UMLS:C0007222 - FACTA Search

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Query: UMLS:C0007222 (cardiovascular disease)
65,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Elevated blood lead levels, a risk factor for cardiovascular disease, have been reported among patients with end-stage renal disease. We evaluated whether these higher levels are due to release of lead from the skeleton because of uremic bone disease. Fifty-one African-American patients with end-stage renal disease were recruited from 3 Tulane University dialysis programs between January and July 2005. An interviewer-administered questionnaire, blood specimen collection and 109Cd-based x-ray fluorescence measurement of tibia lead occurred during a single study visit. Levels of serum parathyroid hormone (PTH), calcium, phosphorus, and albumin were abstracted from the patients' charts. The distributions of tibia and blood lead were similar across levels of serum PTH. Specifically, for participants with serum PTH <300 pg/mL and > or =300 pg/mL, median tibia lead was 21 microg/g and 17 microg/g, respectively, and geometric mean blood lead levels were 6.7 microg/dL and 6.6 microg/dL, respectively (P = 0.70 and 0.87, respectively). After adjustment for age, gender, education, cigarette smoking, and dialysis vintage, natural log transformed blood lead was 0.022 lower in patients with serum PTH > or =300 pg/mL (P = 0.87). There were no differences in tibia and blood lead across levels of serum calcium, serum phosphorus, and the calcium phosphorus product (all P > 0.40). The high blood lead levels observed among dialysis patients do not appear to be the result of increased bone turnover. The causes of higher blood lead levels for these patients need to be identified and attenuated.
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PMID:Parathyroid hormone status does not influence blood and bone lead levels in dialysis patients. 1809 61

1,25-Dihydroxyvitamin D(3) levels begin to drop early in the course of kidney disease, leading to elevated parathyroid hormone levels and disrupted mineral metabolism. Impaired mineral metabolism seems to be associated not only with bone disease but also with vascular calcification. Animal models have identified molecular mechanisms by which high mineral levels and other uremic substances induce vascular smooth muscle cells to undergo phenotypic changes that initiate the calcification process. Moreover, several epidemiologic and clinical studies showed strong associations between bone loss, arterial calcification, and cardiovascular disease in populations with and without kidney disease. This review discusses evidence that two early complications of chronic kidney disease--vitamin D deficiency and secondary hyperparathyroidism--contribute to bone and cardiovascular disease. New treatment strategies aimed at the prevention of bone loss and parathyroid hyperplasia, such as vitamin D receptor ligand therapy, calcimimetic agents, and noncalcifying phosphate binders, are being investigated for their impact on improving overall outcome in dialysis patients.
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PMID:Contribution of bone and mineral abnormalities to cardiovascular disease in patients with chronic kidney disease. 1832 50

Abnormalities of bone mineral parameters (calcium, phosphate, vitamin D, and parathyroid hormone) are nearly omnipresent in patients with advanced chronic kidney disease (CKD). These typically consist of hypocalcemia, hyperphosphatemia, abnormalities of vitamin D metabolism, and secondary hyperparathyroidism (SHPT). Currently, several lines of evidence suggest that these abnormalities may have consequences beyond the typical consequence of renal bone disease, with a major role in determining cardiovascular disease, including arterial calcification. The 'classical' treatment of SHPT and hyperphosphatemia in HD patients consists of phosphate binders, vitamin D receptor activators (VDRAs), and/or calcimimetics. Calcium- or aluminum-based phosphate binder prescriptions and calcitriol administration are therapeutic tools not free of complications, increasing the risk of cardiovascular calcification in the HD population. New calcium- and aluminum-free phosphate binders, such as lanthanum carbonate and sevelamer hydrochloride, new VDRA (paricalcitol), and cinacalcet hydrochloride can be used to treat SHPT, slow down the atherosclerotic process, and prevent vascular calcification in HD patients.
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PMID:Preventive measures and new pharmacological approaches of calcium and phosphate disorders. 1845 82

Secondary hyperparathyroidism is an early complication of chronic kidney disease (CKD). Vitamin D deficiency and reduced synthesis of 1,25-dihydroxyvitamin D (calcitriol) early in the progression of CKD leads to abnormal mineral metabolism. Vitamin D deficiency leads to increased parathyroid hormone and remodeling of bone that releases calcium and phosphorus, resulting in vascular calcification. Vitamin D deficiency is associated with cardiovascular disease and contributes to the high morbidity and mortality in patients with CKD.
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PMID:Improved patient outcomes in chronic kidney disease: optimizing vitamin D therapy. 1850 29

