View clinical trials related to Cardiopulmonary Bypass.
Filter by: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.
Cardiopulmonary bypass (CPB) is known to alter pharmacokinetics (PK) and brain sensitivity to several drugs, including propofol. Few studies, however, have tested if propofol pharmacokinetical alterations observed after CPB could contribute to the increased hypnotic effect of propofol after CPB. This study was designed to test the hypothesis that changes in the PK of propofol contribute to an increase in its hypnotic effects after CPB as evidenced by changes in bispectral index (BIS) values. Twenty undergoing coronary artery bypass graft patients will be allocated in two groups: 1) CPB groups and 2) off-pump coronary artery bypass graft. Bispectral Index values and blood samples for plasma propofol concentration measurements will be collected along the surgery and up to 12 hours in the post-operative period. Plasma propofol concentrations, Bispectral index values and propofol PK will be compared between the groups.
Each year over a million patients worldwide undergo cardiac surgery requiring cardiopulmonary bypass (CPB).1 CPB is associated with significant morbidity including hemodynamic instability, the transfusion of allogenic blood products, and inflammation. Blood product transfusion increases mortality after cardiac surgery. Enhanced fibrinolysis contributes to increased blood product transfusion requirements in the perioperative period. CPB activates the kallikrein-kinin system (KKS), leading to increased bradykinin concentrations. Bradykinin, acting through its B2 receptor, stimulates the release of nitric oxide, inflammatory cytokines and tissue-type plasminogen activator (t-PA). Based on data indicating that angiotensin-converting enzyme (ACE) inhibitors reduce mortality in patients with coronary artery disease, many patients undergoing CPB are taking ACE inhibitors. While interruption of the renin-angiotensin system (RAS) reduces inflammation in response to CPB, ACE inhibitors also potentiate the effects of bradykinin and may augment B2-mediated change in fibrinolytic balance and inflammation. In contrast, angiotensin II type 1 receptor antagonism does not potentiate bradykinin and does not inhibit bradykinin metabolism. Studies in animals suggest that bradykinin receptor antagonism inhibits reperfusion-induced increases in vascular permeability and neutrophil recruitment.A randomized, placebo controlled clinical trial of a bradykinin B2 receptor antagonist demonstrated some effect on survival in patients with systemic inflammatory response syndrome and gram-negative sepsis. In addition, we and others have shown bradykinin B2 receptor antagonism reduces vascular t-PA release during ACE inhibition. The current proposal derives from data from our laboratory and others elucidating the role of the KKS in the inflammatory, hypotensive and fibrinolytic response to CPB. Specifically, we have found that CPB activates the KKS and that ACE inhibition and smoking further increases bradykinin concentrations. During CPB, bradykinin concentrations correlate inversely with mean arterial pressure and directly with t-PA. Moreover, we have found that bradykinin receptor antagonism attenuates protamine-related hypotension following CPB. The current proposal tests the central hypothesis that the fibrinolytic and inflammatory response to cardiopulmonary bypass differ during angiotensin-converting enzyme inhibition and angiotensin II type 1 receptor antagonism.
Cardiopulmonary bypass is done with a machine that does the work of the heart and lungs during open-heart surgery. This study is to determine if intravenous (i.v.) phenoxybenzamine is safe. This drug lowers the blood pressure, making it easier for the cardiopulmonary bypass machine to deliver blood and oxygen to all of the organs and tissues.
This is a retrospective chart review study. The purpose of this study is to review our experience at Children's Healthcare of Atlanta in neonates receiving aprotinin. We will examine the specific outcomes of renal dysfunction, thrombosis and mortality.
The current method of evaluating the surgical repair during surgery is limited to echocardiography (a noninvasive diagnostic procedure that uses ultrasound to study the structure and motions of the heart) or an invasive procedure called cardiac catheterization. The SPY imaging system makes use of the fluorescence properties of indocyanine green (ICG) to obtain high quality images in blood vessels. ICG is a green dye used to test heart output. The use of the SPY imaging system during surgery may provide valuable information regarding successful vessel connection and the area remaining unblocked. This study will compare the results of images to echocardiography and conventional angiography results. With SPY imaging, congenital heart surgeons would be able to check the quality of the procedure and revise, redo or perform additional procedures as dictated by the images before the patient leaves the operating room.
