View clinical trials related to Cardiovascular Diseases.
Filter by:The existing scientific evidence from both in vitro and clinical trials supports the notion that polyphenols can modulate platelet function. Beyond being central players in haemostasis and thrombosis, platelets have crucial roles in the development of atherosclerosis, mediated through their interactions with monocytes and endothelial cells. Disturbed platelet function correlates with other risk factors, including hypertension and obesity, and the progression of cardiovascular diseases (CVD), postulating platelets as rational targets in CVD prevention. Thus, the effects of polyphenols on disturbed platelet function would contribute to their pleiotropic beneficial effects of on cardiovascular health. Aronia juice is a rich source of polyphenols including anthocyanins, procyanidins, phenolic acids and flavonols. However, there is no clinical evidence on the effects of aronia juice consumption on platelet function and related CVD factors. The purpose of this study is to investigate the effects of Aronia juice polyphenols on platelet function and other CVD risk factors in subjects with moderate CVD risk.
The 'no-reflow' phenomenon after a percutaneous coronary intervention (PCI) in patients with acute ST-segment elevation myocardial infarction (STEMI) is a strong predictor of both short- and long-term mortality. Faster antiplatelet activity and increased levels of adenosine provide a theoretical basis for ticagrelor to effectively prevent no-reflow after PCI. We planned to evaluate the effects of ticagrelor on myocardial no-reflow after PCI for STEMI.
Milk is the source of high-quality protein, calcium, and other vitamins and minerals. Epidemiologic studies have linked high consumption of milk with risk of metabolic syndrome, T2DM, hypertension and obesity, which are independent risk factors of cardiovascular disease. However, milk contains disaccharide lactose, which may cause gastrointestinal problems in those adults with poor digestion. Recent studies have shown that subjects with intolerance to lactose tend to reduce their consumption of milk. Actually, consumption of 12g lactose (240ml milk) per day produces negligible symptoms in lactose intolerant. Furthermore, a dairy-rich diet could improve lactose intolerance because of colonic adaption to it. Lactose maldigestion would not be a restricting factor in milk intake. In general, the undigested lactose will be fermented by colonic bacteria into hydrogen, carbon dioxide, and short-chain fatty acids (SCFA: acetate, propionate, and butyrate). The SCFAs may have beneficial effects on human glucose and lipid metabolism, and the lactose fermentation may change the intestinal flora profile. But there are few studies evaluating effect of milk intake on health of people with lactose malabsorption or intolerance.This trial intend to study the effect of whole milk on cardio-metabolic risk factors of healthy person with or without lactose maldigestion.
The continuously increasing prevalence of cardiovascular diseases, type-2 diabetes, and COPD is a major health problem in developed countries and is mainly caused by an unhealthy lifestyle. Most important lifestyle related causes of morbidity and mortality are smoking, obesity and physical inactivity, and increasing rates of obesity and physical inactivity in combination with smoking will lead to an increase in the number of patients with lifestyle related diseases in the coming decades. There is, therefore, an urgent need to identify and establish strategies and to implement interventions, allowing for the identification and management of citizens at increased risk of disease. Two recent systematic reviews of general practice based health checks suggest that people at increased risk of a chronic disease may benefit from a targeted approach to health checks. Targeted or selective preventive actions are a generally accepted and well integrated part of the health care system (e.g. treatment of hypertension and hyperlipidemia). However, selective prevention is challenged in terms of how to identify citizens at increased risk of disease in the general population in order to start the indicated preventive actions. The aim of the present pilot study is to test the acceptability, feasibility and short-term effect of a selective preventive program that systematically helps citizens evaluate individual risk of lifestyle related disease and offers targeted and coordinated preventive services in the primary health care sector. The intervention comprises four elements: 1) Systematic collection of information on lifestyle risk factors using questionnaire 2) Risk estimation and stratification into risk groups based on questionnaire data and information from the electronic patient record (EPR) using validated risk estimation models, 3) An individual electronic health profile with personalized advise on lifestyle change and 4) targeted preventive services at the general practitioner (GP) or the municipality for citizens at risk of lifestyle disease and citizens with risk behavior, respectively. The intervention is supported by a patient-centered health information system that facilitates informed patient action and integrates general practice and municipality health care providers.
