View clinical trials related to Calcinosis.
Filter by:Peritoneal dialysis patients are at increased risk of cardiovascular morbidity and mortality and are related to the presence of accelerated atherosclerosis. Our recent data showed that inflammation predicts mortality and cardiovascular death, independent of other cardiovascular risk factors in peritoneal dialysis patients. As a considerable proportion of peritoneal dialysis patients showed evidence of inflammation, it raises an important question as to whether anti-inflammatory treatment has any cardiovascular and survival benefit in these patients. The peroxisome proliferator-activated receptor-gamma (PPAR-g) agonist is a class of drug with insulin sensitizing property. Recent experimental and clinical studies demonstrated that this class of drug has anti-inflammatory and anti-atherosclerotic properties other than insulin sensitizing effect in type 2 diabetics. We therefore hypothesize that modulation of the PPAR-g activity may be a novel therapeutic strategy for reducing inflammation and retarding the progression of atherosclerosis and possibly lowering mortality in our peritoneal dialysis patients.
Arterial calcification within the coronaries and other vessels is greatly accelerated among patients with chronic or end-stage kidney disease. The mechanisms leading to increased calcification are unknown, but include hyperphosphatemia, hyperparathyroidism and altered vitamin D metabolism. Moreover, recent data demonstrates that circulating carboxy fragments of PTH (7-84) are physiologic antagonists of intact PTH (1-84) and may directly contribute to vascular calcification. Current PTH assays no not distinguish between intact and carboxy PTH fragments leading to an overestimation of intact PTH levels. Because second generation PTH assays detect both 1-84 and 7-84 PTH fragments, the use of vitamin D analogues to treat secondary hyperparathyroidism could lead to excessive suppression of 1-84 and a preponderance of carboxy PTH fragments. Moreover, increased administration of vitamin D analogues amy contribute to vascular calcifications. To investigate these questions, we plan to investigate the effect of managing new ESRD patients using conventional and third generation PTH assays on vitamin D administration and the development of coronary calcification. Hypothesis #1: Clinical management of secondary hyperparathyroidism in new hemodialysis patients using the Scantibodies 1-84/7-84 PTH ratio for one year will reduce the amount of Vitamin D administration resulting in reduced coronary calcification compared to patients in which PTH management is accomplished by conventional, second generation PTH assay.
This prospective, randomized, controlled study aims to investigate the effects of atorvastatin treatment in hemodialysis patients concerning progression of coronary artery calcification, progression of carotid artery intima-media thickness, endothelial function, and inflammation.
Cardiovascular disease (CVD) is the commonest cause of mortality in patients with chronic kidney disease (CKD) and end-stage kidney disease (ESKD). Reasons for the greater incidence of CVD in this group include traditional CVD risk factors of hypertension, dyslipidemia and diabetes but more importantly also include non-traditional risk factors such as calcium and phosphate imbalance. The latter is thought most likely to contribute to vascular calcification, especially for those on dialysis, and this in turn leads to arterial stiffness and left ventricular hypertrophy, the two commonest cardiovascular complications. Arterial stiffness and calcification have been found to be independent predictors of all-cause and cardiovascular mortality in CKD. Few studies, though, have looked at both structural and functional changes associated with calcification and there have been very few interventional studies addressing this issue. Control of calcium and phosphate levels in CKD can occur with the use of medications that reduce elevated serum phosphate (phosphate binders, mostly calcium-based) and those to treat hyperparathyroidism (vitamin D and more recently calcium sensing receptor agonists called calcimimetics). These pharmacological managements addressing calcium and phosphate imbalance reduce vascular calcification and CVD. Bisphosphonate therapy may also have a role in reduction of calcification. Low bone mineral density (BMD) is common in CKD patients and predicts increased fracture risk similar to the general population. Bisphosphonate therapy improves BMD and lowers the fracture risk. Bisphosphonates may also have a role in secondary hyperparathyroidism to reduce hypercalcemia and allow for more aggressive calcitriol treatment. Recent studies have addressed the possibility of bisphosphonates reducing the progression of vascular calcification in CKD and revealed that the extent of calcification may be suppressed in association with a reduction in chronic inflammatory responses. The investigators aim to perform a prospective, randomised study assessing the impact of alendronate on cardiovascular and bone mineral parameters. This will be a single-centre study involving subjects with CKD Stage 3 (those patients with GFR between 30 and 59ml/min). Arterial stiffness (by pulse wave analysis and pulse wave velocity) and vascular calcification (using CT scans through superficial femoral artery) will be followed as well as serum markers of calcium, phosphate and PTH. Differences in these end-points will be compared between participants taking alendronate and those not. The study will be conducted over a 12 month period and the investigators aim to recruit about 50 patients (25 on alendronate and 25 control).
