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)

The dose-response relationships and the safety of administering 22-oxacalcitriol (OCT) to patients with secondary hyperparathyroidism (2HPT) under regular three-times-weekly hemodialysis (HD) were evaluated by double-blind parallel group design. A total of 203 patients with 2HPT were randomly allocated into four groups, and 5 microg (Group L), 10 microg (Group M), or 15 microg (Group H) OCT, or placebo (Group P) was administrated at the end of every HD for 12 weeks. Reductions of intact-parathyroid hormone (iPTH) concentration greater than 30% from baseline were observed in 7.7% of Group P as compared to 77.3% of the pooled OCT groups after 12 weeks of treatment (Mantel test: P < 0.001). Time-trends (slopes) of log-iPTH concentration calculated by least-squares line fitting to each patient's data during treatment differed between Group P and the pooled OCT groups (t-test: P < 0.001) and these iPTH slopes decreased dose-dependently (linear trend by t-test: P < 0.001). Slopes of serum calcium corrected for albumin (corrected-sCa) concentrations also differed between Group P and the pooled OCT groups (t-test: P < 0.001), and increased dose-dependently (linear trend by t-test: P < 0.0001). Serum phosphorus and Ca x P product increased significantly only in high dose groups. Slopes of log(iPTH) and corrected-sCa concentrations were reciprocally related. Most adverse events were hypercalcemia and dose-related, but occasionally comprised pruritus or increased serum creatinine phosphokinase. These results indicate that OCT produced a strong and dose-dependent suppression of PTH and an increase of corrected-sCa concentration in patients with 2HPT. The recommended initial dosages of OCT would appear to be 5 microg when pretreatment iPTH concentrations are less than 500 pg/mL, and 10 microg when greater than 500 pg/mL for safe and effective treatment. As in the case of PTH, calcium and phosphorus showed dose-dependent increases. It is therefore essential to take precautions as to possible increases in calcium and phosphorus.
Ther Apher Dial 2004 Dec
PMID:Dose-response study of 22-oxacalcitriol in patients with secondary hyperparathyroidism. 1566 48

There is growing evidence that not only serum calcium concentration but also excess calcium load is associated with vascular calcification and mortality in hemodialysis patients. Calcium load in hemodialysis patients cumulatively comes from three different routes: oral intake of calcium including calcium-based phosphate binders, traffic of calcium from/to dialysate, and calcemic action of vitamin D. The K/DOQI guidelines recommend sevelamer hydrochloride instead of calcium-containing phosphate binders to control serum phosphate concentration. However, in Japan, both kinds of phosphate binders are used concomitantly, mainly because Japanese patients are prone to a higher incidence of sevelamer-associated adverse events such as gastrointestinal symptoms. Regarding the calcium concentration of dialysate (D-Ca) in Japan, 3.0 mEq/L is more popular than 2.5 mEq/L. Calcium loaded through 3.0 mEq/L dialysate may lead to metastatic calcification rather than to bone formation because serum phosphate concentration rebounds several hours after the end of each hemodialysis session when plasma pH is still high. In contrast, use of 2.5 mEq/L dialysate may result in an unfavorable increase of intact parathyroid hormone particularly when the amount of oral calcium intake is reduced. Although a higher dose of vitamin D is required to counteract the stimulation of parathyroid glands, hypercalcemia is less likely with 2.5 mEq/L dialysate. As the new K/DOQI guidelines are released, it is time to discuss the appropriate D-Ca as well as doses and kinds of phosphate binders and vitamin D for the comprehensive management of Japanese hemodialysis patients.
Ther Apher Dial 2005 Feb
PMID:Different routes bridging calcium in Japanese hemodialysis patients. 1582 3

The Kidney Foundation of the USA proposed clinical practice guidelines for bone metabolism and disease in chronic kidney disease including parathyroidectomy (PTx). We performed PTx in a total of 1725 patients with advanced secondary hyperparathyroidism (2HPT) and evaluated the K/DOQI guideline concerning PTx, comparing it with our surgical strategy. The guidelines emphasize the avoidance of ectopic calcification and cardiovascular complications which may be induced by hypercalcemia, hyperphosphatemia, and persistent high parathyroid hormone level. We agree with the attitude of the K/DOQI guideline. To decide surgical indications, we emphasize that the size of parathyroid gland is one of the important factors. The guideline recommends subtotal PTx and total PTx with autotransplantation. We prefer total PTx with forearm autograft, mainly because it is easier and safer to remove the residual parathyroid tissue from the forearm at recurrence compared to neck re-exploration. In Japan, almost all patients require long-term hemodialysis after PTx because of the very small opportunity of kidney transplantation. The risk of recurrence is not negligible. Based on our huge experience we believe our strategy for advanced secondary hyperparathyroidism can be accepted at least in Japan.
Ther Apher Dial 2005 Feb
PMID:Surgical indications and procedures of parathyroidectomy in patients with chronic kidney disease. 1582 5

