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

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

Aplastic bone disease (adynamic bone disease) has been attracted attention as the most frequent type of renal osteodystrophy in patients undergoing dialysis, and relatively low serum parathyroid hormone level is considered to be the major cause of aplastic bone disease. In aplastic bone disease, both the number of osteoblast and osteoclast are few and the speed of bone turnover is low, therefore, buffering action of bone for calcium and phosphorus is extremely disturbed. Hypercalcemia due to a prescription of large dose calcium carbonate and hyperphosphatemia derived by high protein diet in this occasion induce high serum calcium and phosphorus product level, and ectopic calcification is likely to occur. When ectopic calcification occur at artery it might develop ischemic change of visceral organ. Recently, the strong association between coronary arterial calcification and high serum calcium and phosphorus products is clarified by a method of electron-beam computed tomography. Based on these findings, high calcium and phosphorus product is now believed as a risk for poor patients' survival. Thus, we should pay attention to calcium and phosphorus product in patients suffering from aplastic bone disease.
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PMID:[Ectopic calcification in patients with aplastic bone disease undergoing dialysis]. 1577 11

Calcitriol is effective not only in the regulation of calcium-phosphate homeostasis, but also in promoting the differentiation and inhibition of proliferation of various cells. Calcitriol seems to be a potent drug with various therapeutic applications, such as regulation of calcium-phosphate homeostasis and treatment of psoriasis, autoimmune diseases, and cancer. Since clinical use of calcitriol is largely limited, due to its undesirable side effect of hypercalcemia, numerous calcitriol analogues have been synthesized to obtain compounds with better therapeutic profiles. This paper summarizes the current state of knowledge concerning the cellular mechanisms of calcitriol's biological activity and their clinical implications. Such medical application includes treatment (as a single-drug or in combination) of osteoporosis, renal osteodystrophy, psoriasis (calcipotriol or tacalcitol ointment), autoimmunological diseases (including multiple sclerosis), and some cancers. The efforts to obtain new vitamin D3 analogues are also briefly reviewed. The structures and roles of vitamin D receptors in the biological effects of calcitriol and its analogues are discussed.
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PMID:[Biological activity of calcitriol and its new analogues -- potential therapeutic applications]. 1592 96

Renal osteodystrophy (ROD) represents a spectrum of bone lesions ranging from a high-turnover to a low-turnover state. The expression of the histologic bone lesions is modulated by parathyroid hormone (PTH), vitamin D, calcium, phosphorus, and aluminum that act as major regulators of osteoblastic activity and bone formation rate. The availability of immunometric PTH assays has allowed reasonable prediction of the subtypes of bone lesions in patients with chronic kidney disease (CKD). PTH levels as measured by these assays, however, may not reflect the true bone turnover state during treatment with intermittent active vitamin D. Early diagnosis and appropriate treatment of renal bone disease are essential in preventing the debilitating consequences of ROD on the growing skeleton. Calcitriol and calcium-containing phosphate binders have been the mainstay of treatment for secondary hyperparathyroidism. Complications such as hypercalcemia, vascular calcifications, and the development of adynamic bone may arise from aggressive treatment. New vitamin D analogs and calcium-free phosphate binders are promising in terms of limiting these complications. The management of ROD should be tailored to maintain normal rates of bone formation and turnover with age-appropriate serum calcium and phosphorus levels and with serum PTH levels that correspond to normal rates of skeletal remodeling. These treatment goals would maintain bone health, maximize growth potential, and prevent the development of soft tissue and vascular calcifications.
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PMID:Role of parathyroid hormone and therapy with active vitamin D sterols in renal osteodystrophy. 1607 50

