View clinical trials related to Cardiac Output, Low.
Filter by:The aim of the present study is to assess the best echocardiographic parameters (GLS, GLS rate and standard echocardiographic parameters) predicting LCOS in on-pump mitral surgery.
Rational: Preoxygenation is a standard procedure before (deep) sedation in the ED. However, there is literature suggesting that too much oxygen can be harmful. One potential detrimental effect is a decrease in cardiac output due to coronary vasoconstriction. So far, it is unknown if this effect is rate dependent and if it also occurs after only a short period of hyperoxia, as patients experience during procedural sedation pre-oxygenation. Objective: To investigate if hyperoxia has a negative effect on Cardiac index (CI) in patients undergoing procedural sedation in the ED.
This study will be the first of several studies that establish the value of measuring fluid responsiveness in children undergoing general anesthesia. The first study in this series will determine whether fluid responsiveness, as measured with the NICOM cardiac output monitor in normal children before and after passive leg raising, predicts changes in stroke volume, cardiac output, and blood pressure during the early stages of anesthesia. A second study will determine if early treatment of the fluid responsiveness will prevent the decline in blood pressure that accompanies general anesthesia. If the NICOM monitor permits accurate prediction in normal patients, future studies of pediatric patients undergoing major surgery would be indicated. The investigators would like to add 25 additional patients who will have the NICOM assessments performed in the pre operative area - Pre anesthesia. General anesthesia may alter the results of the NICOM assessments. The investigators will use these 25 subjects to serve as a comparison/control group.
This randomized, multi-center, double-blinded, placebo-controlled study is designed to evaluate the efficacy and safety of milrinone compared with placebo in participants after corrective surgery for congenital heart disease. Participants will be randomized in a 1:1 ratio within 90 minutes after arriving in the intensive care unit (ICU), to receive either intravenous milrinone or placebo for 36 hours. Participants will be stratified according Vasoactive Inotrope Score after arriving in the ICU.
This trial will test if adding nitric oxide (NO) gas to the cardiopulmonary bypass (CPB) circuit in infants undergoing an arterial switch operation (ASO) for Transposition of the Great Arteries (TGA) changes the incidence of major postoperative adverse events (AEs). Major postoperative AEs include cardiac arrest, emergency chest opening, use of ECMO (machine that acts as an artificial heart and lung during surgery), and death. Participants will be randomised to receive oxygen plus nitric oxide (intervention arm) or oxygen without nitric oxide (control arm) during CPB.
The aim of the study is to evaluate the feasibility and safety and efficacy of collecting and infusing autologous umbilical cord blood (UCB) in newborn infants with hypoplastic left heart syndrome (HLHS) and transposition of great arteries (TGA). Rationale: Neonates with HLHS and TGA have significant brain injury as demonstrated by peri-surgical MRI. Moreover, there a substantial tendency to suffer from chronic cardiac condition as low cardiac output state and valvular insufficiency. Treatment of neonates after hypoxic ischemic injury at birth with autologous UCB was shown to safe and improved developmental outcome. The effect of UCB is most likely achieved by reduction of free radicals injury and pro-inflammatory and apoptotic process. Hypothesis: Treatment with UCB immediately after the first cardiac surgey, with in the first week life will reduce the brain injury demonstrated by MRI and reduce the choronic cardiac problems
Cardiac surgery can be not infrequently complicated by cardiac low-output syndrome due to critical preoperative conditions such as cardiogenic shock, poor left ventricular function and severe myocardial ischemia. Suboptimal myocardial protection, technical errors at graft anastomoses or of prosthesis implantation, and hibernating myocardium may further contribute to cardiac low-output syndrome occurring immediately or shortly after cardiac surgery. In this setting, veno-arterial extracorporeal oxygenation (VA-ECMO) is the only means to provide cardiopulmonary support to recovery or as bridge to transplantation. Data on the real benefit of VA-ECMO after cardiac surgery is limited and often derived from heterogeneous patient populations, which prevent conclusive results on the benefits of VA-ECMO in this setting. This issue will be investigated in the present retrospective European multicenter study. In this setting, veno-arterial extracorporeal oxygenation (VA-ECMO) is the only means to provide cardiopulmonary support to recovery or as bridge to transplantation. Data on the real benefit of VA-ECMO after cardiac surgery is limited and often derived from heterogeneous populations of patients who underwent different cardiac procedures. Patients with cardiac low-output after surgery for aortic dissection or valve surgery are expected to have different baseline characteristics (such as age and comorbidities) and underlying cardiac disease than patients undergoing isolated coronary surgery. Furthermore, available studies included patients operated two decades ago and this does not provide an exact measure of the benefits of this treatment strategy. The possible benefits of using VA-ECMO after adult cardiac surgery will be investigated in this retrospective European multicenter study.
The capnodynamic method non-invasively calculates effective pulmonary blood flow (EPBF) continuously during surgery. In this study EPBF is compared to cardiac output (CO) measured with Transpulmonary Thermodilution (TPTD) att baseline and during hemodynamic changes in patients scheduled for open abdominal surgery at the Karolinska University Hospital, Solna, Sweden.
The purpose of the study is to evaluate the cardiac output changes after an intravenous bolus of ephedrine, phenylephrine, ondansetron or norepinephrine during a spinal anesthetic for a cesarean delivery. For elective cesarean delivery, all participants will receive spinal anesthesia with a local anesthetic and sufentanil. This study includes 120 pregnant women. Patients will be randomly assigned according to a computer generated system to be in one of four groups.
Cardiac output (CO) monitoring is an important tool in critically ill patients with haemodynamic instability. Traditionally, this has been accomplished using the pulmonary artery catheter (PAC). However, its use has been associated with various complications such as pneumothorax, arrhythmia, infection, pulmonary valve injury and embolism. This has led to the development of various minimally invasive cardiac output monitoring devices such as the oesophageal Doppler, PiCCO®, NiCCO® and FloTrac®. These devices however have their inherent limitations and though minimally invasive, are still not without risks to the patient. More recently a completely non-invasive CO monitoring device, NICOM Cheetah® has been introduced. Its use is based on thoracic bioreactance and it involves placement of 4 electrodes on either side of the thorax and it analyses changes in the phase of electrical voltage signal to the current applied across the thorax. Initial validation studies on the NICOM Cheetah® device revealed promising results. This study intends to compare cardiac output monitoring capabilities of the NICOM Cheetah® device using the FloTrac® CO monitor as a reference.