The purpose of this study is to evaluate whether cinacalcet + low dose vitamin D attenuates the progression of vascular calcification over one year, compared with a treatment regimen that includes flexible vitamin D dosing in the absence of cinacalcet, in subjects with chronic kidney disease receiving hemodialysis
End-stage renal disease (ESRD) is a state of increased arterial stiffness of extensive vessel calcifications, compared with the non-renal population. Both arterial stiffness and arterial calcifications are potent predictors of all-cause and cardiovascular mortality in ESRD patients. Several studies have documented the direct relationship between the extent and severity of arterial/coronary calcifications and outcome in dialysis patients. The relationship is strong no matter if arterial calcifications were quantified by electron-beam computed tomography or a radiological calcification score. Calcifications are early and progressive events in these patients. PWV is strongly related to the degree of sonographic determined arterial calcifications and EBCT-derived coronary artery calcium score in chronic kidney disease patients. Calcium-based phosphate binders are associated with progressive coronary artery and aortic calcification, especially when mineral metabolism is not well controlled. According to recent studies, sevelamer hydrochloride is a potent non-calcium-containing phosphate binder, well tolerated in ESRD. Compared with calcium-based phosphate binders, sevelamer is less likely to cause hypercalcemia, low levels of PTH, and progressive coronary and aortic calcification in hemodialysis patients. Moreover, sevelamer has a favorable effect on the lipid profile. Less is known about the relationship between sevelamer treatment and progression of arterial stiffness. To date, there is one single study examining the influence of sevelamer (versus calcium carbonate) on the evolution of arterial stiffness in a very small number (N=15) of haemodialysis patients. These study used the same patients as historical controls, thus being methodologically rather weak. Moreover, the follow-up was quite short - 6 month. The aim of the trial is to to quantify, in a randomized opened-labeled controlled trial the effect of sevelamer hydrochloride on the evolution of arterial stiffness parameters (pulse wave velocity and the augmentation index) in chronic haemodialysis patients and to correlate these parameters with arterial calcification assessed by a previous described radiological score of arterial calcification and echocardiographic parameters (left ventricular hypertrophy, LV dilatation, systolic and diastolic dysfunction).
Hyperphosphatemia is frequently seen in patients with end-stage renal disease (ESRD). Hyperphosphatemia usually results in a high calcium-phosphorus product (CPP) which may subsequently lead to artery and become a risk factor of cardiovascular complications. Alendronate, due to its effect of inhibiting osteoclasts, is approved for treatment of osteoporosis. Previous reports found the use of bisphosphonates could suppress arterial calcification in hemodialysis dialysis patients. The aim of this study is to evaluate the safety and efficacy of alendronate to suppress coronary artery and aortic calcifications, as well as to improve bone density in chronic peritoneal dialysis (PD) patients. This study will include ESRD patients who had received maintenance PD for more than 3 months, have high CPP level (≧55), and have chest X-ray proven aortic calcification or coronary artery calcification. All participants are randomly allocated to either group 1 or group 2. Group 1 patients receive alendronate 70 mg once weekly in the first 16 weeks, while group 2 patients receive the same dose of drug every week in the second 16 weeks. The extent of coronary artery and aortic calcification is evaluated by using multi-detector spiral computed tomography, whereas bone mineral density is measured by dual-energy X-ray absorptiometry. Both examinations are performed at week 0, 16 and 32 for each participant. Laboratory studies and possible adverse reactions were regularly monitored. We expect that alendronate can alleviate the progression of arterial calcification or even improve it. Bone density may also be improved after treatment. Besides, we wish to find the independent factor(s) influencing the efficacy of alendronate. These results may help clinical physicians for early intervention and prevention of cardiovascular complications in ESRD patients.
The high rate of cardiovascular complications in the dialysis population cannot be explained by traditional cardiovascular risk factors. One of such factors proposed to contribute to the cardiovascular mortality in dialysis patient population is vascular calcification possibly resulting from disturbances of calcium-phosphate metabolism. The aim of this study is to assess the effects of treatment with dialysate containing 1.75 or 1.5 mmol/L to 1.25 mmol/L calcium regarding coronary artery calcification and bone histomorphometry in hemodialysis patients.
Alendronate is a safe and effective drug for treating osteoporosis in post-menopausal women. However, its safety and efficacy in increasing bone mineral density in chronic peritoneal dialysis (PD) patients have not been investigated. Etidronate, another bisphosphonate, can suppress the extent of coronary artery calcification in chronic hemodialysis patients. The hypothesis of this study is that alendronate can increase bone mineral density and suppress aortic and coronary artery calcification in chronic peritoneal dialysis patients.
The purpose of the study is to evaluate the effects of two phosphate binders, PhosLo and sevelamer, on heart calcification in dialysis patients. The study will use a non-invasive technique, electron beam computed tomography (CT) scanning, to measure calcium in the coronary arteries, the aortic valve, and the mitral valve.