UMLS:C0024523 - FACTA Search

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Query: UMLS:C0024523 (malabsorption)
7,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Osteoporosis and magnesium (Mg) deficiency often occur in malabsorption syndromes such as gluten-sensitive enteropathy (GSE). Mg deficiency is known to impair parathyroid hormone (PTH) secretion and action in humans and will result in osteopenia and increased skeletal fragility in animal models. We hypothesize that Mg depletion may contribute to the osteoporosis associated with malabsorption. It was our objective to determine Mg status and bone mass in GSE patients who were clinically asymptomatic and on a stable gluten-free diet, as well as their response to Mg therapy. Twenty-three patients with biopsy-proven GSE on a gluten-free diet were assessed for Mg deficiency by determination of the serum Mg, red blood cell (RBC) and lymphocyte free Mg2+, and total lymphocyte Mg. Fourteen subjects completed a 3-month treatment period in which they were given 504-576 mg MgCl2 or Mg lactate daily. Serum PTH, 25-hydroxyvitamin D, 1,25-dihydroxyvitamin D and osteocalcin were measured at baseline and monthly thereafter. Eight patients who had documented Mg depletion (RBC Mg2+ < 150 microM) underwent bone density measurements of the lumbar spine and proximal femur, and 5 of these patients were followed for 2 years on Mg therapy. The mean serum Mg, calcium, phosphorus and alkaline phosphatase concentrations were in the normal range. Most serum calcium values fell below mean normal and the baseline serum PTH was high normal or slightly elevated in 7 of the 14 subjects who completed the 3-month treatment period. No correlation with the serum calcium was noted, however. Mean serum 25-hydroxyvitamin D, 1,25-dihydroxyvitamin D and osteocalcin concentrations were also normal. Despite only 1 patient having hypomagnesemia, the RBC Mg2+ (153 +/- 6.2 microM; mean +/- SEM) and lymphocyte Mg2+ (182 +/- 5.5 microM) were significantly lower than normal (202 +/- 6.0 microM, p < 0.001, and 198 +/- 6.8 microM, p < 0.05, respectively). Bone densitometry revealed that 4 of 8 patients had osteoporosis of the lumbar spine and 5 of 8 had osteoporosis of the proximal femur (T-scores < or = -2.5). Mg therapy resulted in a significant rise in the mean serum PTH concentration from 44.6 +/- 3.6 pg/ml to 55.9 +/- 5.6 pg/ml (p < 0.05). In the 5 patients given Mg supplements for 2 years, a significant increased in bone mineral density was observed in the femoral neck and total proximal femur. This increase in bone mineral density correlated positively with a rise in RBC Mg2+. This study demonstrates that GSE patients have reduction in intracellular free Mg2+, despite being clinically asymptomatic on a gluten-free diet. Bone mass also appears to be reduced. Mg therapy resulted in a rise in PTH, suggesting that the intracellular Mg deficit was impairing PTH secretion in these patients. The increase in bone density in response to Mg therapy suggests that Mg depletion may be one factor contributing to osteoporosis in GSE.
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PMID:Magnesium deficiency: possible role in osteoporosis associated with gluten-sensitive enteropathy. 911 91

