UMLS:C0020438 - FACTA Search

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Query: UMLS:C0020438 (hypercalciuria)
2,502 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypercalciuria and bone disease are frequently associated with total parenteral nutrition (TPN) in children and adults. The aim of this study was to assess the influence of calcium, phosphorus, and vitamin D intakes on hypercalciuria. We observed seven children aged 4-13 years receiving home cyclic TPN for 4 consecutive years. Calcium and phosphorus intakes, constant during the 1st year, were reduced during the last 3 years to 50 and 30% of the initial intakes, and vitamin D was stopped during the 3rd and the 4th years. All children had hypercalciuria and one of them had acute painful osteopenia and nephrocalcinosis at the beginning of the study. Hypercalciuria was corrected and painful bone disease did not occur during the three following years, with TPN daily intakes of calcium, 0.35 mmol/kg, and phosphorus, 0.70 mmol/kg. Cessation of vitamin D administration during 48 months led to no further decrease in calciuria nor to the occurrence of clinical or biological signs of vitamin D deficiency. However, we hypothesize that excessive vitamin D intake may have facilitated the occurrence of the TPN-related bone disease in one patient and should be avoided. The possible role of parenteral aluminum loading is also discussed.
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PMID:Calcium metabolism in children during long-term total parenteral nutrition: the influence of calcium, phosphorus, and vitamin D intakes. 177 10

We present what we believe is the first case of rickets following prolonged treatment with aluminum containing antacids that bind phosphate, in an 18-year-old mentally retarded boy with cerebral palsy and spastic quadriplegia. As expected, serum calcitriol was increased and urinary phosphate excretion was very low. However, in contrast to all published cases of antacid induced hypophosphatemic osteomalacia in adults, despite a substantial increase in bone resorption reflected by urinary total hydroxyproline excretion, urinary calcium excretion was low rather than high, and significant hypocalcemia occurred after antacids were ceased and a phosphate salt administered. We suggest that the skeleton was so under-mineralized because of growth during prolonged phosphate deficiency, possibly augmented by anticonvulsant administration and immobilization, that increased bone resorption did not release enough calcium to cause hypercalciuria, or to prevent hypocalcemia during resumption of normal mineralization.
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PMID:Hypophosphatemic rickets with hypocalciuria following long-term treatment with aluminum-containing antacid. 179 81

Home parenteral nutrition has prevented malnutrition in patients who cannot maintain adequate nutrition by enteral feedings alone. The risk of bone and mineral abnormalities in these patients is significant for several reasons. Pre-existing skeletal disease can occur from factors known to affect the population at large as well as from malnutrition, malabsorption, and corticosteroid use related to the underlying disease process. Long-term use of infused nutrients and potential toxins can further alter bone turnover. Hypercalciuria is frequently present during HPN, yet its etiology is poorly defined. Parenteral nutrition admixture concentrations of calcium, phosphorus, protein, sodium, and dextrose may all play a role. Any development of acidosis can certainly aggravate hypercalciuria, which may be an indirect marker of abnormal bone turnover. Although increased protein intake can promote the development of acidosis-induced calciuresis, infused phosphorus and acetate can help reduce calcium excretion. Parenteral nutrition contamination by aluminum can cause a spectrum of osteomalacic bone disease similar to aluminum-associated changes seen in renal failure patients. Even with recent attempts to remove aluminum from the parenteral admixture, low-turnover bone disease can still occur. At present, HPN-related bone disease is a poorly understood entity because of its multifaceted nature. Patients receiving long-term parenteral nutrition should be considered to have an increased risk for the development of metabolic bone disease. Early monitoring for and treatment of bone disease should be considered in all patients receiving HPN.
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PMID:Long-term parenteral nutrition and metabolic bone disease. 211 69