Abnormalities of mineral metabolism, including those of calcium (Ca), phosphorus (P), and parathyroid hormone (PTH) in patients on maintenance hemodialysis induce severe bone involvement, which manifests as renal osteodystrophy. Recently, vascular calcification caused by abnormal mineral metabolism has been attracting attention because cardiovascular diseases (CVD) are a major cause of death in hemodialysis patients. Since 2000, the treatment standard for overt secondary hyperparathyroidism (SHPT) in our facilities has shifted from conventional or pulse therapy with oral vitamin D3 (VitD) to intravenous pulse therapy with maxacalcitriol or calcitriol. After selecting the criterion of overt SHPT as intact-PTH>500 pg/mL, the proportion of overt SHPT cases among all hemodialysis patients decreased from 12% at the start of intravenous pulse treatment to 6.4% after 4 years' treatment. However, the number of patients who had an interruption to pulse treatment because of hypercalcemia and/or hyperphosphatemia was high and it became a bottleneck for the continuation of the therapy. The major cause of hypercalcemia is considered to be Ca load derived from oral calcium carbonate. In Japan, sevelamer hydrochrolide (SH), which does not contain Ca, has been available commercially since 2003 and potentially should enable a reduction in the incidence of overt SHPT during long-term intravenous treatment when combined with careful adjustment of the dose of VitD and strict monitoring of Ca and P level concentrations. In this study, we found that the proportion of patients who satisfy the recommended serum concentrations of Ca and P reported by K/DOQI guideline was low irrespective of the serum concentration of intact-PTH. The aortic calcification index was high in the patient group with lower intact-PTH level concentration, probably because of reduced Ca and P buffering ability associated with reduced bone turnover. We consider that VitD treatment with SH might give better control of the intact-PTH level concentration within the range recommended by the K/DOQI guideline.
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PMID:Management of calcium, phosphorus and bone metabolism in dialysis patients using sevelamer hydrochloride and vitamin D therapy. 1610 36

Currently, >300,000 patients with end-stage renal disease require dialysis. Secondary hyperparathyroidism is a serious complication of end-stage renal disease and can lead to renal osteodystrophy and other organ failure. Vitamin D sterols and phosphate binders are used to treat hyperparathyroidism, but they can cause hypercalcemia, which contributes to vascular and soft-tissue calcification. Cinacalcet (Sensipar) is the first agent in its class that treats secondary hyperparathyroidism by increasing the sensitivity of calcium sensing receptors. It is also indicated for the treatment of hypercalcemia in patients with parathyroid carcinoma. All clinical trials concluded that cinacalcet is effective for the reduction of parathyroid hormone, serum calcium, phosphorus, and calcium-phosphate product levels. Cinacalcet is available as a once-daily oral therapy. Adverse effects are generally mild.
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PMID:Cinacalcet hydrochloride (Sensipar). 1620 Jan 70

Childhood renal osteodystrophy (ROD) is the consequence of disturbances of the calcium-regulating hormones vitamin D and parathyroid hormone (PTH) as well as of the somatotroph hormone axis associated with local modulation of bone and growth cartilage function. The resulting growth retardation and the potentially rapid onset of ROD in children are different from ROD in adults. The biochemical changes of ROD as well as its prevention and treatment affect calcium and phosphorus homeostasis and are directly associated with the development of cardiovascular disease in pediatric renal patients. The aims of the clinical and biochemical surveillance of pediatric patients with CRF or on dialysis are prevention of hyperphosphatemia, avoidance of hypercalcemia and keeping the calcium phosphorus product below 5 mmol(2)/l(2). The PTH levels should be within the normal range in chronic renal failure (CRF) and up to 2-3 times the upper limit of normal levels in dialysed children. Prevention of ROD is expected to result in improved growth and less vascular calcification.
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PMID:Prevention and treatment of renal osteodystrophy in children on chronic renal failure: European guidelines. 1624 44

Although renal osteodystrophy and vitamin D analogs may be related to survival in maintenance hemodialysis (MHD) patients, most studies have examined associations between baseline values and survival without accounting for variations in clinical and laboratory measures over time. We examined associations between survival and quarterly laboratory values and administered paricalcitol in a 2-year (July 2001-June 2003) cohort of 58,058 MHD patients from all DaVita dialysis clinics in USA using both time-dependent Cox models with repeated measures and fixed-covariate Cox models with only baseline values. Whereas hypercalcemia and hyperphosphatemia were robust predictors of higher death risk in all models, the association between serum calcium and mortality was different in time-varying models. Changes in baseline calcium and phosphorus values beyond the Kidney Disease Outcome Quality Initiative recommended targets were associated with increased mortality. Associations between high serum parathyroid hormone and increased death risk were masked by case-mix characteristics of MHD patients. Time-varying serum alkaline phosphatase had an incremental association with mortality. Administration of any dose of paricalcitol was associated with improved survival in time-varying models. Controlling for nutritional markers may introduce overadjustment bias owing to their strong collinearity with osteodystrophy surrogates. Whereas both time-dependent and fixed-covariate Cox models result in similar associations between osteodystrophy indicators and survival, subtle but potentially clinically relevant differences between the two models exist, probably because fixed models do not account for variations of osteodystrophy indices and changes in medication dose over time.
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PMID:Survival predictability of time-varying indicators of bone disease in maintenance hemodialysis patients. 1755 57

