View clinical trials related to Cardiopulmonary Bypass.
Filter by:Study should demonstrate that alkaline phosphatase reduces the incidence and extent of acute kidney injury after cardiopulmonary bypass (CPB) as defined by the AKIN criteria.
Hypothesis: Dilutional thrombocytopenia after cardiopulmonary bypass (CPB) is universal and administration of donor apheresis platelets just prior to termination of bypass will assist in early correction of coagulopathy, early hemostasis and lesser donor exposure of blood products after cardiac surgery. Background: What is the Problem? - Bleeding, Transfusion and Outcomes 1. Excessive bleeding after neonatal cardiac surgery has been independently associated with increased adverse events, morbidity and mortality.1,2 Bleeding after neonatal open-heart surgery has multiple etiologies such as immaturity of the building blocks of coagulation, effects of deep hypothermia, longer CPB times, altered flow states and dilutional state induced by being on CPB leading to low platelet count, low platelet function, low fibrinogen levels, altered fibrinogen polymerization, complement activation, etc.2,3 The strongest predictor of transfusion after cardiopulmonary bypass in children was deemed to be the CPB circuit volume and the effect of hemodilution.4 2. The dilutional coagulopathy after neonatal CPB requires intense damage control resuscitation with massive transfusion of platelets, packed red blood cells (PRBC), cryoprecipitate, fresh frozen plasma (FFP) and supplemental factor concentrates. In a previous study at this institution (IRB# HSC-MS-13-0647), we have shown that in neonates undergoing open-heart surgery there was a significant drop in platelet counts after bypass (71% change, baseline= 268 ± 90, Post CPB= 76 ± 27, 109/L). Associated with this drop , the average intraoperative transfusion load in neonates undergoing cardiac surgery with CPB at our institution constitutes of PRBC= 63± 43 ml/kg, FFP=51± 21 ml/kg, cryoprecipitate =12+6 ml/kg, platelets = 28 +16 ml/kg and cell-saver =27± 10 ml/kg. In addition 72% of these patients were exposed to a 3-factor prothrombin complex concentrate (Bebulin®). Although this "throw the kitchen sink" approach is effective in achieving hemostasis, it comes with significant effects on post CPB hemodynamics, constantly changing hematocrit, variable blood volume with inability to achieve steady state inotropic state affecting cardiac output, oxygen delivery and adding to pulmonary hypertension. Overall, having higher platelet counts at the time of weaning from cardiopulmonary bypass has distinct advantages of reducing transfusions and improving outcomes.
Metabolic acidosis is a frequent problem in cardiopulmonary bypass. The cause is poorly understood, but it appears to be multifactorial. It is assumed to be result of hypoperfusion with resultant lactatemia. And other theories include bicarbonate dilution to excessive proton activity and diluting fluid.The main three contributors for the development of metabolic acidosis are stress of anaesthesia, surgery and Cardio Pulmonary Bypass(CPB) prime.Even after research discussion and debate, there is no agreement upon ideal prime.The literature is extensive, comparing different types of colloids, colloids versus crystalloids, synthetic versus organic, and inclusion of numerous additions in an attempt to make a grossly unphysiological state the least disruptive to the body as possible
Patients admitted for coronary artery bypass surgery taking antiplatelet medicine have an increased risk for bleeding. Present study aims to compare the platelet function in two patient groups using different types of heart-lung machine methods. It is assumed that one of the methods is superior verified by sensitive methods of testing platelet function.
The purpose of this study is to determine whether cerebral blood flow and cerebral tissue oxygenation is most dependent on cardiac output or on mean arterial pressure in patients undergoing cardiac surgery with the use of cardiopulmonary bypass.
Pharmacokinetics of cefazolin in children undergoing cardiac surgery.
The purpose of this study is to investigate the frequency and grade of gastrointestinal dysfunction in patients after thoracic cardiovascular surgery, and to search for biomarkers of gastrointestinal dysfunction. All adult patients undergoing elective cardiac surgery requiring cardiopulmonary bypass at Örebro University Hospital, Örebro, Sweden, are asked for participation in this study. All participating patients sign informed consent at the inclusion. The first three postoperative days the function of the gastrointestinal tract is scored according to a rating scale (grade 0-4), along with other clinical parameters. Plasma blood samples are collected from each patient preoperatively and the first three postoperative days. The plasma samples are stored in a biobank for later determination of plasma proteins. In the analysis, the patients are divided according to the gastrointestinal rating scale and the plasma protein expression, gastrointestinal complications and all-cause mortality are compared between the groups.
The optimal heparin regimen during cardiopulmonary bypass (CPB) has not been well established in obese patients. Results of a preview study show that the standard heparin management based on total body weight in obese patients during CPB resulted in excessive heparin level, which could lead to excessive postoperative bleeding. To avoid this overdosing, an initial heparin bolus based on ideal body weight in obese patients was proposed. The main objective of the study is to evaluate the effects of heparin injection, based on ideal body weight, on intraoperative plasma heparin levels and activated coagulation time (ACT) in a population of obese patients, compared to a group of obese patients undergoing CPB surgery with heparin management based of total body weight. The secondary objectives are to evaluate the relationship between heparin level and ACT in each group of patients and at different time points during CPB, and to compare the incidence of bleeding, intraoperative transfusions and complications in the two groups of patients.
The modern era of cardiac surgery began in early 1950s with the introduction of cardiopulmonary bypass (CPB). Although it has been clearly shown that CPB is almost unavoidable for most open heart operations, an undesirable systemic inflammatory response syndrome (SIRS) is associated with its use. This complex chain of events has strong similarities with sepsis and may contribute to the development of postoperative complications and multiple organ failure (MOF). It has been shown that an excessive compensatory anti-inflammatory response (CARS) after SIRS can lead to immune paralysis and increased rate of hospital acquired infection. The balance of pro-inflammatory and anti-inflammatory mediators determines the inflammatory response and the clinical outcome. Accordingly, great efforts have been focused on therapeutic interventions aimed at reducing the inflammatory reactions during CPB, including pharmacologic strategies and modification of surgical techniques or mechanical devices. Such therapies may provide improvements in patient outcome after open heart operations. Among pharmacologic strategies is the prophylaxis with corticosteroids, which have been used during open heart surgery for more than 30 years. Many studies, both experimental and clinical, failed to produce evidence in favor of steroid treatment. As far as medical devices are concerned, the use of extracorporeal cytokine filter CytoSorb looks promising in cardiac surgery. It was recently approved by European Medicines Agency as an active treatment to fight cytokine storm. Serum paraoxonase 1 (PON1) is a lipo-lactonase, being associated with HDL that has an anti-inflammatory role and protects against atherosclerosis. Low levels of PON1 are associated with venous graft occlusion in patients with coronary artery bypass grafting. PON1 reduces monocyte chemotaxis and adhesion to endothelial cells, leading to inhibition of the differentiation of monocytes into macrophages. The effects of cytokine adsorption therapy on PON1 are unknown. The aim of the study is to explore the effects of extracorporeal immunoadsorption during CPB on pro-inflammatory and anti-inflammatory protective mediators and cellular immune status in cardiac surgery.
the decrease in thoracopulmonary compliance after cardiac surgery is well known . The investigators hypothesize that the major factor determining pulmonary outcome after cardiac surgery is the alteration of pulmonary compliance during cardiopulmonary bypass(CBP) and that this alteration is due to CBP itself through pulmonary blood emptying.