View clinical trials related to Cardiopulmonary Bypass.
Filter by:This study will compare the clinical efficacy and safety of Voluven® and Human Albumin during elective open-heart surgery in pediatric patients.
Evaluate pulse oximeters with children after cardiopulmonary by-pass under low Oxygen conditions.
Cardiac surgery with CardioPulmonary Bypass (CPB) exposes to per and postoperative bleeding, and may lead to allogenic blood transfusion re-intervention and many adverse outcomes. Prophylactic use of tranexamic Acid (TA) has been shown to decrease blood loss and blood transfusion during cardiac surgery.There currently are multiple dosing regimens for TA for cardiac surgery.Preliminary dose-response study has shown that low prophylactic dose of TA would be as accurate for haemostatic efficacy as higher dose. The primary objective of this tri-center, prospective, double-blinded, randomised trial is to compare two administrations and dosing regimens of TA during cardiac surgery with CPB on the perioperative blood loss. In addition to the clinical study, a pharmacokinétic/pharmacodynamic study will be conducted. Patients are divided in two groups: low and high risk surgery. Methods: After written informed consent, patients are randomly assigned to one of the two treatment groups. The low dose TA group is: 10 mg/kg TA given over 15 min, followed by an infusion of 1 mg/kg/h throughout the operation, and 1 mg/kg into the CPB prime volume. The high dose group is :30 mg/kg TA given over 15 min, followed by an infusion of 16 mg/kg/h throughout the operation, and 2 mg/kg into the CPB prime volume. Hemodynamic and anaesthesia care will be as usual. A blood salvage device will be systematically used. The triggers for transfusion will be: red blood cells: haemoglobin less than 8 g/dl or 6 g/dl during CBP; Plasma: PT less than 50% or INR more than 1.5; platelets: platelets count less than 50/70 G/mm3; fibrinogen: fibrinogen less than 1g/l . All patients will receive standard anaesthesia and perioperative care. In 60 consecutive patients in the principal investigator center, 5 blood samples will allow to assess the plasmatic concentration of tranexamic acid at different time of the surgery procedure: 1. Baseline 2. 5 min after the loading dose 3. 10 min after the beginning of bypass 4. at the discontinuation of the infusion 5. 1 hour after the discontinuation Plasmatic dosage will be assessed using a high performance liquid chromatography technique. Patients will be stratified in two groups for the statistical analysis; low and high risk surgery. Analysis will be in intention to treat. 300 patients should be recruited in each group to detect an absolute difference of respectively 10% (low risk cardiac surgery) and 20% (high risk cardiac surgery) in the number of patients exposed to allogenic blood transfusion between patients receiving high dose TA regimen and those receiving low dose TA regimen, assuming a power of 80% and a two-tailed value less than 0.05.
The purpose of this study is to determine whether albumin administration during cardiac surgery is effective in attenuating the development of inflammation following surgery.
Cardiopulmonary bypass (CPB) for cardiac operations may be accompanied by different patterns of visceral underperfusion. This could result in clinical patterns of lactic acidosis but in the most severe cases there is the risk for mesenteric infarction (0.2% of the cases). Renal function as well may be impaired due to a low oxygen delivery, and acute renal failure occurs in 1-2% of cases. Fenoldopam mesilate is a selective splanchnic vasodilator when used at a dose < 0.1 mcg/kg/min. The experimental hypothesis of this randomized, controlled trial (RCT) is that the use of fenoldopam may determine a better visceral perfusion during CPB.
Non-invasive assessment of blood flow to organs has long challenged clinicians. Recently, near infrared spectroscopy (NIRS) has been recognized as a methodology that may achieve this goal. A commercially available NIRS monitor, marketed by Somanetics, Inc., is now in widespread use in the clinical care of pediatric cardiac patients in the operating room and in the intensive care unit post-operatively. When a patch/probe from the monitor is placed on the forehead or lower back, blood oxygen concentration data is obtained which has been found to correlate with actual blood samples taken by IV. The presence of this NIRS data would give the surgeon important feedback about blood flow to important areas like the brain and kidneys during heart surgeries on children and after the operation is completed in the intensive care unit. The investigator wishes to perform a prospective study of the NIRS monitor use with children that need heart surgeries that require heart-lung bypass and sometimes require monitoring in the ICU, post-operatively.
