View clinical trials related to Calcinosis.
Filter by:Prospective study with an echography of the 2 knees and radiography of the 2 knees (front and profile) for each patient. If found calcification on ultrasound further examination with ultrasound wrists, hips and shoulders.
In this mono-center,open,three-armes, controlled, randomized phase I study the progress of aortic valve calcification with and without vitamin K supplementation will be investgated. This will be done by means of measurements of concentrations from osteocalcine and MPG in blood serum, echocardiography, cardiac computed tomography and cardiac MRI
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.
Research proposal to evaluate the impact of different phosphate binders on the progression of cardiovascular calcification and QT dispersion in new haemodialysis patients.
A not randomized , cross sectional study will be done to determine the possible association of coronary artery calcification (CAC) score assessed by multirow spiral computed tomography (MSCT) with specific and non specific uremic factor of vascular calcification.
Kidney disease is a fundamental part of medicine because of its prominence in Western society. Common conditions such as diabetes, hypertension and kidney infections can all progress to End-Stage Renal Disease (ESRD) also known as Stage 5 chronic kidney disease (CKD 5). Once ESRD has begun, kidney function is poor at best, thus the body is unable to effectively clear harmful toxins from the blood. A common feature of ESRD is vascular calcification, a process where blood vessels (especially arteries) attract deposits of the mineral calcium. Over time, these deposits harden and thicken in the layers of blood vessels, which limit blood flow to body tissues and can produce significant disease including hypertension, heart disease and stroke. Although the process of vascular calcification is unknown, there is mounting evidence that it is mediated by cellular events that are similar to those seen in bone formation with in the body (osteogenesis). With this point in mind, it has been suggested that agents medicine employs to limit excess bone formation will reduce the rate of vascular calcification in CKD Stage 5. This study will employ one group of drugs called bisphosphonates which have been used to limit bone formation. It will study their effect on vascular calcification in adult dialysis patients.
Cardiovascular disease is the major cause of death in the hemodialysis population and calcification of the major arteries (coronary, aorta, and carotid) are a play a central role in this process. The major causes of the calcification are many, including high levels of phosphorus, low levels of inhibitors of calcification, positive calcium balance, and oxidative stress. Once vascular calcification is present, it is usually progressive. There is no known treatment to reverse established vascular calcification. Sodium thiosulfate has been used extensively and safely to treat calcific uremic arteriopathy (a disease, in part due to calcification of small arteries) in dialysis patients. It increases the solubility of calcium by up to 100,000 fold and is also a potent anti-oxidant. It therefore has to potential to also decrease the amount of calcium in large arteries in dialysis patients and, hence improve survival. We will study hemodialysis (HD) patients at high risk for cardiovascular disease and death by obtaining a multidetector computerized tomography (MDCT) Scan of the coronary arteries, carotid arteries and aorta and an assessment of coronary artery stenoses by a simultaneous intravenous infusion of contrast. At the same setting, we will perform tests of pulse wave velocity (PWV) and carotid ultrasound carotid intima-media thickness(CIMT)studies. In those patients at high risk for cardiovascular death, defined as a coronary artery calcification score (CACS)of greater than 50, sodium thiosulfate at a dose of 12.5-25 gm/1.73 M2 will be infused over 15-30 minutes after each dialysis treatment for 5 months. The above studies will then be repeated.
The purpose of this study is to determine the: - Natural history of calcification posttransplantation - Natural history of BMC following renal transplantation - Reverse correlation between calcification score and aortic calcifications following renal transplantation - Correlation of IMT, BMC, PWV and biochemical variables - Correlation of IMT, BMC, PWV, biochemical variables and outcome - Predictors of CV disease after transplantation - Predictors of IMT progression, BMC loss and PWV progression after renal transplantation