Aluminum (Al) contaminates total parenteral nutrition (TPN) solutions given to infants, and high levels of Al have been demonstrated in their bone, serum, and urine. However, it is uncertain whether Al at current levels of contamination of TPN solutions is harmful to bone. We report an 8-month-old infant who developed osteopenic bone disease while receiving TPN, which did not respond to large amounts of calcium, phosphate, and vitamin D2. Serum and urine Al levels were greatly elevated and fell after a short course of deferoxamine. However, shortly after treatment began, serum calcium levels fell in the absence of hypercalciuria. We postulate that chelation of Al from this patient's bone permitted increased bone calcium uptake. This would suggest that Al at current levels of contamination of TPN solutions may impair bone calcium uptake and thus contribute to the pathogenesis or exacerbation of TPN-related osteopenia.
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PMID:Hypocalcemia complicating deferoxamine therapy in an infant with parenteral nutrition-associated aluminum overload: evidence for a role of aluminum in the bone disease of infants. 251 68

The physiopathology of metabolic bone disease described during long term total parenteral nutrition is poorly understood. We therefore prospectively assessed bone status of seven adult patients [mean age, 42 +/- 16 (SD) yr] treated with cyclic total parenteral nutrition for a period of 7 +/- 2 (SD) months. All patients had hypercalciuria (381 +/- 96 mg/day) associated with negative calcium balance in six of seven patients (-49 +/- 120 mg/day). A correlation was found (r = +0.74, P less than 0.01) between protein intake and calciuria. Two patients developed slight transient hypercalcemia. Serum magnesium and phosphate levels remained within the normal range. A high aluminum load due to the added phosphate solution (253 +/- 84 micrograms/day) was associated with increased serum aluminum levels (52 +/- 38 micrograms/liter). Normal serum levels of 25 hydroxyvitamin D (12 +/- 7 ng/ml) and low normal 1,25 dihydroxyvitamin D levels (21 +/- 8 pg/ml) were found. Serum PTH was normal in five and increased in two of the seven patients. However, in these two patients skeletal unresponsiveness to the action of PTH was found. A new histomorphometric picture of bone was observed; it consisted of a markedly reduced bone formation with subnormal osteoclastic activity leading to a low trabecular bone volume. No osteomalacia was found. The aluminum load may have played a role in these bone defects. The hypercalciuria with negative calcium balance was attributed to the cyclic amino-acid delivery during TPN.
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PMID:Multifactorial low remodeling bone disease during cyclic total parenteral nutrition. 391 65

The changes in serum calcium and the renal handling of this ion were evaluated during phosphate depletion. 96 renal clearance studies were carried out in 10 dogs before and after prolonged phosphate depletion (30-160 days) and after repletion. Depletion was produced by reducing phosphate intake and administering aluminum hydroxide gel while intakes of sodium, calcium, and magnesium were constant. With phosphate depletion, serum phosphorus fell to less than 1.0 mg/100 ml and diffusible serum calcium either remained unchanged or rose transiently. Glomerular filtration rate (GFR) fell by 15 to 53%. Despite the reduced filtered load of calcium, its fractional excretion increased in most experiments. This hypercalciuria was not dependent upon changes in sodium or magnesium excretion, or the urinary concentration of complexing anions, and persisted after sodium restriction. Phosphate repletion reversed the effects on GFR and calcium excretion. The intravenous infusion of small quantities of phosphate (0.04 mmole/min) into either intact or thyroparathyroidectomized (T-PTX), phosphate-depleted animals caused a significant reduction in fractional excretion of calcium, but the intrarenal infusion of 0.02 mmole/min of phosphate into one kidney failed to produce an ipsilateral effect. The administration of parathyroid extract reduced fractional calcium excretion, but the latter remained significantly elevated. After T-PTX, fractional calcium excretion did not increase in the phosphate-depleted animals. Furthermore, serum calcium was normal after T-PTX until serum phosphorus increased slightly, and only then did hypocalcemia develop. These observations indicate that (a) phosphate depletion produces hypercalciuria through a reduction in tubular reabsorption of calcium which is not due to changes in the tubular reabsorption of other ions; this effect is not reversed by the direct intrarenal infusion of phosphate; (b) a state of functional hypoparathyroidsm occurs during phosphate depletion which may, in part, cause reduced tubular reabsorption of calcium; (c) other extra renal mechanism(s), possibly related to events occurring in bone as a result of phosphate depletion, may have an effect on urinary calcium excretion; and (d) in the phosphatedepleted state, parathyroid hormone is not required for the maintenance of a normal level of serum calcium.
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PMID:Changes in serum and urinary calcium during phosphate depletion: studies on mechanisms. 542 13