Chronic kidney disease (CKD) causes alterations in mineral metabolism inducing the development of secondary hyperparathyroidism (HPT) and renal osteodystrophy. Recently, it has been suggested that these alterations play an important role in determining extraskeletal calcification and thus cardiovascular morbidity and mortality among CKD patients. An impaired 1 alfa -hydroxylation of 25-hydroxycholecalciferol (25(OH)D3) to 1,25-dihydroxycholecalciferol (1,25(OH)2 D3) with decreased circulating 1,25(OH)2 D3 levels is commonly observed in patients with creatinine clearance below 70 ml/min. The reduction in 1,25(OH)2 D3 production triggers the up-regulation of parathyroid hormone (PTH) synthesis, through a decreased suppression on PTH gene transcription and a decreased intestinal calcium absorption. A reduced expression of vitamin D receptor (VDR) and a less efficient binding of the complex 1,25(OH)2 D3 -VDR to specific DNA segments account for the resistance to 1,25(OH)2 D3 in target cells. Thus, absolute and relative 1,25(OH)2 D3 deficiency is one of the causes of secondary HPT in patients with CKD, together with phosphate retention and skeletal resistance to PTH. Consistently with these pathophysiological mechanisms, the therapeutic use of 1,25(OH)2 D3 still represents a milestone for the treatment of secondary HPT and renal osteodystrophy, even though hypercalcemia and hyperphosphatemia are common adverse events and may increase the risk of cardiovascular calcifications. To reduce the impact of such adverse effects while retaining anti-PTH activity, 1,25(OH)2 D3 analogues with lower calcemic effects have been synthesized and are now available for clinical use.
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PMID:Vitamin D retains an important role in the pathogenesis and management of secondary hyperparathyroidism in chronic renal failure. 1713 83

Hypercalcemia in persistent secondary hyperparathyroidism after kidney transplantation is considered to result from increased bone resorption. Bone biopsies' studies, however, have never been performed in these patients. Bone biopsies after double tetracycline labeling were obtained from 17 patients with hypercalcemic hyperparathyroidism and an estimated glomerular filtration rate > 30 mL/min/1.73 m2. Serologic bone markers, calcitriol, intact fibroblast growth factor-23 (iFGF-23), and serum and 24h urine concentration of calcium and phosphate were measured in all patients. Tubular maximum for phosphate corrected for GFR (TmP/GFR), and the fractional excretion of calcium (FeCa) were calculated. High-turnover renal osteodystrophy (ROD) was present in nine and low-turnover ROD in eight patients. The bone formation rate was significantly associated with bone alkaline phosphatase, c-telopeptide and osteocalcin. In patients with high turnover ROD, osteocalcin was also significantly higher than in patients with decreased bone formation. The FeCa was normal or below normal in 14/17 patients. TmP/GFR was below normal in all patients. Neither intact PTH nor iFGF-23 was associated with TmP/GFR, FeCa or any histomorphometric bone parameter. We conclude that hypercalcemia of posttransplant hyperparathyroidism can be associated with high or low turnover bone disease. Decreased calcium excretion suggests an additive tubular effect on hypercalcemia.
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PMID:Low-turnover bone disease in hypercalcemic hyperparathyroidism after kidney transplantation. 1772 80

The abnormalities in bone and mineral metabolism in chronic kidney disease patients are associated with an increased risk of fractures, vascular calcifications and cardiovascular diseases. A few decades ago hyperphosphatemia and the common development of secondary hyperparathyroidism were thought to be the main problem to deal with. Since dietary phosphate restriction and haemodialysis were not proven to be sufficient measures to reduce phosphorus, phosphate-binding therapy has been widely instituted as a treatment option. Various types of phosphate binders employed over the years have contributed to the changing spectrum of renal osteodystrophy from high to low bone turnover along with the shift from hypocalcemia and negative calcium balance towards hypercalcemia and the positive calcium balance. Thus, hypercalcemia instead of hyperphosphatemia is nowadays associated with the increased risk of vascular calcification, morbidity and mortality in the dialysis population. Besides the very expensive non-calcium based phosphate binders, at least two common tools may be helpful in the treatment of hypercalcemia and adynamic bone. A reduced daily use of calcium carbonate/acetate up to 1g per main meal is an easily manageable and inexpensive tool. The second option for stimulation of parathyroid gland activity and bone turnover is the lowering of the dialysate calcium concentration. In conclusion, an aggressive treatment of hyperphosphatemia and calcium overload might lead towards an opposite effect of hypoparathyroidism and hypercalcemia. Reasonable treatment strategies based on a careful monitoring should be employed in order to prevent related consequences and to contribute to a better long-term quality of life and survival of dialysis patients.
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PMID:New aspects of treatment of renal bone disease in dialysis patients. 1793 68


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