As suggested by its American brand name (Sensipar), the calcimimetic cinacalcet sensitizes the parathyroid cells to the extracellular calcium signal, suppressing parathyroid hormone (PTH) release and synthesis and preventing parathyroid cell proliferation. This primary PTH suppression decreases the release of calcium and phosphate from bone without increasing intestinal absorption of calcium and phosphate. Therefore cinacalcet decreases the risk of hypercalcemia and hyperphosphatemia in contrast to 1alpha-OH vitamin D derivatives. Compared with calcium-containing oral phosphate binder (OPB), it increases the risk of hypocalcemia and may decrease the PTH-mediated phosphaturia in predialysis patients. This justifies its combined use with calcium-containing OPB in order to prevent hypocalcemia and enhance the hypophosphatemic effect of the latter, while improving PTH suppression. The National Kidney Foundation (NKF) Kidney Disease Outcomes Quality Initiative (K/DOQI) has recommended restriction of supplemental elemental calcium to 1.5 g/day, a recommendation that we believe should be revised. No pathophysiologic or randomized trial data have yet evidenced the absolute necessity for systematically using 1alpha-OH vitamin D derivatives and noncalcium-containing OPB rather than higher doses of calcium-containing OPB alone in uremic patients without vitamin D insufficiency. In patients with hyperparathyroidism as severe as in the "Treat to Goal Study," the Durham study showed that a calcium carbonate dose more than three times the K/DOQI limit could decrease PTH into the recommended range, with the advantage of a lower calcium-phosphate product compared with the combination of calcitriol and noncalcium OPB. Besides the efficient PTH suppression associated with lower calcium-phosphate product and a good gastrointestinal tolerance, long-term data suggest that cinacalcet may decrease the risk of parathyroidectomy and fracture, while high bone turnover lesions are improved. However, no long-term data on bone mineral density and cardiovascular calcification and complications are yet available. Such studies, along with those comparing cinacalcet and 1alpha-OH vitamin D-based approaches to hyperparathyroidism, are needed.
Semin Dial
PMID:How do calcimimetics fit into the management of parathyroid hormone, calcium, and phosphate disturbances in dialysis patients? 1593 70

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.
Semin Dial
PMID:Role of parathyroid hormone and therapy with active vitamin D sterols in renal osteodystrophy. 1607 50

Secondary hyperparathyroidism is a common complication of end-stage renal disease (ESRD) that is often treated with activated forms of intravenous vitamin D. The natural course and treatment of secondary hyperparathyroidism in hemodialysis patients is punctuated by episodes of hypercalcemia, hyperphosphatemia, and increased calcium-phosphate product, which in previous studies were linked to increased mortality. Historically these episodes have been attributed to vitamin D, leading some authorities to favor decreased vitamin D use. However, the studies that examined the impact of mineral levels and parathyroid hormone (PTH) on survival did not consistently account for vitamin D therapy itself on hemodialysis patient survival. The current review examines in detail two recent large-scale studies of hemodialysis patients: one that demonstrated a survival advantage of paricalcitol over calcitriol and a second that demonstrated a significant survival advantage of any intravenous vitamin D formulation versus none. In both studies, the effects were independent of mineral and PTH levels, suggesting "nontraditional" actions of vitamin D contributed to the observed survival advantage. Several of these nontraditional actions are reviewed with an emphasis on those that might impact hemodialysis outcomes.
Semin Dial
PMID:Beyond minerals and parathyroid hormone: role of active vitamin D in end-stage renal disease. 1607 53

Activated vitamin D continues to be the major treatment for suppressing parathyroid hormone (PTH) levels in dialysis patients who have secondary hyperparathyroidism. Active vitamin D compounds are distinguished by their ability to bind with high affinity to vitamin D receptors (VDRs) not only in the parathyroid glands, but in cells throughout the body. Because of recent data showing that pulsatile, intravenous vitamin D treatment (calcitriol or paricalcitol) confers a survival advantage in the dialysis population, there is new interest in understanding the systemic effects of VDR activation, particularly in the predialysis stages of chronic kidney disease (CKD), where high mortality rates from cardiovascular disease have recently been documented. Previous underutilization of calcitriol treatment to control PTH levels in stages 3 and 4 CKD was often due to concerns about its potential for accelerating the progression of CKD as a consequence of hypercalcemia, hypercalciuria, or hyperphosphatemia. Vitamin D analogs with selective VDR activity (such as paricalcitol) have great potential for preventing parathyroid hyperplasia and bone loss in early CKD without adversely affecting kidney function. Whether they also reduce cardiovascular morbidity and mortality in early CKD, as they appear to do in dialysis patients, remains to be determined.
Semin Dial
PMID:Vitamin D treatment in chronic kidney disease. 1607 55