Bisphosphonates inhibit bone resorption and are widely used to treat osteolytic metastases and osteoporosis. Renal osteodystrophy patients have continuous bone loss due to chronically elevated parathyroid hormone (PTH). In this open-label study, ibandronate was evaluated for the treatment of reduced bone density in renal osteodystrophy. Patients (n=16) with end-stage renal disease (ESRD) and regular hemodialysis schedules were recruited. All patients had low bone mineral density (BMD; lumbar spine T-score <-1.0) and elevated PTH levels (>2-fold higher than normal). Patients received ibandronate 2 mg every 4 weeks for 48 weeks. Serum levels of markers of bone turnover, calcium, phosphate and magnesium were determined (week 0 [prior to treatment] vs. at week 48). BMD (n=11) increased significantly from 88.94 +/- 31.68 mg/mL calcium hydroxylapatite (CaHA) to 93.51 +/- 35.36 mg/mL CaHA (p=0.032). T-scores increased significantly from -3.08 +/- 1.11 to -2.78 +/- 1.27 (p<0.01). The mean PTH level initially increased before dropping to 18.99 pmol/L at week 48 (7.99% decrease vs. week 0; not significant). Bone turnover markers decreased, whereas calcium and magnesium levels remained stable and within normal ranges. Phosphate levels were variable throughout the study. Two patients did not complete the study, and 3 patients died due to concomitant cardiovascular disease. Calcitriol dosage increased from 1.5 to 1.83 microg/week. In patients with renal osteodystrophy and ESRD, ibandronate significantly increased BMD and decreased bone turnover.
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PMID:Treatment of reduced bone density with ibandronate in dialysis patients. 1865 40

Chronic kidney disease is a growing public health concern, and secondary hyperparathyroidism is one of the most serious associated comorbidities. In healthy individuals, precisely controlled feedback loops dynamically modulate parathyroid hormone (PTH) levels. As kidney function declines, phosphate retention, decreased 1a,25-dihydroxyvitamin D3, and a tendency to hypocalcemia leads to overstimulation of PTH production and parathyroid hyperplasia. Vitamin D receptor (VDR) ligands are essential tools for controlling parathyroid activity. This review highlights the current clinical and biochemical VDR ligand studies, focusing on the differences between selective and nonselective VDR ligands. It is apparent that VDR ligands have important roles in the management of secondary hyperparathyroidism. Selective VDR ligands, in particular, may offer additional benefits in the treatment of bone disease, and may potentially reduce adverse effects related to cardiovascular disease.
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PMID:Vitamin D receptor ligand therapy in chronic kidney disease. 1882 52

In the present study, we examined the association between vascular and valvular calcification and the prognosis of patients on continuous ambulatory peritoneal dialysis (CAPD). Data were collected from the records of patients introduced onto CAPD therapy during 1999 - 2006 at the Department of Nephrology, Saitama Medical University. At the start of CAPD, cardiac and vascular echography were used to examine 162 patients (average age: 56 +/- 5 years; 58 men, 104 women; 43 with and 119 without diabetes) for evaluation of vascular and valvular calcification. Both vascular and valvular calcification were found in 32 patients. Vascular calcification was found in 16, and valvular calcification in 11. Over 5 years, 11 patients suffered from cardiovascular disease (7 with stroke, 4 with myocardial infarction). All of these patients had vascular or valvular calcification at the start of CAPD therapy. We also used Cox hazard analysis to examine values for Ca, P, Ca x P, intact parathyroid hormone (iPTH), and lipids. None of these values were independent contributory factors for incidence of cardiovascular disease in patients on CAPD. These data suggest the importance of vascular and valvular echography to evaluate patients on CAPD, especially at the start of CAPD therapy. Vascular and valvular calcification are important factors for determining the prognosis of patients on CAPD.
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PMID:Close association of vascular and valvular calcification and prognosis of patients on continuous ambulatory peritoneal dialysis. 1898 3

Within the normal range, higher serum phosphate concentrations are associated with cardiovascular events and mortality in individuals with chronic kidney disease (CKD) and in those with normal kidney function. Experimental models suggest that phosphate has a direct calcifying effect on vascular smooth muscle. We examined associations of serum phosphate concentrations with vascular and valvular calcification in 439 participants from the Multi-Ethnic Study of Atherosclerosis who had moderate CKD and no clinical cardiovascular disease. Serum phosphate concentrations were within the normal range (2.5 to 4.5 mg/dl) in 95% of study participants. The prevalence of calcification in the coronary arteries, descending thoracic aorta, aortic valve, and mitral valve was 67, 49, 25, and 20%, respectively, measured by electron-beam or multi-detector row computed tomography. After adjustment for demographics and estimated GFR, each 1-mg/dl increment in serum phosphate concentration was associated with a 21% (P = 0.002), 33% (P = 0.001), 25% (P = 0.16), and 62% (P = 0.007) greater prevalence of coronary artery, thoracic, aortic valve, and mitral valve calcification, respectively. Adjustment for traditional risk factors for atherosclerosis, parathyroid hormone, or 1,25-dihydroxyvitamin D levels did not alter these associations. In conclusion, higher serum phosphate concentrations, although still within the normal range, are associated with a greater prevalence of vascular and valvular calcification in people with moderate CKD. It remains to be determined whether lowering phosphate concentrations will impact calcification risk in the setting of kidney disease.
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PMID:Association of serum phosphate with vascular and valvular calcification in moderate CKD. 1907 26

