View clinical trials related to Cardiovascular Diseases.
Filter by:This study investigates the effectiveness of Mobile health application (mHealth apps) in the improvement of cardiovascular disease risk factors including metabolic and behavioral factors. The app will be tested on patients with any of the modifiable risk factors of CVD such as hypertension, obesity, hyperlipidemia, and impaired glycemic control/type 2 diabetes mellitus .
This study relates to men with hypogonadism, a condition describing a deficiency of androgens such as testosterone. Deficiency of these hormones occurs in men due to testicular (primary) or hypothalamic-pituitary (secondary) problems or may be observed in men undergoing androgen deprivation therapy for prostate cancer. Testosterone plays an important role in male sexual development and health, but also plays a key role in metabolism and energy balance. Men with testosterone deficiency have higher rates of metabolic dysfunction. This results in conditions such as obesity, nonalcoholic fatty liver disease, diabetes, and cardiovascular disease. Studies have confirmed that treating testosterone deficiency with testosterone can reduce the risk of some of these adverse metabolic outcomes, however cardiovascular mortality remains higher than the general population. We know that testosterone deficiency therefore causes metabolic dysfunction. However, research to date has not established the precise mechanisms behind this. In men with hypogonadism there is a loss of skeletal muscle bulk and function. Skeletal muscle is the site of many critical metabolic pathways; therefore it is likely that testosterone deficiency particularly impacts metabolic function at this site. Men with testosterone deficiency also have excess fat tissue, this can result in increased conversion of circulating hormones to a type of hormone which further suppresses production of testosterone. The mechanism of metabolic dysfunction in men with hypogonadism is therefore multifactorial. The purpose of this study is to dissect the complex mechanisms linking obesity, androgens and metabolic function in men. Firstly, we will carry out a series of detailed metabolic studies in men with testosterone deficiency, compared to healthy age- and BMI-matched men. Secondly, we will perform repeat metabolic assessment of hypogonadal men 6 months after replacement of testosterone in order to understand the impact of androgen replacement on metabolism. Lastly, we will perform the same detailed metabolic assessment in men with prostate cancer before and after introduction of a drug which causes testosterone deficiency for therapeutic purposes.
Cardiovascular Disease (CVD) is the leading cause of mortality and morbidity globally. Following a myocardial infarction (MI), an individual is at an increased risk of a secondary event (20-50% higher risk post MI), compared to those with no prior CVD. Independent of physical activity levels, high amounts of daily sitting is a risk factor for CVD, of which sitting is typically used as an indicator for sedentary behaviour. Sedentary behaviour is defined as a waking energy expenditure of less than 1.5 METs (metabolic task equivalent) while in a seated, reclined or lying posture. Currently, there is little knowledge regarding the prevalence of sedentary behaviour ischaemic heart disease. The aim of this study is therefore to measure activity levels of an individual following a diagnosis of ischaemic heart disease, alongside its association to cardiac function and cardiovascular risk factors. Sitting patterns and physical activity will be monitored 24 h/day during each condition using an activPAL activity monitor (PAL Technologies, Glasco, Scotland). This will measure changes in posture and level of activity by cadence.
An immediate perioperative parameter that assess the integrity of the Erythrocytes Membrane and therefore their structural quality isn't available in clinical practice and medical diagnostics except through indirect clinical biochemical tests or through the scanning electron microscope. The red blood cell (RBC) membrane contains proteins and glycoproteins embedded in a fluid lipid bilayer that confers viscoelastic behavior. Sialylated glycoproteins of the RBC membrane are responsible for a negatively charged surface which creates a repulsive electric zeta potential (ΞΆ) between cells. These charges help prevent the interaction between RBCs and the other cells and especially between each other. The zeta potential is a physical property which is exhibited by all particles in suspension. The development of a net charge on any particle affects the distribution of ions in the surrounding interfacial region resulting in an increased concentration of counter ions of opposite charge to that of the particle, close to the surface. In this context we present a new parameter that studies the interactions of the Erythrocytes membrane treated with positive ions and their maintenance of the charge. We compared the measured polarization values with the Erythrocyte Sedimentation Rate (ESR), expression of speed with which RBCs tend to settle inside a particular graduated capillary called Westergren's tube and Plasma Free Hemoglobin (pFHb).
This multicenter, double-blinded, randomized controlled trial aims to evaluate the effect of berberine on preventing cardiovascular disease and diabetes mellitus among individuals with high cardiometabolic risk in China.
