically active parathyroid hormone in osteoporosis and that excessive parathyroid hormone activity may account for certain features of the refractory state.
...
PMID:Fluoride therapy and parathyroid hormone activity in osteoporosis. 216 71
Antacid ingestion may lead to side-effects related to their chemical composition. Aluminum hydroxide may cause the phosphate depletion syndrome even during short-term administration of high doses in patients at high risk, such as alcoholics. Long-term intake may lead to bone demineralization and to osteomalacia.
Fluoride
complexing in the gut and prevention of fluoride absorption may be an additional factor. The clinical relevance of aluminum absorption in patients with normal renal function is not clear. In contrast, in patients with renal failure, aluminum hydroxide ingestion may contribute to an increasing hyperaluminemia. Hyperaluminemia and tissue deposition of aluminum in these patients may contribute to the dialysis-associated encephalopathy. Magnesium hydroxide causes an alkalinization of the urine due to magnesium absorption and urinary excretion. Thus, in renal insufficiency, a life-threatening hypermagnesemia may develop if magnesium-aluminum-containing antacids are prescribed. The milk-alkali syndrome, rarely observed nowadays, may be caused by calcium carbonate- and sodium bicarbonate-containing antacids.
Hypercalciuria
and alkaluria predispose to nephrolithiasis. The possibility that these disturbances in mineral metabolism will develop in patients with normal renal function is unlikely unless there is an abuse of these "over the counter" antacids.
...
PMID:Antacid therapy--changes in mineral metabolism. 629 43
