Active clinical trials for "Cardiac Output, Low"

Babies having heart surgery often have problems after surgery with their blood pressure and getting enough blood to their bodies. To treat this they require medicines to keep their blood pressure high enough to get blood to their bodies. The side effects of these medicines include fast heart rates and increasing the amount of work the heart has to do. Corticosteroids are made by the body and help to use the energy in the food people eat, control the chemicals in their blood and maintain their blood pressure. Corticosteroids made by the body may be decreased in patients that have major surgery. Corticosteroids help to increase blood pressure and can decrease the amount of blood pressure medicines a patient requires. Corticosteroids have been shown to increase blood pressure in patients with bacterial infections and in very small, premature babies but have only been studied in a few babies who have had heart surgery. The way corticosteroids work is unknown but may involve decreasing the body's response to being on a heart-lung machine or give steroids not being made by the patient. Corticosteroids have been shown to be helpful in treating many diseases. The purpose of this study is to look at the effects of corticosteroids in babies who have had heart surgery and need blood pressure medicines in the intensive care unit after surgery. Our idea is that getting corticosteroids will allow us to decrease the amount of blood pressure medicines each patient needs and improve how they do after surgery. We also plan to do blood tests to help determine how the corticosteroids are working. It will be randomly determined if the subject receives corticosteroids or salt water. The subject will receive a corticosteroid or salt water once a day for five days. Their vital signs will be monitored, especially blood pressure and their need for medicines to increase their blood pressure. Blood work will also be obtained to determine their body's ability to make steroids.

Myocardial dysfunction necessitating inotropic support is a typical complication after on-pump cardiac surgery. This prospective, randomized pilot-study analyses the metabolic and renal effects of the inotropes adrenaline and milrinone in patients needing inotropic support after coronary-artery-bypass-grafting. With respect to data derived from patients with sepsis shock and results from studies using phosphodiesterase-inhibitors prophylactically, the hypothesis is tested that adrenaline may be associated with unwarranted metabolic effects (hyperlactatemia and hyperglycemia) and renal dysfunction.

Low cardiac output syndrome (LCOs) is a serious complication in critically ill patients or those undergoing major surgery, resulting in multiple organ damage with significant in-hospital and long-term morbidity and mortality, as well as prolonged hospital stay. In this setting the mortality rate is distressingly high despite improvements in intensive care treatment, but survivors have an acceptable quality of life.

Inotropic agents are usually administered in the postoperative period after cardiac surgery. In most cases, dobutamine is administered routinely, for the probable occurrence of myocardial dysfunction after cardiopulmonary bypass or a low cardiac output with minimal evidence of altered tissue perfusion. Recent data show that inotropic agents are used in 35-52% of cardiac surgeries in the perioperative period. However, the use of inotropic agents may be associated with adverse events, including myocardial ischemia, by elevation in myocardial oxygen consumption and the imbalance between supply and consumption, and tachyarrhythmias (atrial fibrillation, sinus tachycardia, ventricular tachyarrhythmias), primarily due to the β1-adrenergic effect. This study is a non-inferiority clinical randomized study aiming to compare the use of dobutamine in a liberal strategy (in all patients at the time of withdrawal of CPB) with a restrictive strategy (based on clinical and hemodynamic evidence of low cardiac output syndrome associated with altered tissue perfusion). Our primary hypothesis is that the restrictive use of dobutamine is as safe and effective as the liberal one.

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.

Open-heart surgery causes injury of the heart muscle. Although this is usually mild, temporary and reversible, if it is severe it can endanger life and require additional high cost care. During surgery, techniques are used to protect the heart from injury, but these remain imperfect. This study assesses the effect of facilitating sugar metabolism (a more efficient fuel) by the heart muscle using the drug Perhexiline given before the operation. This treatment has a sound experimental basis for improving outcome. If this improvement is confirmed surgical results could be improved. The investigators will be studying heart function, heart muscle energy stores and chemicals which quantify the amount of heart muscle injury. The investigators' hypothesis is that Perhexiline will improve the protection of the heart by decreasing damage that may occur during heart surgery.

Prospective, randomized, open-label study to assess the efficacy and safety of hypertonic lactate solution, compared to Ringer's Lactate as fluid resuscitation to maintain hemodynamic stability in post-coronary artery bypass grafting(CABG) patients. Patients who were eligible received either hypertonic lactate solution or Ringer's Lactate post-CABG in the ICU when fluid resuscitation was needed.

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.

Previous clinical trials with 11.2% Hypertonic Ringer's Lactate in post-operative CABG subjects have shown an increase in several cardiac performance parameters, with lesser volume of resuscitation fluid required to reach circulation volume, as compared to Sodium Chloride.It also does not cause hyperchloremic acidosis, which is of value in treating shock patients. The primary objectives of this prospective, randomized, open-label trial are to evaluate the clinical efficacy of hypertonic lactate in comparison to Ringer's lactate to maintain hemodynamic stability in intra- and post-CABG subjects in relation to hemodynamic status and body fluid balance, as well as to assess its safety in terms of lab parameters and occurrence of adverse events.The secondary objectives are to evaluate comparative clinical efficacy of the two fluids in relation to reduction in concomitant drug utilization, duration of ventilator usage, length of stay in ICU as well as total duration of hospitalization and neurocognitive status upto a period of 1 year post-CABG.

The investigators are interested in determining if there is a meaningful difference between two of the most commonly used medications used to improve the pumping function of the heart among critically ill patients admitted to the Coronary Care Unit (CCU) at the University of Ottawa Heart Institute (UOHI). To do this, the investigators will randomly assign patients who are felt to require use of these medications by their treating physicians to one of the two most commonly used agents in Canada: Milrinone or Dobutamine. Each patient will be closely monitored by their healthcare team, and their medication will be adjusted based on each patient's clinical status. Information from blood work (e.g. kidney and liver function, complete blood counts, and other markers of how effectively blood is circulating in the body), assessment of end-organ function (e.g. urine output, mentation), abnormal heart rhythms noted on monitoring and results of imaging studies (e.g. angiogram, echocardiograms.) will be collected for analysis. All patients will be followed for the duration of their hospital stay at UOHI.