The purpose of this study is to determine if the Medtronic Resting Heart Bypass system is safer and results in less inflammatory reaction than traditional bypass machines used in coronary artery bypass surgery. We hypothesize that the new Medtronic Resting Heart System is safer and results in much less systemic inflammatory reaction in comparison to the standard cardiopulmonary bypass systems currently in use.
Effect of two preoperative oral immune-enhancing nutritional supplements in patients at high risk of infection after cardiac surgery: a randomized placebo-controlled study. Introduction: In our first study we showed that the use of a preoperative oral immune-enhancing nutritional supplement (OIENS) resulted in an improved patients’ host-defence with a reduction in postoperative infectious morbidity in ‘high-risk’ cardiac surgery patients. The use of the OIENS resulted also in less postoperative organ dysfunction. Experimental studies have shown that additional glycine results in less ischemia-reperfusion damage and that glycine has anti-inflammatory properties. Objective: The use of an OIENS in the preoperative period in patients at high risk of infection after elective cardiac surgery with the use of cardiopulmonary bypass (CPB) results in a reduction in infections as in our first study. The addition of 9.6 gram glycine per sachet OIENS results in a further reduction in postoperative dysfunction. Design: A prospective randomized placebo controlled study with two oral immune enhancing nutritional formula’s and an isocaloric control formula. Patients: Seventy-four consecutive patients undergoing cardiac surgery with the use of an CPB who met one or more of the following inclusion criteria: Age 70 years or older, mitral valve replacement or cardiac ejection fraction less then 40%. Exclusion criteria were age < 18 years, proven malignancy, use of corticosteroids, severe renal and liver failure. Definition of a protocol violation was the intake of less then 5 L or more then 10 L of the nutritional supplement in the preoperative period. Intervention: Patients were split up in three groups by concealed randomisation. One group received the arginine, omega3-PUFAs and nucleotides enriched formula (OIENS). Another group received the OIENS further enriched with glycine (OIENS+glyc). The control group received an isocaloric nutritional supplement without the enrichments.
The purpose of this study is to determine whether doxycycline (Periostat) at a sub-antimicrobial dose will decrease reperfusion injury after coronary artery bypass grafting (CABG) surgery with cardiopulmonary bypass (CPB).
Each year over a million patients worldwide undergo cardiac surgery requiring cardiopulmonary bypass (CPB). CPB is associated with significant morbidity including the transfusion of allogenic blood products, inflammation and hemodynamic instability. In fact, approximately 20% of all blood products transfused are associated with coronary artery bypass grafting procedures. Transfusion of allogenic blood products is associated with well-documented morbidity and increased mortality after cardiac surgery. Enhanced fibrinolysis contributes to increased blood product transfusion in the perioperative period. The current proposal tests the central hypothesis that endogenous bradykinin contributes to the hemodynamic, fibrinolytic and inflammatory response to CPB and that bradykinin receptor antagonism will reduce hypotension, inflammation and transfusion requirements. In SPECIFIC AIM 1 we will test the hypothesis that the fibrinolytic and inflammatory response to CPB differ during ACE inhibition and angiotensin II type 1 receptor antagonism. In SPECIFIC AIM 2 we will test the hypothesis that bradykinin B2 receptor antagonism attenuates the hemodynamic, fibrinolytic, and inflammatory response to CPB. In SPECIFIC AIM 3 we will test the hypothesis that bradykinin B2 receptor antagonism reduces the risk of allogenic blood product transfusion in patients undergoing CPB. These studies promise to provide important information regarding the effects of drugs that interrupt the RAS and generate new strategies to reduce morbidity in patients undergoing CPB.