View clinical trials related to Cardiac Disease.
Filter by:OPTIC is a prospective, open-label, non-randomized study of multiple medications administered to approximately 2000 children in the pediatric cardiac intensive care unit (PCICU) per routine clinical car by their treating provider. The purpose of this study is to characterize the PK of drugs routinely administered to children per standard of care using opportunistic and scavenged samples. The prescribing of drugs to children will not be part of this protocol. After the child/adult (<21 years of age) is consented/enrolled, demographic and clinical data will be extracted from the EHR. Biospecimen information (including date and time of sample collection) will be collected. Data analysis will be conducted on all participants with at least 2 evaluable samples. The protocol represents minimal risk to the children/adults who provide body fluid for this study, including potential loss of confidentiality (samples will be assigned a unique accession number) and risks associated with blood draws. Adverse Events (AEs)/Serious Adverse Events (SAEs) caused by the study specimen collections will be monitored and recorded in the Electronic Data Capture (EDC) system.
The purpose of this research is to understand if the medication called FEIBA helps to stop bleeding and decrease transfusion of blood products to small children operated on the heart.
Cardiovascular diseases are among the most common causes of death in kidney transplant patients. Physical activity is of great importance in preventing cardiovascular diseases after transplantation. Although regular physical activity is recommended in international guidelines to prevent post-transplant mortality and morbidity in kidney transplant patients, studies have shown that patients do not follow regular physical activity instructions.The aim of our project is to examine the effect of pedometer-assisted physical activity on metabolic parameters after kidney transplantation.
This is a multi-site, retrospective study to evaluate the performance of a locked AI-based algorithm for detection of left ventricular systolic dysfunction. A prerequisite for inclusion of subjects from each institution will be the availability of at least one digital 12-lead ECG paired with an echocardiogram with LVEF information within 30 days of the date of the ECG. The AI-ECG LVSD algorithm will be applied on all ECGs and diagnostic performance features for the detection of LVSD will be estimated using the provided paired LVEF value (Low LVEF as the reference label). Performance will also be assessed in subgroups of subjects determined by demographic and clinical factors.
Amyloid heart disease is an accumulation of fibrillar proteins in the extracellular sector of the heart. Identified on echocardiography as Ventricular hypertrophy. The investigation of a Left Ventricular hypertrophy (LVH) is the most frequent discovery circumstance of amyloid heart disease. Pathophysiological mechanisms poorly understood, resulting in late diagnosis. Transthyretin amyloid heart disease (CATTR) is the most common form of cardiac amyloidosis in the West Indies due to an abnormally high frequency of the Val122Ile and Val107Ile mutations of the transthyretin gene in this population. Val122Ile and Val107Ile mutated-transthyretin are the substitution of valine for isoleucine at codon 122 of the TTR gene ( V122I) and at codon 107 of the TTR gene (V107I). Complications of CATTR are functional changes in heart cells or even death due to mechanical abnormalities (loss of contractility and increased wall stiffness cardiac arousal and conduction disturbances). These disorders result from an electrical abnormality of the heart the reason why the cardiologist performs preventive performance of electrophysiological explorations with EnSite Precision™. It's a registration system used to detect foci of necrosis within the myocardium. Amyloid deposits are areas devoid of electrical activity. Do they detectable by the EnSite Precision™ recording system ?
Chronic kidney disease is an independent risk factor for cardiovascular disease associated with increased mortality rate during cardiac surgery in proportion to the kidney function. Chronic kidney disease is defined by decreased glomerular filtration rate (GFR) as classified by Kidney Disease: Improving Global Outcome (KDIGO). Deterioration of kidney function has a complex and multifactorial pathophysiologic derangement. In order to counter kidney injury associated with cardiac surgery, several pharmacologic and non-pharmacologic interventions have been studied to prevent perioperative deterioration of kidney function. Diuretics as pharmacologic measure are often used post-cardiac surgery to treat fluid overload and managing patient with acute kidney injury by preventing anuria. Loop diuretics (furosemide) may improve renal blood flow, decrease reabsorption in renal tubules, decrease oxygen demand and energy consumption (blocking potassium/sodium/2cloride co-transport in loop of Henle), and prevent hypoxic injury of renal medulla. Low dose continuous furosemide hypothetically has a protective effect on cardiac surgery patients with kidney dysfunction, measured improved glomerular filtration rate, decreased indication for therapeutic furosemide infusion, and decreased need of renal replacement therapy. On the other hand, administration of furosemide is rather harmful in severe kidney dysfunction. Therefore, the objective of this study is to determine the protective effect of low-dose continuous furosemide perioperative in cardiac surgery patients with mild to moderate kidney dysfunction.
Transesophageal echocardiography is used to monitor cardiac wall motion at various time points during open-heart surgery. After surgery, the measurements are made at various time points by transthoracic echocardiography. The CS1 system enables continuous, direct measurement of cardiac wall motion. This is achieved through use of temporary pacemaker wires incorporating a motion detector called an accelerometer. Use of TMEs during and after open-heart surgery is part of the normal clinical routine. Continuous monitoring of cardiac wall motion during and after surgery can quickly highlight the need for medical intervention with cardiac drugs and allow very early detection of potentially serious complications leading to abnormal cardiac wall motion. Cardiac wall motion activity registered by the CS1 system and echocardiography at specific time points during and after surgery will be analyzed to see how well they compare.
The main aim is to validate non-gated 5-min computed tomography myocardial relative enhancement (CT-MRE), which can be readily estimated via contrast-enhanced non-gated chest CT, as a tool for estimating myocardial extracellular volume (ECV) using cardiac magnetic resonance (CMR)-derived ECV as a reference standard in a consecutive series of patients scheduled for cardiac CT. A secondary explorative aim is to evaluate the presence and extent of possible myocardial alterations in those patients enrolled in the VALETUDO study who have been infected with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2).
Prospective US registry of pregnant women with cardiac disease to address the substantial gaps in knowledge surrounding these patients, in order to improve future care.
SOCRATES is part of Boston Scientific's (BSC) Post-market surveillance system. The implementation of such systems is mandatory per local regulations such as the Regulation '(EU) 2017/745 of the European Parliament and of the Council of 5 April 2017 on medical devices' or short Medical Device Regulation (MDR). The SOCRATES design is therefore based on the BSC's commitment as well as external regulatory requirements to proactively and systematically gather, record and analyze relevant data on the quality, performance and safety of devices throughout their entire lifetime.