View clinical trials related to Cardiovascular Disease Other.
Filter by:The overall objective is to establish the first-of-its-kind longitudinal cohort of pregnant women, biological fathers/partners and offspring from pregnancies achieved by frozen embryo transfer (FET), fresh-embryo transfer (fresh ET) and naturally conceived (NC) to investigate maternal cardiometabolic profiles, fetal growth patterns and placental function during pregnancy as well as metabolic and endocrine health in the offspring. Additionally, the aim is to explore genetic and epigenetic patterns in placenta, fetus and parents. As secondary objectives, the investigator group will examine telomere length and minipuberty hormones in children born after FET, fresh-ET and NC.
Chest pain is one of the most common causes of access in the Emergency Room, and it can be a clinical manifestation of a broad spectrum of diseases including those 'time dependent' conditions such as acute coronary syndrome (ACS). Diagnosis or exclusion of acute myocardial infarction (AMI) is a daily challenge in the emergency department (ED), especially when classic clinical criteria and ECG alone are unable to make the diagnosis. The ED physician has the extremely delicate task of managing patients with chest pain and being able to frame them correctly; therefore, he needs to make differential diagnosis since chest pain can be caused by non-cardiac vascular events but also extra-cardiovascular events, such as pulmonary, neurological, osteoarticular, gastrointestinal and psychological. Recently, the importance of inflammatory processes and endothelial damage in cardiovascular disease has been highlighted, and consequently the focus has been on new markers, in a "multimarker" approach in which the strengths of each are combined together to provide an optimal solution to a clinical problem. The data suggest how a future integration of these biomarkers in the routine approach to the patient with acute chest pain in the ED might allow a better patient stratification and proper management, allowing the clinician to make an early safe discharge or a timely admission for those who deserve in-depth diagnostic-therapeutic investigation.
The Congenital Heart Disease Physical Activity Lifestyle Intervention Study (CHD-PALS) V.2 seeks to determine the efficacy of a lifestyle intervention program for adolescents and young adults (AYAs) with congenital heart disease (CHD). This trial was adapted from the original CHD-PAL trial to continue improving cardiovascular outcomes for transition-aged CHD survivors.
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.
The present randomised controlled trial aimed to investigate the effectiveness of a clinical decision support system (CDSS) in assisting clinicians to apply nutritional care to breast cancer (BC) patients during the COVID-19 pandemic in Greece. Adult BC women (stages I-IIIA) who underwent mastectomy followed by hormone therapy were randomly assigned either to the Control group, receiving general nutritional advice, or the Intervention (or CDSS) group, in whom a personalised nutritional programme based on the Mediterranean diet together with physical activity guidelines were provided, all produced by CDSS. Medical and dietary history, anthropometrics, biochemical indices and quality of life characteristics were assessed both at baseline and at the end of the study (3 months).
This study will adapt a physical activity lifestyle intervention to emerging adult congenital heart disease (CHD) survivors with the primary goal of increasing physical activity levels. The study will be split into 2 phases. In Phase 1, participants will be asked to complete questionnaires, wear an accelerometer around the waist for 7 days, and undergo an exercise stress test. The accelerometer and exercise stress test will be used to determine whether participants are eligible to be randomized for the intervention study. In Phase 2, participants will be randomized to one of two conditions: 1) receiving a physical activity tracker (a Fitbit) or 2) receiving a Fitbit AND engaging in videoconferencing sessions with a physical activity coach. During Phase 2, participants will also be asked to complete 3 assessments (weeks 9 and 22, and a 6-month follow-up). The week 9 assessment will consist of completing questionnaires and wearing an accelerometer for 7 days. Week 22 will be similar to week 9 with the addition of a final exercise stress test. The 6-month follow-up will mirror the week 9 assessment. Participants who are randomized to the videoconferencing condition will be asked to meet with a physical activity coach 8 times over the course of 20 weeks. Coaches will help participants to (1) change attitudes toward physical activity, (2) increase perception of others' approval of physical activity (e.g., family members, peers), and (3) increase participants' perceived control by troubleshooting barriers and increasing efficacy for physical activity. Coaches will use the Fitbit to facilitate self-monitoring and goal setting. Participants in the intervention arm will be asked to participate in a focus group at the conclusion of the study to share their experiences.
Brief Summary The purpose of this study is to investigate how circulating metabolites mediate changes in heart function after exercise intervention. Condition or disease :Cardiovascular function Intervention/treatment Cardiovascular: Echocardiography Other: Vascular Stiffness Other: Metabolomics (Blood)
This study will adapt a physical activity lifestyle intervention to adolescent and emerging adult congenital heart disease (CHD) survivors with the primary goal of increasing physical activity levels. The study will be split into 2 phases. In Phase 1, participants will be asked to complete questionnaires, wear an accelerometer around the waist for 7 days, and undergo an exercise stress test. The accelerometer and exercise stress test will be used to determine whether participants are eligible to be randomized for the intervention study. For adolescent participants, a parent will be asked to complete questionnaires at baseline as well. In Phase 2, participants will be randomized to one of two conditions: 1) receiving a physical activity tracker (a Fitbit) or 2) receiving a Fitbit AND engaging in videoconferencing sessions with a physical activity coach. During Phase 2, participants will also be asked to complete 3 assessments (weeks 9 and 22, and a 6-month follow-up). The week 9 assessment will consist of completing questionnaires and wearing an accelerometer for 7 days. Week 22 will be similar to week 9 with the addition of a final exercise stress test. The 6-month follow-up will mirror the week 9 assessment. For adolescent participants, the same parent will be asked to complete questionnaires at the final assessment as well. Participants who are randomized to the videoconferencing condition will be asked to meet with a physical activity coach 8 times over the course of 20 weeks. Coaches will help participants to (1) change attitudes toward physical activity, (2) increase perception of others' approval of physical activity (e.g., family members, peers), and (3) increase participants' perceived control by troubleshooting barriers and increasing efficacy for physical activity. Coaches will use the Fitbit to facilitate self-monitoring and goal setting. Participants in the intervention arm will be asked to participate in a focus group at the conclusion of the study to share their experiences.
This study will investigate the effects of Leukocyte reduced cold-stored platelet transfusions used in treatment of immediate postoperative blood loss in patients undergoing thoracic surgery in combination with extracorporal circulation. Today platelet concentrates are stored at 22 degrees C . This is a prospective, randomized, unblinded, non-inferiority two-arm study. Aim of study is to compare platelet function in bleeding patients transfused with leukoreduced platelet concentrates stored cold (4 degrees C) and in room temperature (22 degrees C). Storage time for RCT platelet concentrates are up to 7 days. Patients with expected time on extracorporal circulation more than 120 minutes and/or medical platelet inhibitors will be included. Platelet function will be assessed by use of Multiplate Aggregometry, Thromboelastography (TEG) and/or Thromboelastometry (ROTEM). In addition post operative bleeding, and adverse events will be recorded. After completion of recruitment of patients to RCT study of platelet stored cold for up to 7 days, a follow up prospective observational study of platelets stored cold for up to 14 days is performed. Additonal information 2019, May 03: This trial was registered on Clinical Trials.gov with an original plan to use non-inferiority testing of between-group differences in platelet function. Due to lack of evidence needed to set acceptable tolerance margins for the non-inferiority testing, independent reviewers with expertise in clinical trial design recommended they be replaced by standard tests of superiority, commensurate with the early phase of the trial. Further, post-operative chest tube drainage was chosen as the primary outcome to better present the pilot study's focus on the control of clinically significant bleeding.