View clinical trials related to Cardiovascular Diseases.
Filter by:Objective propose: to investigate the effect of home based breathing exercise and chest mobilization on the cardiorespiratory functional capacity of Covid-19 survivors with cardiovascular comorbidity. Breathing exercise and chest mobilization are proven to increase lung functional capacity in Covid-19 survivors. It is hypothesized that breathing exercise and chest mobilization in Covid-19 survivors will give benefits to Covid-19 survivors with cardiovascular disease.
The DUNDRUM Forensic Redevelopment Evaluation study (D-FOREST study) is a multi-site comprehensive evaluation of a complete National Forensic Mental Health Service. The study will have a prospective, observational, longitudinal design which will permit the evaluation of benefit over time for individual patients, groups of patients and the evaluation of the benefit in terms of service based outcomes of the redevelopment of a complete National Forensic Mental Health Service e.g. effects on waiting list times, length of stay. The study will systematically evaluate multiple domains of recovery in a complete National Forensic Service, including patients' physical health, mental health, offending behaviours and social and occupational functioning.
This study is designed to help patients with type 2 diabetes and their clinicians: (a) identify which glucose lowering medications have the most favorable effects on heart health and other patient-important outcomes, (b) inform the timing of medication initiation, and (c) identify whether medication benefits apply equally to all adults with type 2 diabetes, or may be different based on age, sex, race/ethnicity, baseline heart health status, baseline renal function, or other factors.
Background: CADASIL (cerebral autosomal dominant arteriopathy with subcortical infarct and leukoencephalopathy) is a genetic disorder. It causes narrowing of the small blood vessels and can lead to strokes and dementia. Researchers want to monitor people with CADASIL over time. Objective: To learn more about how CADASIL affects a person s blood vessels over time. Eligibility: Adults ages 18 and older who have CADASIL, and healthy volunteers. Design: Participants will be screened with a medical record review. Participants will have 4 study visits over 9 years. Visits will last 6 8 hours per day, for 2 4 days. Participants will give blood and urine samples. They will have an electrocardiogram to record their heart s electrical activity. They will fill out a family tree. They will have tests that measure mental abilities like memory and attention. They may have a skin biopsy. They may have a lumbar puncture. Participants will have an eye exam. Their pupils will be dilated. They will receive a dye via intravenous (IV) line. Pictures will be taken of their eyes. Participants will have an imaging scan of their brain. They may receive a contrast agent via IV. Participants blood flow and blood vessel flexibility will be measured. In one test, a probe will be pressed against the skin of the their wrist, neck, and groin. In another test, they will hold one arm still while a microscope makes videos of the blood flow through a fingernail. In another test, they will perform light exercise or other activities while wearing an elastic band around their head or probes placed on their arm or leg. Healthy volunteers will complete some of the above tests.
A randomized, 2-arm, parallel trial will be conducted to examine the effect of pecans on markers of peripheral vascular health, lipids and lipoproteins, blood pressure, and glycemic control.
Voed je Beter is a randomized, multicenter, controlled trial to examine whether personalized guidance to increase adherence to the Dutch dietary guidelines, compared to usual care, improves health of cardiovascular patients who receive regular medical treatment.
The UAB Cardiovascular Research Biobank (CARBON) will be a resource that contains biological materials, such as DNA samples, in addition to health and personal information on a large number of people over time. It will be set up so that it can be used in the future as a resource for researchers undertaking a wide range of medical research.
The aim of this demonstration project is to create an additional access point in the community at local pharmacies for atrial fibrillation screening, detection, and referral to physicians for follow-up and initiation of evidence-based therapy when appropriate.