The goal of this observational study is to learn whether the healthy lifestyle choices made around surgery can influence an individual's long term risk of developing cardiovascular disease. Patients will be observed 1-month prior to and 3-months following surgery to assess their risk of developing cardiovascular disease.
The main research questions for this study are: (1) Is delivering a resiliency-informed behavioural intervention designed to increase physical activity (PA) feasible for adolescents living with Type 2 Diabetes (T2D)? and (2) What is the expected change in proposed cardiovascular outcomes after 12 weeks in both study arms? Qualitative and quantitative methods embedded in this pilot randomized trial will answer these questions and determine the feasibility of a larger randomized controlled trial.
Periodontitis is a chronic inflammatory disease mainly caused by the oral microbial biofilm. It involves the periodontal supporting tissues mainly features gum inflammation, alveolar bone resorption, periodontal pocket formation, and tooth loosening but also induces various systemic diseases, which seriously affect the physical and mental health of patients. The response to periodontal infection is mediated by various intracellular signalling pathways leading to the production of numerous bio-molecules. Vitronectin is a multifunctional protein with a multiple binding domain that interacts with a variety of plasma and cell proteins. It belongs to the group of adhesive glycoproteins that is involved in various functions including complement activation, blood coagulation, binding to proteoglycans, and modification of the matrix. Among the various cystatins expressed in serum and saliva, Fetuin-A, an another protein is produced majorly by healthy hepatic and adipose tissues. Fetuin-A has been recognized as a multifunctional molecule related to its role in metabolic processes, insulin resistance, regulation of adipogenesis and mineralization throughout the body. The study aims to determine the expression of Vitronectin and Fetuin-A as potential pro-inflammatory and anti-inflammatory biomarkers respectively. These protein molecules can further play a role as putative risk indicators in periodontitis subjects with and without coronary artery disease following non-surgical therapy.
Pulmonary arterial hypertension (PAH) is a serious, progressive disease that causes pulmonary arterial pressure, significantly affecting functional capacity and quality of life. Over the last few years, knowledge in pulmonary hypertension has evolved consistently and significantly. New diagnostic and treatment algorithms were combined based on the results of several clinical studies that showed the usefulness of new tools, as well as the effectiveness of new drugs as well as non-pharmacological treatment. The new guidelines felt the benefits of physical exercise in individuals with PAH, with promising results in improving symptoms, exercise capacity, peripheral muscle function and quality of life. With the COVID 19 pandemic, the complex scenario was for world health, and social distancing made it impossible to carry out individual outpatient rehabilitation, in groups and in person, indicating the need for rehabilitation programs, including physical training, to be adapted to the domicile. New alternative modes of pulmonary rehabilitation include home-based models and the use of telehealth. Telerehabilitation is the provision of rehabilitation services at a distance, using information and communication technologies. To date, there has been no evaluation of the clinical efficacy or safety of telerehabilitation in the population affected by PAH.
Nova Scotians are aging and many are becoming frailer. People with frailty are more likely to live in worse health and do not recover well from major events, such as open heart surgery. Many people are also too frail to receive open heart surgery. Less invasive procedures called transcatheter aortic valve implantation, or TAVI, are provided for the frailest patients. While TAVI is life-saving, frailer patients are less likely to survive in better health after their operation. Patients in Nova Scotia can also wait up to 3-6 months for their operation where they become frailer or can die before receiving TAVI. The investigators believe that it is important to support these individuals to improve their frailty and overall health before their operation. Center-based cardiac rehabilitation is offered to patients after, but not before TAVI to improve their health. Center-based preoperative cardiac rehabilitation (i.e., PREHAB) can safely improve the function of frail patients who received open heart surgery. However, many patients cannot come to a center-based PREHAB because of transportation requirements to access the program. Another option is to support these patients with virtually delivered PREHAB, where they can stay in their homes. However, this possibility has not been studied. For this study, virtual PREHAB will be delivered using the virtual cardiac rehabilitation program in Nova Scotia to patients before TAVI. This intervention will be delivered by healthcare providers who routinely care for TAVI patients, including a medical director, program lead, nurse, physiotherapist, and dietician. Ther goal of this study is to determine if it is feasible and safe to use virtual PREHAB to reduce frailty before TAVI. This research fits with Research Nova Scotia's priorities to improve patient outcomes in those with significant long-term health conditions, and to provide accessible, safe, and quality virtual healthcare to patients so they can thrive after their operation.