The aims of the study are twofold. In the cross-sectional approach (Part I), the study will be conducted in an older population to assess the association of physical fitness on different parts of the human vascular bed. In the interventional approach (Part II), it aims to investigate whether and to what extent advanced vascular ageing (AVA) in older subjects with increased cardiovascular risk can be reversed by regular walking- based high intensity interval training.
Background. Statins are cholesterol lowering drugs that are prescribed to lower the risk of cardio-vascular diseases. The use of statins has increased markedly and it is now one of the most prescribed drugs in the world. More than 600,000 people in Denmark are taking statins on a daily basis, approximately 40 % of these are taking the medication without having any other risk factors for cardio-vascular diseases than elevated blood-cholesterol i.e. they are in primary prevention. Statins are not without side effects and studies have shown that there is an elevated risk of developing diabetes when taking statins. This has led to an increased debate about the use of statins in primary prevention. Furthermore a large meta-analysis has shown that to prevent one event of cardio-vascular disease, it is necessary to treat 200 people for 3-5 years. These data suggest that more conservative use of statins to prevent CVD in otherwise healthy individuals at low risk for future CVD may be warranted. Other side effects of statins are muscle myalgia, muscle cramps and fatigue which potentially can prevent a physically active lifestyle. The biomedical background of these side effects is not fully elucidated but it has been shown that there is a link to decreasing levels of an important enzyme, Q10, which plays a role in muscle energy metabolism. Hypothesis The overarching research question is: why does statin treatment cause muscle pain? Does statin treatment impair (or even prohibit) physical exercise training? Furthermore the following questions will be investigated: A. Does statin treatment cause: 1. Decreased muscle strength? 2. Skeletal muscle inflammation? 3. Decreased mitochondrial respiratory function? B. Abnormal glucose homeostasis? Re question A & B: If so, can physical training counteract this effect of statin treatment?
This study will evaluate a complex intervention based on a patient management tool (PMT), combined with educational outreach to primary care doctors, nurses and other health workers, in the Brazilian city of Florianopolis. The intervention is aimed at improving the quality of primary health care and health outcomes, in adults with diabetes and cardiovascular disease (CVD). The effectiveness of the intervention will be assessed by randomly allocating 48 primary care clinics to receive the intervention or not, and comparing patient and clinic level endpoints that reflect the health and quality of care provided over the following year. About 11000 patients known to have been diagnosed with diabetes mellitus and 32000 with CVD (defined as having a diagnosis of hypertension, ischemic heart disease, heart failure or cerebrovascular disease) in participating clinics will be included in the study. About 7800 of them have diagnoses of both CVD and stroke. The primary endpoints will be 1. Number of participants in whom at least one of the following tests was recorded: body mass index, plasma glucose, serum cholesterol, electrocardiogram, and 2. in participants with a diagnosis of hypertension recorded previously, average systolic blood pressure recorded. Secondary endpoints will include the individual components of the composite scores, health measures (hospital admissions and deaths), and indicators of appropriate diagnosis of comorbid conditions such as depression. Eligible patients will be identified and outcomes measured using electronic medical records.
The Strength study aim to evaluate the use of the RenalGuard device to protect the patients at high risk to develop acute kidney injury following a complex cardiovascular intervention requiring a high volume of contrast.
Study a sample of patients in primary prevention, moderate cardiovascular risk (n = 83 patients), with normal, non-diabetic renal function. The investigators quantify the phophocalcic intake and excretion, realizing a food examination and a urine collection of 24 particular. The investigators will measure plasma levels of FGF23 serum calcium, phosphatemia, the investigators will calculate the tubular reabsorption of phosphate. The investigators will conduct a quantitative assessment of coronary calcification by a non-injected CT scan, measuring semi automated way Agatston calcium score. There will be an analysis of collinearity. An adjustment will be made for confounding variables in a generalized linear regression model.
The goal of this study is to determine if a remote cardiac or pulmonary rehabilitation program delivered via a smartphone application and regular telephone calls will lead to improved delivery of cardiac rehabilitation compared to usual care. This includes increased adherence for eligible veterans, increased program completion, improved patient outcomes as measured by functional capacity, improved patient compliance in monitoring symptoms, improved self-efficacy and knowledge in managing disease and, a decreased rate of hospitalization and re-admissions.