View clinical trials related to Coronary Calcification.
Filter by:This is a French, prospective, single-arm, multi-center registry to confirm the safety and efficacy of the Diamondback 360 TM Orbital Atherectomy System in the preparation of de novo calcified coronary lesions before implantation of a coronary endoprothesis in adult subjects. The primary safety endpoint is 30-day MACE and the efficacy endpoint is procedural success.
This study to compare periprocedural safety, angiographic success as well as short and long term outcomes of intravascular lithotripsy and rotational atherectomy as a method of severely calcified coronary lesion preparation before DES implantation.
Until 2013 the reported incidence of chronic kidney disease varied widely between countries, reporting the highest prevalence Taiwan, the region of Jalisco in Mexico and United States, with 458, 421 and 363 individuals per million inhabitants respectively. Mexico has around 52,000 patients in replacement therapies, of which 80% of patients are treated in the Instituto Mexicano del Seguro Social (IMSS). In each stage of renal disease the principal cause of mortality is cardiovascular disease. The risk of cardiovascular mortality is greater than the general population. Arterial calcification, a marker of atherosclerosis and cardiovascular mortality predictor is common in chronic kidney disease. The presence of arterial calcification leads to an increase in arterial stiffness and to a decrease in coronary perfusion resulting in cardiac hypertrophy and myocardial ischemia. The presence of traditional cardiovascular risk factors like diabetes, hypertension, hyperlipidemia and old age cannot fully explain the high prevalence of atherosclerosis and arterial calcification in chronic kidney disease. Another specific factors related to chronic kidney disease, like hyperphosphatemia, high calcium concentration in dialysis solutions, use of high doses of vitamin D for the management of hyperparathyroidism has been shown to positively influence development of arterial calcification. Invitro studies show that in presence of hyperphosphatemia smooth muscle cells are transformed into osteoblast-like cells that can express proteins that regulate mineralization. Two of this proteins, the matrix Gla protein (MGP) and osteocalcin (OC) are regulators of tissue mineralization in arterial walls and bones respectively. Vitamin K is required as cofactor in the gamma-carboxylation process of several extracellular matrix proteins, converting inactive carboxylated proteins to carboxylated active proteins. Prothrombin and coagulation factors 7,9 y 10 require vitamin K2 for its carboxylation process, while osteocalcin and the matrix Gal protein require vitamin K1. Matrix Gla protein is a calcification inhibitor that plays an important role in the prevention of arterial calcification. For carboxylation and correct function of the MGP is necessary an enzymatic cofactor, vitamin K; this is corroborated in the fact that the antagonism of vitamin K with warfarin antagonizes the carboxylation of MGP and produces rapid arterial calcification. There are currently no studies evaluating vitamin K in the prevention of vascular calcification in patients with chronic kidney disease, therefore, the role of vitamin K in the patient with kidney disease needs to be clarified with randomized controlled studies, in which the target will be this population of patients at high risk. The aim of this study is evaluate the effect of phytomenadione on coronary artery calcification of patients on hemodialysis compared to placebo, our research hypothesis is that phytomenadione slows the progression and favors the regression of coronary arterial calcification in patients on hemodialysis compared to placebo, evaluating the coronary calcium score by coronary tomography. As secondary objectives was determine changes in the baseline coronary calcium score and at 12 months of use of phytomenadione and presence of cardiovascular events like acute myocardial infarction, unstable angina and death of cardiac cause. The intervention group received phytomenadione 10 mg (1 vial in the venous line of the extracorporeal hemodialysis circuit) post hemodialysis 3 times a week for 12 months and the control group 1 vial of placebo solution (solution for injection in the venous line of the extracorporeal hemodialysis circuit) post hemodialysis 3 times a week for 12 months. The follow-up of the patients was for 12 months, at the end of the follow-up, a coronary control tomography was performed by the Radiology Department to assess the final calcium score. Relative risk measurement (RR), absolute risk reduction (ARR) and number to be treated (NTT) were performed.
The purpose of the study is to assess whether the use of warfarin, a commonly used anticoagulation drug, is associated with increased amounts of coronary artery calcification. Studies in animals and preliminary but small retrospective studies in humans have suggested a possible link to increased tissue calcification with use of this drug. The researchers will investigate this by assessing the amount of calcification seen in the coronary arteries using a specialized computed tomography (CT) scan (electron-beam CT) and assessing to see if the amount is influenced by the amount of time a patient has been taking warfarin. The researchers will exclude patients with known coronary artery disease, chronic kidney disease or hyperparathyroidism.
In this open, prospective, non-randomised, parallel group, unicentric pilot-study will be compared the progress of valvular and coronary calcification with regard to the therapy with either acetyl-salicylic acid or phenprocoumon. The progress of calcification is documented by comparison of cardial stratified computed tomography. It is supposed that treatment with phenprocumon leads to increased coronary and valvular calcification as well to decreased blood levels of carboxylated matrix-GLA-protein
Patients with chronic kidney disease (CKD) have a higher mortality rate than the general population, with cardiovascular disease (CVD) accounting for approximately 50% of deaths. Vascular calcification is a common finding in patients with CKD. Furthermore, patients with CKD develop secondary hyperparathyroidism, partly because of a decrease of calcitriol synthesis on the kidney. Treatment of secondary hyperparathyroidism includes use of activated vitamin D including calcitriol and paricalcitol. Recent evidence in dialysis patients suggest an improved survival in patients using paricalcitol compared to calcitriol. Studies in uremic rats suggests that there are differential effects of calcitriol and paricalcitol in expression of markers of soft-tissue calcification independent of calcium-phosphorus product. Calcitriol increased calcification of vascular smooth muscle cells cultured in calcification media. There was also significant increase in pulse pressure in animals treated with calcitriol. The investigators hypothesize that these different forms of vitamin D may have differential effects in vascular calcification progression in CKD patients.
The present study will examine the treatment effect of sodium thiosulfate on coronary calcification in patients on hemodialysis.
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.