In humans, gastric surgery results in in osteopenia via mechanisms that are insufficiently understood; surgery-induced changes in the hormonal axes involving the stomach, thyroid, and the parathyroids may play a role. To study this in more detail, we evaluated calcium (Ca), magnesium (Mg), and phosphorus (P) metabolism as well as physical, chemical, and histomorphometric bone parameters in rats rendered hypergastrinemic by fundectomy (FX). In independent experiments, the response to an oral Ca challenge was investigated in intact rats versus FX, and in thyroidectomized versus thyroid-intact FX rats. Sixteen weeks following FX, body weight was approximately 80% that of sham-operated controls. In urine, P excretion was elevated fivefold, the pH was significantly decreased, and cAMP excretion was elevated as compared with controls; serum parathyroid hormone (PTH), calcitonin, 25OHD, Ca, Mg, and P were normal; gastrin and 1,25(OH)2D were elevated. On the basis of bone ash mineral content, FX rats developed significant osteopenia, and histomorphometry indicated only slightly elevated bone turnover and mineralization. Following oral Ca, thyroid-intact FX rats developed hypercalcemia, serum gastrin decreased, and calcitonin increased significantly; in thyroidectomized FX rats, calcitonin remained at baseline levels although there was a similar degree of hypercalcemia; PTH decreased during the hypercalcemic period in both groups. Serum gastrin did not correlate with calcitonin or PTH, and in multivariate regression analysis the only predictor of serum 1, 25(OH)2D was urinary phosphorus. It was concluded that in the FX rat (1) osteopenia is not caused by intestinal Ca malabsorption, vitamin D, Ca deficiency, or secondary hyperparathyroidism; (2) osteopenia may be related to PTH-independent urinary hyperexcretion of P, followed by a rise of serum 1,25(OH)2D; (3) the existence of endocrine axes among gastrin, calcitonin, and PTH cannot be substantiated. FX osteopenia appears to be related to gastric acid abolition, and the reactive hypergastrinemia probably stabilizes the mass and turnover of bone.
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PMID:Gastric fundectomy in the rat: effects on mineral and bone metabolism, with emphasis on the gastrin-calcitonin-parathyroid hormone-vitamin D axis. 979 30

The cosecretion of pancreatic lipase and colipase are important in normal fat digestion. As adsorption of phosphatidylcholine to the lipid substrate interferes with lipase activity, hydrolysis to lysophosphatidylcholine with subsequent desorption is also essential for fat digestion. There are some data regarding the secretion of pancreatic phospholipases in normal adults but none in children or patients with pancreatic disease. In the present study, we aimed a) to develop an accurate fast assay method to measure phospholipase A(2) and b) to determine the secretion rate of pancreatic phospholipase A(2) and whether it is cosecreted with lipase and colipase in children with exocrine pancreatic dysfunction. Nine male patients aged 0.5 to 16 y (seven with cystic fibrosis, two with malabsorption) underwent pancreatic stimulation tests. Their colipase and lipase secretion rates were measured by titrimetric methods and phospholipase A(2) and A(1) by phosphorus magnetic resonance spectroscopy ((31)P NMR). It was found that the phospholipases, colipase, and lipase were absent in the two patients with pancreatic insufficiency. In patients with normal absorption, there were marked inter-and intrasubject variations of lipase, colipase, and phospholipase secretion rates that were consistent with the degree of exocrine pancreatic dysfunction. However, in the three 20-min stimulation periods of the pancreatic function test, pancreatic phospholipase is cosecreted with lipase and colipase, and average colipase and phospholipase A(2) secretion rates follow a similar or parallel pattern. These findings are consistent with the important role of pancreatic phospholipases in intestinal phospholipid hydrolysis leading to the desorption of phospholipids from the lipid substrate and enhancing lipid hydrolysis and phospholipid absorption.
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PMID:Parallel secretion of pancreatic phospholipase A(2), phospholipase A(1), lipase, and colipase in children with exocrine pancreatic dysfunction. 1110 39

In patients with secondary hyperparathyroidism (HPT), increased parathyroid hormone (PTH) secretion is triggered by low plasma calcitriol levels, hypocalcemia, and hyperphosphatemia. Vitamin D analogues have been used successfully to reduce PTH levels, but increases in serum calcium, phosphorus, and calcium x phosphorus ion product levels may occur. Second-generation calcimimetics have been shown to suppress PTH levels and also reduce calcium x phosphorus ion product. Potential indications are patients with secondary HPT, particularly those who respond to calcitriol therapy with an increase in calcium x phosphorus ion product. Coadministration of active vitamin D compounds may be necessary to overcome intestinal malabsorption of calcium and maintain normocalcemia in patients on long-term treatment with calcimimetics.
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PMID:Renal osteodystrophy: role of calcimimetics. 1261 64