We believe ongoing bleeding during complex cardiac surgery can be accurately measured and that administration of a specific blood product replacement strategy designed to optimally slow or stop the bleeding can be followed by the during the operation. Patients at risk of significant bleeding after complex cardiac surgery will be approached to allow their operation to be watched by study personnel to see if ongoing blood loss can be accurately measured and to see how quickly a prescribed, standardized blood product replacement protocol to control the bleeding does slow or stop the bleeding. Permission to review the medical record to see if bleeding risk features can be identified and permission to follow the patient after surgery to see how they recover is also requested.
With over one million operations a year, cardiac surgery with cardiopulmonary bypass is one of the most common major surgical procedures worldwide (1). Acute kidney injury is a common and serious postoperative complication of cardiopulmonary bypass and may affect 25% to 50% of patients (2-4). Acute kidney injury carries significant costs (4) and is independently associated with increased morbidity and mortality (2,3). Even minimal increments in plasma creatinine are associated with an increase in mortality (5,6). Multiple causes of cardiopulmonary bypass-associated acute kidney injury have been proposed, including ischemia-reperfusion, generation of reactive oxygen species, hemolysis and activation of inflammatory pathways (7-10). COMT LL genotype appears to increase the risk of vasodilatory shock and AKI after cardiac surgery. To date, no simple, safe and effective intervention to prevent cardiopulmonary bypass-associated acute kidney injury in a broad patient population has been found (11-14). Urinary acidity may enhance the generation and toxicity of reactive oxygen species induced by cardiopulmonary bypass (10,15). Activation of complement during cardiac surgery (16) may also participate in kidney injury. Urinary alkalinization may protect from kidney injury induced by oxidant substances, iron-mediated free radical pathways, complement activation and tubular hemoglobin cast formation (9,17,18). Of note, increasing urinary pH - in combination with N-acetylcysteine (19,20) or without (21) - has recently been reported to attenuate acute kidney injury in patients undergoing contrast-media infusion. In a pilot double-blind, randomized controlled trial the investigators found sodium bicarbonate to be efficacious, safe, inexpensive and easy to administer. These findings now need to be confirmed or refuted by further clinical investigations in other geographic and institutional settings. Accordingly, the investigators hypothesized that urinary alkalinization might protect kidney function in patients at increased risk of acute kidney injury undergoing cardiopulmonary bypass needs to be confirmed in an international multicenter, double-blind, randomized controlled trial of intravenous sodium bicarbonate.
The purpose of this study is to assess the effects of nesiritide compared to placebo when given with standard of care therapies, on kidney function, heart function and the need of other treatments in heart failure patients undergoing heart bypass graft surgery that requires the use of a cardiopulmonary bypass machine (CPB pump or heart-lung machine).
When a child undergoes heart surgery, a heart lung machine is used to keep blood flowing while the child's own heart is stopped. After surgery, a significant amount of the child's own blood is left in this machine. In the case of small children, the relative amount of blood potentially lost to the child in this way is very large. In older children, and those who have undergone less complicated surgery, this blood can all returned to the child. Giving the child back his or her own blood makes is less likely that the child will need a transfusion of donated blood. However, in younger children, or in children who have undergone more complicated surgery, most or all of this blood is thrown away. This is because of worry that returning this blood may cause bleeding, and excessive bleeding is one of the most feared complications of heart surgery. This project will explore a method whereby the red blood cells left in the heart lung machine can be returned to children without increasing the risk of bleeding. It will also carefully examine the exact causes of higher bleeding risk in children getting their own blood back so that in the future, all children can have their own blood returned at the end of surgery.