View clinical trials related to Cardiac Surgery.
Filter by:This is a prospective double-blinded and randomised study involving patients undergoing cardiac surgery with median sternotomy, the effects on postoperative analgesia of a 48-hr continuous infusion of ropivacaine 2 mg.mL-1, at the rate of 4 mL.hr-1 through two catheters inserted at the lateral edges of the sternum will be studied, versus a control group in which normal saline will be infused in the same conditions.
The overall research plan is to test the hypothesis that intraoperative treatment of hyperinsulinemic normoglycemic clamp (HNC) in cardiac surgical patients improves myocardial function and short-term outcomes compared with standard glucose management.
All patients undergoing cardiac surgery require intraoperative anesthesia and short-term postoperative sedation with anesthetic agents after the procedure when patient is in the intensive care unit (ICU). The clinical data obtained so far are concentrating on intraoperative use volatile agents (preconditioning) resulting in better postoperative cardiac function and less release of biochemical markers of myocardial damage. There are no studies investigating whether postoperative use of volatile agents (post conditioning) in cardiac surgical population is improving outcomes. The aim of the present study is to compare total intravenous anesthesia and postoperative sedation versus total volatile anesthesia and postoperative sedation in cardiac surgical population.
The DExamethasone for Cardiac Surgery - Postoperative New-onset Atrial Fibrillation (DECS-PNAF) project described in this protocol aims to elucidate how corticosteroids protect cardiac surgical patients from Postoperative New-onset Atrial Fibrillation (PNAF). Patients will be randomized to receive either a single high dose of dexamethasone or a placebo. Continuous ECG-monitoring, echocardiography and biochemical and genomic analyses will be used to investigate the mechanisms responsible for the known protective effect of corticosteroids in the development of PNAF.
The study compares automated settings (Intellivent) with protocolized settings of the ventilator after cardiac surgery. The settings concern the respiratory rate, the inspiratory and expiratory pressure and FiO2. The aim of the study is to demonstrate that automated settings are feasible and safe. The study design is a randomized controled study. 30 patients will be ventilated with automated mode and 30 patients with protocolized settings after cardiac surgery. The hypothesis is that the automated mode allows a safer ventilation with better maintain of the patient in predefined optimal zone of ventilation.
The purpose of the study is to determine the best ways to prevent infections after heart surgery. Participation in the study will last at most 3 months after heart surgery. The study will only collect information about the care patients receive during the planned surgery. No new testing or procedures will be done. Patients will receive only the tests or procedures the doctor already has planned. This kind of study is an observational study, because all that is planned to do is observe the care patients receive and how well they do during treatment. The information collected should help to improve the quality of surgical care in the future.
Rationale: It is well known that distinctly abnormal blood potassium values can cause serious complications such as cardiac arrhythmias. Although potassium regulation is generally considered important, hardly any research has been done about potassium regulation in intensive care patients. The investigators hypothesize that different potassium target-values, within the as normal accepted range, may have different effects in critically ill patients. Study design: A prospective trial comparing two different potassium target-values. Potassium will be tightly regulated with the already fully operational GRIP-II computer program. Study population: 1200 adult patients admitted at the thoracic intensive care unit of the University Medical Center Groningen. Intervention: Comparison between two variations of standard therapy: potassium target-value of 4.0 mmol/L versus 4.5 mmol/L. Main study parameters/endpoints: The primary endpoint is the incidence of atrial fibrillation or atrial flutter from ICU-admission to hospital discharge. Secondary endpoints are serum levels of potassium and the other main electrolytes, renal function and renal potassium excretion, the relation with insulin and glucose, the cumulative fluid balance, (ICU) length of stay and mortality.
The purpose of this project is to develop and evaluate the effects of a computer-tailored intervention targeting pain barriers and catastrophizing in adults having cardiac surgery. The hypotheses are that in the experimental group, in comparison to the control group, participants will show lower levels of pain, less pain interference in their activities, less attitudinal barriers, and less pain catastrophizing. A pilot-RCT is privileged to assess the preliminary effects of the intervention on the following outcomes: pain intensity, analgesic consumption, pain interference, barriers and pain catastrophizing.
Main Research Questions: 1. Is a large trial of patients undergoing heart surgery comparing a simple procedure of temporarily stopping blood flow to the leg with a blood pressure cuff (called remote ischemic preconditioning) to a sham procedure possible? 2. Does the remote ischemic preconditioning procedure before heart surgery help protect the heart and kidneys? What is Being Studied: A simple procedure known as remote ischemic preconditioning. The procedure is performed by inflating a pressurized cuff the thigh to temporarily stop blood flow to the arm or leg. This procedure causes the body to have a stress response that, at the cellular level, may protect major organs like the heart and kidney from the damage caused to them by the much larger stress of cardiac surgery. Reducing this damage may improve patient's recovery after surgery and help them live longer. Why is this study important?: This research is important because up to 1 in every 20 patients that undergo heart surgery die before even leaving hospital. Preventing heart and kidney damage at the time of surgery with remote ischemic preconditioning may reduce patient deaths.
The purpose of the study is to determine the efficacy of two different algorithms for coagulation management in patients undergoing cardiac surgery suffering from increased bleeding tendency. Algorithm 1 is based on conventional coagulation analyses (INR, aPTT, platelet count, fibrinogen concentration,...) and Algorithm 2 is based on thrombelastometry using the ROTEM-device and impedance aggregometry using the Multiplate device.