In this case report, a 56-year-old woman with a reversible multiple organ disease with septic fever, arthritis, rash, weight loss, thrombocytopenia, severe disturbance of liver function, renal tubular dysfunction, general muscular weakness, pleural and pericardial effusions and elevated CRP, leukocytosis and a striking hyperferritinemia is presented. An autoimmune disease and a septic process were excluded. Because of the significantly decreased plasma phosphorus concentration (0.2 mmol/l), caused by malabsorption after Whipple's operation with lowered vitamin D and secondary hyperparathyroidism and by chronic alcoholism, severe phosphate deficiency was diagnosed. By substitution of phosphorus, all symptoms disappeared and laboratory findings normalized. Except for the patient's age, all criteria for the diagnosis of Still's disease were fulfilled. So we reflected upon Still's disease to be rather a disturbance of energy metabolism with secondary immunologic changes than an inflammatory rheumatic disease. Significant weight loss in Still's disease and osteopenia might be signs of decreased energy supply. Besides hypophosphatemia, deficiency of magnesium, which is involved in all ATP-dependent processes, and mitochondrial diseases cause disturbances of energy metabolism.
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PMID:[Adult Still's disease as a manifestation of severe hypophosphatemia. Still's disease--a disturbance of energy metabolism?]. 1282 5

Nutrition is an important "modifiable" factor in the development and maintenance of bone mass and in the prevention of osteoporosis. The improvement of calcium intake in prepuberal age translates to gain in bone mass and, with genetic factor, to achievement of Peak Bone Mass (PBM), the higher level of bone mass reached at the completion of physiological growth. Individuals with higher PBM achieved in early adulthood will be at lower risk for developing osteoporosis later in life. Achieved the PBM, it is important maintain the bone mass gained and reduce the loss. This is possible adopting a correct behaviour eating associated to regular physical activity and correct life style. The diet is nutritionally balanced with caloric intake adequate to requirement of individual. This is moderate in protein (1 g/kg/die), normal in fat and the carbohydrates provide 55-60% of the caloric intake. A moderate intake of proteins is associated with normal calcium metabolism and presumably does'nt alter bone turnover. An adequate intake of alkali-rich foods may help promote a favorable effect of dietary protein on the skeleton. Lactose intolerance may determinate calcium malabsorption or may decrease calcium intake by elimination of milk and dairy products. Omega3 fatty acids may "down-regulate" pro-inflammatory cytokines and protect against bone loss by decreasing osteoclast activation and bone reabsorption. The diet is characterized by food containing high amount of calcium, potassium, magnesium and low amount of sodium. If it is impossible to reach the requirement with only diet, it is need the supplement of calcium and vitamin D. Other vitamins (Vit. A, C, E, K) and mineral (phosphorus, fluoride, iron, zinc, copper and boron) are required for normal bone metabolism, thus it is need adequate intake of these dietary components. It is advisable reduce ethanol, caffeine, fibers, phytic and ossalic acid intake. The efficacy of phytoestrogens is actually under investigation. Some drugs may interfere with calcium and other nutrients and produce an unfavourable effect on bone health.
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PMID:[Diet, nutrition and bone health]. 1608 Jun 61

Osteomalacia is characterized by defective mineralization and low bone mineral density (BMD). Clinical and biochemical improvements typically occur within a few weeks of starting treatment, though the bone mineral deficits may take longer to correct. We report a case series of 26 patients with frank osteomalacia (pseudo fractures on X-rays, elevated serum total alkaline phosphatase and parathyroid hormone, normal/low serum calcium and phosphorus, and low serum 25-hydroxy vitamin D) who were followed-up for changes in BMD during treatment using dual- energy X-ray absorptiometry (DXA). There were 23 patients with nutritional vitamin D deficiency, 2 with malabsorption syndrome, and 1 with renal tubular acidosis. All patients were treated with vitamin D and calcium; the 3 patients with associated disorders were treated accordingly. At baseline, there was low BMD at all sites tested. The rate of increase in vertebral and hip BMD was rapid in the initial few months, which subsequently slowed down. In contrast to the large increases in BMD at the femoral neck and lumbar spine, the radial BMD did not recover. At the time when most patients had marked clinical and biochemical improvement (2.8+/-1.4 mo), the vertebral and hip BMD, although improved from baseline, had not completely recovered. Bone loss at the forearm (cortical site) appears to be largely irreversible. Although the clinical correlates of these changes are presently unclear, BMD measurements are useful in assessing the initial severity of bone loss as well as the response to therapy.
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PMID:Changes in bone mineral density following treatment of osteomalacia. 1673 41