In Japan, calcimimetics and other phosphate binders such as lantanum carbonate are not available for patients on long-term hemodialysis (HD), so we prospectively evaluated the clinical efficacy of the combination of sevelamer hydrochloride and calcium carbonate (CaCO3) for hyperphosphatemia. The study group comprised 65 HD patients who had been administered CaCO3 (>or=1500 mg/day) for hyperphosphatemia [>or=6.0 mg/dL (>or=1.94 mmol/L)]. At the beginning of the study the dose of CaCO3 was reduced by 1500 mg/day and the patients divided into two groups according to the dose of additional sevelamer hydrochloride: group A 2250 mg/day; group B 3000 mg/day. Oral active vitamin D therapy was unchanged. Fourteen patients (21.5%) dropped out because of adverse effects and of the 51 remaining patients 35 (53.8%) suffered from gastrointestinal problems. Serum phosphate concentration decreased significantly [from 7.5+/-0.8 mg/dL (2.42+/-0.26 mmol/L) to 6.6+/-1.3 mg/dL (2.13+/-0.42 mmol/L), P<0.01] in group B only after the 8 weeks of combination therapy. The calcium-phosphate product (CaxPi) also decreased in group B only [from 74.4+/-13.4 mg2/dL2 (5.99+/-1.07 mmol2/l2) to 63.7+/-15.8 mg2/dL2 (5.13+/-1.27 mmol2/l2), P<0.001]. The combination of sevelamer hydrochloride and CaCO3 is a suitable regimen for hyperphosphatemia treatment in HD patients because it avoids both the hypercalcemia of CaCO3 and the adverse effects of sevelamer hydrochloride when each is used as single-drug therapy. The ability of sevelamer hydrochloride to decrease the serum phosphate concentration is 2/3 (2250/1500 mg) that of CaCO3.
Ther Apher Dial 2005 Aug
PMID:Efficacy of combined sevelamer and calcium carbonate therapy for hyperphosphatemia in Japanese hemodialysis patients. 1607 80

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.
Ther Apher Dial 2005 Aug
PMID:Management of calcium, phosphorus and bone metabolism in dialysis patients using sevelamer hydrochloride and vitamin D therapy. 1610 36

Secondary hyperparathyroidism (SHPT) remains an inevitable consequence of untreated chronic uremia. It is the result of a combination of phosphate (P) retention, failure of calcitriol synthesis, and hypocalcemia. Therapies used to correct these abnormalities, namely active vitamin D replacement, calcium (Ca) supplementation, and phosphate (P) restriction, have moderate efficacy but are prone to unacceptable side-effects. However, there have been new developments in the control of P, vitamin D replacement and modulation of the Ca sensing receptor (CaSR) using calcimimetics. Sevelamer, and in the near future lanthanum, are offering a reasonable level of P control without the toxicities inherent with either aluminum- or Ca-based phosphate binders, and other phosphate binders are in development. 'Non calcemic' vitamin D metabolites include 22-oxacalcitriol, paricalcitol, and doxercalciferol. In various experimental models 22-oxacalcitriol, in particular, exhibits impressive suppression of parathyroid hormone (PTH) with minimal calcemia, although it has been less impressive when compared with calcitriol in controlled studies in hemodialysis (HD) patients. The advantages of these agents over conventional treatment with calcitriol or alfacalcidol remain uncertain. Cinacalcet, a calcimimetic agent that up-regulates the sensitivity of the CaSR in parathyroid and other cells, is a new type of therapy for SHPT that simultaneously reduces the concentrations of PTH, Ca, and P in HD patients, enabling a significant number to achieve K/DOQI or other national guidelines. The extent to which this new therapy will improve clinical outcomes remains uncertain. In conclusion, with the advent of new therapies the emphasis in the management of SHPT has evolved to incorporate reduction of Ca loading, control of PTH within specific target ranges, and avoidance of hypercalcemia, hyperphosphatemia and elevation of the calcium phosphorus product.
Ther Apher Dial 2005 Aug
PMID:Management of secondary hyperparathyroidism. 1610 40


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