The relationship between vitamin D metabolites and subclinical vascular disease is controversial. Because low serum levels of 25-hydroxyvitamin D (25(OH)D) have been associated with many cardiovascular disease (CVD) risk factors, we hypothesized that serum 25(OH)D levels would be inversely associated with inflammation as measured by C-reactive protein (CRP) and with subclinical vascular disease as measured by carotid intimal medial thickness (cIMT) and coronary artery calcification (CAC). We measured 25(OH)D levels in 650 Amish participants. CAC was measured by computed tomography and cIMT by ultrasound. The associations of 25(OH)D levels with natural log(CAC + 1), cIMT, and natural log(CRP) levels were estimated after adjustment for age, sex, family structure, and season of examination. Additional analyses were carried out adjusting for body mass index (BMI) and other CVD risk factors. 25(OH)D deficiency (<20 ng/ml) and insufficiency (21-30 ng/ml) were common among the Amish (38.2% and 47.7%, respectively). 25(OH)D levels were associated with season, age, BMI, and parathyroid hormone levels. In neither the minimally or fully adjusted analyses were significant correlations observed between 25(OH)D levels and CAC, cIMT, or CRP (R (2) < 0.01 for all). Contrary to our hypothesis, this study failed to detect a cross-sectional association between serum 25(OH)D levels and CAC, cIMT, or CRP. Either there is no causal relationship between 25(OH)D and CVD risk, or if there is, it may be mediated through mechanisms other than subclinical vascular disease severity.
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PMID:Serum 25-hydroxyvitamin d levels are not associated with subclinical vascular disease or C-reactive protein in the old order amish. 1930 29

Management of secondary hyperparathyroidism (SHPT) in chronic kidney disease patients on hemodialysis (HD) can be challenging. Conventional treatments can lead to hypercalcemia and hyperphosphatemia, both of which are associated with vascular and soft tissue calcification and increased risk of cardiovascular disease. We report the effect of treatment with the Type II calcimimetic cinacalcet on vascular calcification in a HD patient with SHPT. A 40-year-old male with a 24-year history of kidney failure secondary to mesangial proliferative glomerulonephritis, commenced HD in October 2004 following chronic graft dysfunction. The patient was admitted to hospital with renal insufficiency and metabolic abnormalities. An anatomopathological study showed calcium (Ca) deposits in the alveolar septa, bronchial wall and pulmonary arterioles. Parathyroid methoxy isobutyl isonitrile (MIBI) scintigraphy revealed multiglandular parathyroid disease and an ectopic gland behind the sternal notch. Serum intact parathyroid hormone (iPTH) was repeatedly found to be > or = 2,500 pg/ml, and was accompanied by significant abnormalities in phosphorus (P) and Ca metabolism which were difficult to control. The patient was initially treated with sevelamer, low dose calcium carbonate, a low P and reduced protein diet and high doses of intravenous erythropoietin. In addition, he received HD with a high efficiency membrane for 4.5 hours, 4-times weekly. Treatment with cinacalcet was initiated at 30 mg/day and adjusted to achieve National Kidney Foundation Kidney Disease Outcomes Quality Initiative targets for iPTH, P, Ca and Ca-P product. One year following cinacalcet treatment, a chest x-ray showed a moderate reduction in Ca deposits, a bone X-ray showed a significant reduction in vascular calcifications, and parathyroid MIBI scintigraphy showed a disappearance of ectopic focus and minimal remains of glands. Significant reductions in calcemia were controlled by concomitant modifications to oral Ca supplementation, Ca concentration in the dialysis liquid, and administration of paricalcitriol. In the second year of treatment, iPTH was maintained within the target range, with moderate rises in P and stabilization of serum Ca. An echocardiogram showed an improvement in left ventricular hypertrophy. Chest and hand X-rays showed a progressive reduction in calcifications. Radiology showed an improvement in bone morphology, with reduced trabeculation and better cortical definition in the phalanx bones. In conclusion, the changes in iPTH, P and Ca associated with cinacalcet treatment were accompanied by reduced vascular and soft tissue calcification in this patient. There were no cardiovascular events and the patient experienced a marked improvement in quality of life.
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PMID:Cinacalcet reduces vascular and soft tissue calcification in secondary hyperparathyroidism (SHPT) in hemodialysis patients. 1920 18

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