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.
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PMID:Antacid therapy--changes in mineral metabolism. 629 43

A 60-year-old woman was evaluated for bone pain and incapacitating weakness. Initial laboratory studies showed a serum calcium level of 10.1 mg/dL, severe hypophosphatemia (1.1 mg/dL), and an elevated alkaline phosphatase level. X-ray films showed changes consistent with osteomalacia. Further studies revealed hypercalciuria (448 mg/24 hr) but absent urinary phosphorus. These data indicated phosphate malabsorption. Excessive use of an aluminum hydroxide-containing antacid was the cause of this patient's failure to absorb dietary phosphate. The features of this syndrome are reviewed to increase physicians' awareness of this illness, which occurs particularly in the elderly and is easily treated.
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PMID:Osteomalacia and weakness from excessive antacid ingestion. 743 92

Burn patients are at risk for bone disease due to aluminum (Al) exposure from use of antacids and albumin, partial immobilization, and increased production of endogenous glucocorticoids. Moreover, severely burned children are growth impaired up to 3 years after the burn. To determine the extent of bone disease, we studied nine men and three women, ages 18-41 years, with greater than 50% body surface area burn. Seven patients underwent iliac crest bone biopsy following double tetracycline labeling, one additional patient expired after a single label, and three others had postmortem specimens obtained for quantitative Al only. Serial serum and urine samples were obtained weekly until biopsy or death. All biopsied patients had reduced bone formation and osteoid area, surface, and width, with mineral apposition rate, osteoblast surface, and osteoclast number with normal eroded surfaces compared to age- and sex-matched normal ambulatory volunteers. Burn patients also had reduced bone formation, mineral apposition rate, osteoid area, and surface compared to age-matched volunteers at short-term bed rest. Serum levels of osteocalcin were low. Most patients had mild hypercalcemia but only a third had hypercalciuria. All patients had elevated Al in blood or urine; urine Al correlated inversely with serum osteocalcin. In 60% significant bone Al was detectable by stain or quantitation. Our data are compatible with burn patients having markedly reduced bone turnover. Al loading, partial immobilization, endogenous corticosteroids, and cytokine production may be among the etiologic factors.
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PMID:Bone disease in burn patients. 845 88

A 3-month-old premature infant presented with a "soft skull." Clinical and radiologic findings confirmed the diagnosis of rickets. Biochemistry revealed normal serum parathyroid hormone (PTH) and undetectable urine phosphate. These findings combined with a history of 5-6 weeks' treatment with high-dose aluminum-rich antacid established the diagnosis of antacid-induced rickets. Discontinuation of the medicine combined with phosphate and vitamin D supplementation resulted in quick resolution of all clinical, radiologic, and biochemical abnormalities. Our patient demonstrates that in premature infants antacid-induced rickets can develop within a few weeks; normal serum PTH concentration and hypophosphaturia are highly indicative of the diagnosis, and contrary to the situation in adults in whom hypercalciuria has been often described, in infants hypocalciuria is more commonly observed. Pediatricians should avoid or minimize the use of aluminum-containing antacids, and when used, carefully monitor mineral metabolism.
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PMID:Antacid-induced rickets in infancy. 1149 Nov 34

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