Diabetic kidney disease and cardiovascular disease remain the leading causes of morbidity and mortality in people with type 1 diabetes and are exacerbated with longer duration of diabetes and time outside goal glycemic range. Yet, type 1 diabetes is a complex disease with pathophysiology that extends beyond beta-cell injury and insulin deficiency to include insulin resistance and renal vascular resistance, factors that accelerate cardiovascular disease risk. We have shown that metformin improved peripheral insulin sensitivity and vascular stiffness in youth with type 1 diabetes on multiple daily insulin injections or standard insulin pumps. However, metformin's effect on kidney and endothelial outcomes, and the effects of type 1 diabetes technologies, with or without metformin, on any cardiovascular or kidney outcome, remains unknown. Automated insulin delivery systems combine an insulin pump, continuous glucose monitor, and control algorithm to modulate background insulin delivery and decrease peripheral insulin exposure while improving time in target range and reducing hypoglycemia. We hypothesize that automated insulin delivery systems, particularly when combined with metformin, may modulate renal vascular resistance and insulin sensitivity, thereby impacting cardiometabolic function. MANATEE-T1D is a randomized, double-blind, placebo-controlled trial of 4 months of metformin 2,000 mg daily in 40 youth aged 12-21 years with type 1 diabetes on automated insulin delivery systems vs. 20 control youth with type 1 diabetes on multiple daily injections plus a continuous glucose monitor or an insulin pump in manual mode plus a continuous glucose monitor which will assess for changes in calculated renal vascular resistance and gold standard measures of whole-body and adipose insulin sensitivity, arterial stiffness, and endothelial function.
Brief Summary: Black adults have a higher incidence of hypertension (HTN) and a greater risk of HTN-related cardiovascular disease (CVD) compared with White adults. Even mild elevations in blood (BP) above 115/75 mm Hg are associated with increased CVD risk. Accordingly, emphasis is being placed on early interventions for high BP, particularly in those who are low cardiovascular risk(systolic BP 110-139 and diastolic BP < 90 mm Hg), for participants lifestyle modification is recommended. Although lifestyle modifications are effective to lower BP, implementation is suboptimal in Black communities, especially those participants residing in low-income urban settings. Pervasive negative social determinants of health (SDoH), such as poor access to healthcare, food insecurity, limited availability of healthy foods, lack of safe places to engage in physical activity, and low health literacy are major drivers of inequities in HTN and a critical barrier to implementation of recommended lifestyle modifications in Black communities. To achieve health equity, effective strategies must address negative SDoH that are root causes of racial disparities in health outcomes as clearly demonstrated by the coronavirus disease (COVID-19) pandemic. Predominantly Black cities like Detroit, Michigan, where the mortality rate from heart disease is nearly twice the national average, have been devastated by COVID-19. To address this, the investigators developed an innovative mobile health unit (MHU) program that uses geospatial health and social vulnerability data to direct deployment of testing and vaccination services to communities with highest needs. Since April 2020, the investigators conducted 500 events with 220 community partners where 40,000 people have been tested or vaccinated for COVID in MHUs. Using a hybrid type I effectiveness-implementation design in the proposed Linkage, Empowerment, and Access to Prevent Hypertension (LEAP-HTN) study, the investigators will implement a novel approach that links low cardiovascular risk Black adult participants without stage-2 hypertension to collaborative care delivered in deprived neighborhoods by community health workers (CHWs) using a personalized, adaptable approach to lifestyle and life circumstance (PAL2) intervention. The investigators will leverage our MHU program, layering on top of existing services to streamline access for screening, recruitment and all ongoing follow-up throughout the study period. Our specific aims are: AIM 1: To compare the effect of PAL2 intervention versus usual care (MHU engagement without PAL2) on systolic BP reduction and prevention of stage 2 HTN (systolic BP ≥ 140 mm Hg and/or diastolic BP >90 mm Hg) among 500 Black adults with baseline untreated systolic BPs below stage 2 (ranging 110-139 mm Hg) and a diastolic BP < 90 mm Hg. Hypothesis (H) 1a: Systolic BP (primary outcome) will be reduced more in those randomized to PAL2 intervention versus usual care at 6 and 12 months. H1b: Diastolic BP levels and the incidence of stage 2 HTN (systolic BP ≥ 140 mm Hg and/or diastolic BP >90 mmm Hg) at 6 and 12 months (secondary outcomes) will be lower in participants randomized to the PAL2 intervention versus usual care. AIM 2: To use the RE-AIM framework to assess the reach, adoption, effectiveness, sustainability and cost of LEAP-HTN at 12 months post-randomization. H2a: The rates of adoption and sustainability of the PAL2 intervention will increase from baseline to 12 and up to 24 months in subjects with available data, respectively. H2b: PAL2 intervention will be more cost-effective than usual care at 12 months and projected to be more cost-effective at 10 years. Health Equity Impact: Targeted deployment of MHUs and PAL2 can mitigate several key adverse SDoH. LEAP-HTN contributes to the RESTORE Network by testing a sustainable and scalable approach to advance health equity and prevent HTN in Black adults participants. If successful, the use of MHU can be easily implemented in similar urban Black communities across the U.S.