View clinical trials related to Cardiac Output, Low.
Filter by:Recently, the American College of Obstetricians and Gynecologists (ACOG) recommended a delay of 30-60 seconds in umbilical cord clamping for all newborn infants. This delay allows the newborn to receive his/her own blood from the placenta (placental transfusion) which helps their transition in the first hours of life. The purpose of the study is to learn about the amount of blood flow to and from the baby's heart during normal newborn transition
A study to evaluate levosimendan compared with placebo in reducing the composite event rate of all-cause death, perioperative MI, need for new dialysis, or use of mechanical assist (IABP, LVAD or ECMO) in subjects with reduced ejection fraction undergoing cardiac surgery on cardiopulmonary bypass (CPB).
The clinical usefulness of inspiratory flow pattern manipulation during mechanical ventilation remains unclear. The aim of this study was to investigate the effects of different inspiratory flow waveforms, i.e. constant and decelerating, on cardiac preload in mechanically ventilated patients assessed by arterial pulse pressure variation (PPV) and inferior vena cava distensibility.
The aim of this study is to evaluate the correlation of capnography with non-invasive measurement of cardiac output with the FloTrac/EV1000 following a reversible fluid challenge, a passive leg raising maneuver, using thermodilution as the gold standard. The main hypothesis is a correlation of 0.8 between the increasing of ETCO2 and the increasing of ejection volume measured by FloTrac/EV1000 following a passive leg raising maneuver.
The dual blockade of the renin-angiotensin-aldosterone system with an angiotensin-converting enzyme inhibitor and an angiotensin-receptor blocker used together in heart failure patients has been demonstrated to be beneficial. However, the dual inhibition has not been studied during heart failure decompensation or even when low cardiac output is present. The objective of this study was to assess the effects of add-on therapy with angiotensin receptor blocker on plasma B-type natriuretic peptide levels and hemodynamic measurements in heart failure patients with low cardiac output during hospitalization for decompensation. This was a randomized, double-blind, placebo-controlled clinical trial.
Neonates and infants that have cardiac surgery with cardiopulmonary bypass (CPB) for congenital heart disease are at great risk for experiencing life-threatening low cardiac output syndrome (LCOS) in the first 24 hours after surgery. The poor perfusion and inadequate oxygen delivery that occurs may result in multiple organ failure and death. It is LCOS that is responsible for the majority of early postoperative deaths in this population of neonates and infants. Improved pediatric probes placed in peripheral locations using near infrared spectroscopy (NIRS) may permit continuous monitoring of venous saturations reflecting overall perfusion and oxygen balance in the tissues. Following parental or guardian consent, 30 neonates and infants scheduled to undergo surgery for congenital heart disease will be enrolled. At the end of surgery, four EQUANOX Advance 8004CB probes will be placed on the flank, lower extremities and the forehead. Continuous NIRS saturations will be monitored and stored for analysis. Point of care (POC) lactates will be obtained after admission to the intensive care unit (ICU) every 2 hours for the first 24 hours postoperatively, then once at 48 hours. The association between NIRS oxygen saturation and POC lactate values will be assessed using mixed linear models taking into account the repeated measures design. Exploratory analyses will be performed to assess whether NIRS oxygen saturation is associated with outcomes such as days in ICU, adverse events and mortality. The ability to use noninvasive, continuous monitoring for overall perfusion and cardiac output will allow better and earlier therapy for neonates and infants following cardiac surgery.
Fluid expansion during cardiocirculatory insufficiency was helped by cardiac output monitoring. However, the goal of fluid expansion was to increase the oxygen delivery, which consider cardiac output, but also Haemoglobin which decrease during a fluid challenge. The maximalization of cardiac output could decrease the oxygen delivery if the haemodilution was too wide. The aim of this study was to describe the oxygen delivery during a fluid expansion conducted for cardiac output maximalization, following actual guidelines.
Congenital heart defects are the most prevalent group of congenital malformations in newborns. Surgery-related low cardiac output syndrome (LCOS) could be one of the reason for the unfavourable outcome of this population. The early use of inodilators (INDs), specifically milrinone (MR), is proposed to reduce afterload and increase inotropism. Studies in the paediatric population appear to support a clinical usefulness of MR similar to that observed in adults. Levosimendan (LEVO) is a novel class IND developed for the treatment of heart failure. Experience with LEVO in paediatric patients is scarce. The purpose of this study was to systematically test the efficacy and safety of milrinone (MR) and levosimendan (LEVO) in newborns undergoing cardiovascular surgery with cardiopulmonary bypass (CPB). Given the uncertainty about LEVO pharmacokinetics in neonates, the study was designed as a pilot, phase I feasibility study.
Remote ischemic preconditioning (RIPC) occurs when a tissue (ex. heart) becomes less vulnerable to an ischemic insult if a remote tissue (ex. arm) has had previous exposure to a period of ischemia and reperfusion. A beneficial effect of RIPC has been demonstrated in several randomized studies in patients undergoing cardiac and vascular surgery, as well as interventional cardiac procedures such as angioplasty. They have shown improvements in cardiac, renal, neurologic and respiratory function. Most have focused on surrogate outcomes, such as biochemical markers of cardiac and renal function in low-risk patients. No trials have investigated only high-risk patients or been designed to detect clinical outcomes. This study is a randomized-controlled trial powered to detect clinical events in a high-risk cohort undergoing cardiovascular surgery. Patients will be randomized to RIPC (exposed to cycles of inflation of a blood pressure cuff on the upper arm prior to undergoing surgery) or control (no ischemic stimulus). The investigators hypothesize this population will demonstrate lower rates of adverse ischemic events. The investigators also intend to sample biochemical markers to better elucidate the mechanism of RIPC and generate hypotheses for future studies and interventions. Post-operatively the investigators will monitor for adverse clinical outcomes including cardiac, renal, pulmonary and neurologic injury. RIPC is simple, inexpensive and easily reproducible and there have been no reports of adverse consequences. Post-operative ischemic events such as stroke, myocardial infarction, cardiac, renal and respiratory failure affect patient survival and quality of life, and represent a sizeable financial burden to health care. If beneficial effects of RIPC are demonstrated, it will be widely applicable to the entire population of cardiac and vascular patients resulting in a widely-implemented change in practice.
The purpose of this study is - To assess the value of dynamics (SVV, PPV) and static indices (GEDVI, ITBVI, CVP) of preload and its combination with contractility (CI,SV, ventricular power, dP/dtmax, CFI, GEF) and lung water indices (ELWI), as predictors of fluid responsiveness in both spontaneously breathing and mechanically ventilated pediatric patients. - To assess the value of stroke volume and pulse pressure changes from femoral pulse contour analysis (PiCCO2) during passive leg raising as predictor of fluid responsiveness in pediatric patients. - To establish normal and cutoff values of transpulmonary thermodilution (PiCCO2) hemodynamic variables in hemodynamically stables and hemodynamically "normal" patients.