View clinical trials related to Cardiac Surgical Procedure.
Filter by:The investigators have previously reported that cardiac surgery with CPB ( cardiopulmonary bypass) in young infants induced a drastic reduction in mHLA-DR ( Human Leucocyte Antigen) expression, which represents one of innate immune mediator. Danger-Associated Molecular Patterns (DAMPs) can elicit immune response and may subsequentely induce an immune-suppressed state. The investigators hypothesize that CPB causes excessive DAMP release, leading to the development of immune suppression. Thus, DAMPs release will be assessed in patients undergoing CBP, and consequences on immune suppression will be evaluated.
Activated clotting times (ACT) is employed most commonly to assess anticoagulation and ensure adequate heparin and protamine dosing during cardiopulmonary bypass (CPB). However, many studies have demonstrated a lack of correlation between plasma heparin levels and ACT during CPB. HMS Plus device estimate the free plasma heparin level from a whole-blood sample and also include the dose of protamine necessary to neutralize the circulating heparin at the end of CPB. It could predict a higher heparin dose and lower protamine dose but it's interest on postoperative bleeding and perioperative transfusion is unclear.
Cardiac surgery with cardiopulmonary bypass (CPB) provokes a systemic inflammatory response that can often lead to dysfunction of major organs. Activation of the contact system, endotoxemia, surgical trauma, and ischemic reperfusion injury are all possible triggers of inflammation. Previous studies demonstrated that pro-inflammatory cytokines play an important role during this process. However, very little is known about the susceptibility of the splanchnic organs to ischemic reperfusion injury. Although the incidence of intestinal complications reported to be low, the in-hospital mortality in these patients was high at 15% to 63%. Dexmedetomidine, a highly selective α2-adrenergic agonist, can reduce the consumption of other sedative and antinociceptive drugs and provide sufficient sedative effects with minimal respiratory side effects. In addition, dexmedetomidine gradually has gained popularity in the field of critical care. Preemptive administration of dexmedetomidine has shown to be protective against inflammation, intestinal, renal, and myocardial injuries in animal and human studies. Dexmedetomidine is also used as an anesthetic adjuvant during surgery to offer good perioperative hemodynamic stability and an intraoperative anesthetic-sparing effect. Perioperative use of dexmedetomidine can reduce intestinal and hepatic injury after hepatectomy with inflow occlusion under general anesthesia. However, whether or not it can exert protective effects on the above-mentioned organs, especially intestine, after cardiac surgery remains unclear. The aim of this study is to evaluate the effects of dexmedetomidine on intestinal, hepatic, and other organ injury in patients receiving cardiac surgery with CPB. In this double-blinded randomized controlled study, serum diamine oxidase activity, which is a sensitive and specific marker for the detection of intestinal injury, is taken as the primary endpoint. Other parameters reflecting the functions of liver (AST/ALT), lung (lung injury score and CC-16), kidney (BUN/Cre), and heart (CK-MB/Troponin T), the biomarker of endothelial injury (endocan) will also be determined. Besides, microcirculation parameters measured with Cytocam® and near-infrared spectroscopy (NIRS) will be used to estimate the protective effect of dexmedetomidine on microcirculation. The variables will be collected perioperatively and will be followed up for 3 days after the surgery. Clinical outcome parameters will be followed up for 3 months after the surgery.
The SONOCLOT Analyzer (S1; Sienco, Inc. Boulder, CO USA, Model DP-2951) is used to perform kaolin-based activated clotting time as routine monitor of heparin therapy in patients undergoing cardiac operations. In addition, the device allows the assessment of the patient's coagulation status by a glass-bead activated test. Recently, a new SONOCLOT analyzer (S2) has been developed. As part of the routine management using S1, tests are also performed on S2. Results are entered into the cardiac surgery data base of all cardiac surgery patients and analyzed.
The number of patients undergoing Minimally Invasive Cardiac Surgery (MICS) is increasing each year. MICS procedures on atrioventricular valves are usually performed without conventional sternotomy, an alternative approach is from right anterolateral minithoracotomy. This surgical approach has essential impact both on anesthesia techniques and cardiopulmonary bypass (CPB) settings. Specific anesthesiological procedure is an insertion of neck venous cannula of CPB through the right internal jugular vein into the superior vena cava both for partial and total bypass. The size of neck cannula is between 15 and 21 French depending on the type of surgical procedure and patient's weight. Central venous catheter and eventually sheath are also inserted into the right internal jugular vein. Thus, there is a relevant question regarding postoperative patency of right internal jugular vein in patients undergoing MICS procedures requiring an insertion of neck cannula of CPB. The investigators hypothesize, there is no significant difference in postoperative patency of internal jugular vein assessed by ultrasound in patient undergoing cardiac surgery with and without neck cannula of CPB