View clinical trials related to Calcinosis.
Filter by:The VICTORIA Study (Vascular CalcIfiCation and sTiffness induced by ORal antIcoAgulation) is a comparative, parallel, prospective, controlled and randomized study of the structural and functional impact of rivaroxaban versus anti-vitamin K drugs on the arterial vasculature.
Aortic stenosis is a condition whereby one of the heart valves (aortic valve) becomes narrowed, due to calcium deposition, over time. This can lead to chest pain, heart failure and sudden death. It is the commonest valve disease requiring surgery in the developed world and as the population becomes increasingly older, it is predicted that the prevalence of aortic stenosis will double in the next 20 years. Currently the only treatment is replacement of the aortic valve. Whilst this is excellent treatment, not everyone is suitable for it. The primary objective of our study is to determine whether 2 drugs used in the treatment of osteoporosis (a condition of bone thinning) can halt/retard the progression of aortic stenosis. This is on the basis that studies have suggested that altered regulation of calcium metabolism may be an important mechanism perpetuating the disease. Both drugs work by reducing calcium release into the bloodstream from bones and therefore calcification of the aortic valve. 150 patients will therefore be randomly allocated to either of the trial drugs which are denosumab,the bisphosphonate (alendronic acid), or a placebo. Positron Emission Tomography (PET) scanning is a technique where biochemically active molecules are injected and are taken up at sites of ongoing calcification activity where they emit radiation and can be detected by the PET scanner. We have previously shown that this technique can demonstrate areas of newly developing calcification on an aortic valve. We therefore propose that patients receiving bisphosphonates or denosumab will have reduced evidence of active calcification and slower progression of their disease at two years as assessed by Echocardiography (ultrasound) and a change in their calcium score (quantity of calcium on the aortic valve measured using Computed Tomography [CT] ). The data from this study will then be used to design a larger trial.
Vitamin K-antagonists (VKA) such as warfarin are the most widely used blood thinners for irregular heart beats like atrial fibrillation. Several lines of evidence indicate, however, that these agents also cause calcification of vessels (hardening of the vessels). Vascular calcification is one of the recently revealed side-effects of warfarin therapy. We will be randomizing 66 patients to either take warfarin or a new blood thinner that works without affecting vitamin k (apixaban). Patients will undergo blood testing and a CT angiogram (non-invasive angiogram) at the beginning of the study, and then be followed for one year with quarterly visits including blood tests and given either warfarin or vitamin K. After one year, they will undergo another CT angiogram and examination and blood tests and the effect of apixaban and warfarin are tested to look at plaque and changes over time. Patients will be consented in a private room and the risks and benefits will be explained. The risks include the CT angiogram and the possibility of either remaining on warfarin therapy for another year (standard of care) or taking a medicine that doesn't require monitoring (apixaban) for one year. The CT angiograms will require some contrast and some radiation dose, which will be minimized as much as possible. A cardiologist will be present during each CT angiogram to minimize risk and ensure patient safety.
The following trial hypothesis will be proved: In patients with atrial fibrillation and/ or pulmonary embolism standard anticoagulant treatment with coumadin/phenprocoumon is associated with accelerated coronary or valvular calcification as assessed by cardiac computed tomography compared to the new anticoagulant therapy with rivaroxaban.
This is a 10 year study of scleroderma patients with calcinosis 1) to better understand how common and if there are any risk factors for having calcinosis 2) to identify common complications associated with scleroderma-related calcinosis. .
Coronary artery disease (CAD) remains the leading cause of mortality in the UK with an estimated 80,000 fatalities in 2010. Coronary artery calcification (CAC) is associated with atherosclerotic plaque burden and cardiovascular mortality. Mechanisms underlying isolated CAC have not been as yet been fully explained. MicroRNAs (miRNAs), known to act as regulators of gene expression, have also emerged as powerful biomarkers in the diagnosis and prognosis of cardiovascular disorders and may be used in the detection of CAC. We aim to investigate the potential for a "microRNA-signature" in patients with CAC by performing a prospective, case-controlled study to identify pathways associated with CAC in humans. Previous research has demonstrated an inverse relationship between CAC and bone mineral density (BMD), suggesting that these processes may be linked. In a further substudy we plan to define the relationship between CAC and BMD as well as a number of markers of bone metabolism.
The aim of this clinical research project is to test the hypothesis that daily dialysis has favorable effects on the calcification propensity of human serum, when determined by the investigators' newly developed in vitro serum test. The investigators' hypothesis is that shorter interdialytic intervals will result in an improved calcification propensity of serum. The determination of serum calcification has the potential to become a novel measure of dialysis quality in the future.
Cardiovascular disease (CVD) is the leading cause of mortality in patients with end-stage renal disease (ESRD), which means that it is important to find out risk factors of CVD in order to prevent or treat it. In recent years, there has been more and more recognition of a very high prevalence of CV calcification in the ESRD population. Many observational cohort studies have shown that CV calcification in these patients can predict mortality, CV mortality and morbidity. Electrolyte imbalance is easily found in the ESRD patients which may result in vessel calcification. Calcification leads to arterial stenosis and increasing arterial stiffness and then heart afterload, both contribute to the development of CVD. Besides, metabolic syndrome, insulin resistance, and dyslipidemia pave the way for a chronic, immune-mediated vascular inflammation and cardiovascular disease. These factors are prevalent in ESRD patients, which would also cause arterial stiffness. Arterial stiffness and stenosis would increase the risk of CV events and mortality. Aortic pulse wave velocity is strongly associated with the presence and extent of atherosclerosis and constitutes a forceful marker and predictor of cardiovascular risk. At the same time, high prevalence of peripheral artery occlusion disease (PAOD) should also be found while arterial stiffness and stenosis, which would increase the condition of infection and gangrene. Thus, life safety and quality would be influenced severely and early detection might prevent future amputation. As compared with HD or pre-dialysis patients, uremic patients treated with PD have a higher risk for metabolic syndrome. Therefore, more studies to evaluate the condition of arterial stiffness and PAOD, especially in PD patients, are needed for future management and preventions of CV related morbidity and mortality.
This study used the generally recognized as safe (GRAS) grade of Bacillus subtilis natto to produce Vitamin K2, Menaquinone-7(MK-7), via fermentation, for functional evaluation. There are four major objectives for this study: (1) bioavailability of calcium; (2) evaluation of bone density improvement; (3) evaluation of blood-vessel calcification and sclerosis improvement; (4) safety evaluation.
This study seeks to compare aortic dimension changes during cardiac cycle in patients with and without aortic valve calcification and to evaluate its correlation with aortic valve calcium score in former group.