Rickets develops when growing bones fail to mineralize. In most cases, the diagnosis is established with a thorough history and physical examination and confirmed by laboratory evaluation. Nutritional rickets can be caused by inadequate intake of nutrients (vitamin D in particular); however, it is not uncommon in dark-skinned children who have limited sun exposure and in infants who are breastfed exclusively. Vitamin D-dependent rickets, type I results from abnormalities in the gene coding for 25(OH)D3-1-alpha-hydroxylase, and type II results from defective vitamin D receptors. The vitamin D-resistant types are familial hypophosphatemic rickets and hereditary hypophosphatemic rickets with hypercalciuria. Other causes of rickets include renal disease, medications, and malabsorption syndromes. Nutritional rickets is treated by replacing the deficient nutrient. Mothers who breastfeed exclusively need to be informed of the recommendation to give their infants vitamin D supplements beginning in the first two months of life to prevent nutritional rickets. Vitamin D-dependent rickets, type I is treated with vitamin D; management of type II is more challenging. Familial hypophosphatemic rickets is treated with phosphorus and vitamin D, whereas hereditary hypophosphatemic rickets with hypercalciuria is treated with phosphorus alone. Families with inherited rickets may seek genetic counseling. The aim of early diagnosis and treatment is to resolve biochemical derangements and prevent complications such as severe deformities that may require surgical intervention.
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PMID:Rickets: not a disease of the past. 1732 6

Orlistat, an anti-obesity drug, is a potent and specific inhibitor of intestinal lipases. In light of the recent US FDA approval of the over-the-counter sale of orlistat (60 mg three times daily), clinicians need to be aware that its use may be associated with less well known, but sometimes clinically relevant, adverse effects. More specifically, the use of orlistat has been associated with several mild-to-moderate gastrointestinal adverse effects, such as oily stools, diarrhoea, abdominal pain and faecal spotting. A few cases of serious hepatic adverse effects (cholelithiasis, cholostatic hepatitis and subacute liver failure) have been reported. However, the effects of orlistat on non-alcoholic fatty liver disease are beneficial. Orlistat-induced weight loss seems to have beneficial effects on blood pressure. No effect has been observed on calcium, phosphorus, magnesium, iron, copper or zinc balance or on bone biomarkers. Interestingly, the use of orlistat has been associated with rare cases of acute kidney injury, possibly due to the increased fat malabsorption resulting from the inhibition of pancreatic and gastric lipase by orlistat, leading to the formation of soaps with calcium and resulting in increased free oxalate absorption and enteric hyperoxaluria. Orlistat has a beneficial effect on carbohydrate metabolism. No significant effect on cancer risk has been reported with orlistat.Orlistat interferes with the absorption of many drugs (such as warfarin, amiodarone, ciclosporin and thyroxine as well as fat-soluble vitamins), affecting their bioavailability and effectiveness. This review considers orlistat-related adverse effects and drug interactions. The clinical relevance and pathogenesis of these effects is also discussed.
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PMID:Orlistat-associated adverse effects and drug interactions: a critical review. 1809 46

Osteomalacia (OM) is a condition that usually is overlooked and neglected when compared with other metabolic bone disease such as osteoporosis. Presenting with a wide spectrum of nonspecific clinical, radiographic, and biochemical manifestations, OM is a treatable metabolic disease that is precisely diagnosed by anterior iliac crest bone biopsy. Clinical clues to lead one to suspect OM in the context of a diffuse bone disease include the presence of generalized bone pain affecting mainly shoulders, hips and rib cage, proximal muscle weakness, low serum calcium x phosphorus product, increased serum alkaline phosphatase, low calcium in the 24-h urine test, and low serum 25 hydroxyvitamin D. Radiographic examination may show a characteristic "erased" or "fuzzy" type of demineralization, pseudofractures, or bone deformities. OM is confined usually to elderly individuals or to those patients with intestinal malabsorption and hypophosphatemia.
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PMID:Musculoskeletal manifestations of osteomalacia. 1907 64

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