Patients with heparin-induced thrombocytopenia have a poor prognosis and high mortality, thus surgical risk under extracorporeal circulation increased. Early diagnosis, safe and effective alternative anticoagulation strategy are crucial for these patients to receive extracorporeal circulation surgery. This review focuses on the pathophysiology, laboratory examination, diagnosis and alternative anticoagulation strategy of extracorporeal circulation for patients with heparin-induced thrombocytopenia.
Perioperative monitoring of blood coagulation is critical to better understand causes of hemorrhage, to guide hemostatic therapies, and to predict the risk of bleeding. Point-of-care (POC) coagulation monitoring devices assessing the viscoelastic properties of whole blood may overcome several limitations of routine coagulation tests in the perioperative setting. The advantage of these techniques is that they have the potential to measure the clotting process, starting with fibrin formation and continue through to clot retraction and fibrinolysis at the bedside, with minimal delays. Furthermore, the coagulation status of patients is assessed in whole blood, allowing the plasmatic coagulation system to interact with platelets and red blood cells, and thereby providing useful additional information on platelet function. Viscoelastic POC coagulation devices are increasingly being used in clinical practice, especially in the management of patients undergoing cardiac and liver surgery, assessment of hypo-and hypercoagulable states, guiding pro- and anticoagulant therapies, monitoring of antiplatelet therapy and procoagulant therapy. To ensure optimal accuracy and performance, standardized procedures for blood sampling and handling, strict quality controls and trained personnel are required.
Abstract: There is a 1% - 4% incidence of cardiac disease in pregnancy, and rheumatic heart disease is the most common diagnosis. On the condition that medical treatment is inefficacious, an open heart surgery should be performed. Because of the changes in physiological functions, there is a major difference between pregnant patients and the general population in perioperative management of valve replacement. Now , the pregnancy is not an absolute contraindication for cardiopulmonary bypass, though the incidence of mortality and birth defects remains high. It is helpful in decreasing complications and increasing survival rate by improving themethods of cardiopulmonary bypass, postoperative monitoring, anticoagulation etc. In this article, the progress in t reatments of perioperative period of cardiac valve replacement during pregnancy is reviewed.
Hemoglobin-based oxygen carriers (HBOCs) is a kind of blood substitutes. It is a separated, ultra-purified, modified human or bovine hemoglobin in a balanced saline solution. After modification, it has longer half-time, less renal toxicity, and better delivery of O2 even at low temperature and pH. Its shelf life is long and it dose not require cross-matching. In the field of cardiac surgery, the use of HBOCs can reduce the amount of transfusion postoperatively, and can be used in cardiopulmonary bypass priming and myocardial protection.
Cardiopulmonary bypass(CPB) is associated with thrombocytopenia and platelet dysfunction. The primary cause of acquired platelet defect is thought to be activation and release of alpha granules during CPB. Before CPB, platelet-rich plasma (PRP) was prepared by obtaining the required amount of patient’s whole blood by autologous plateletpheresis. PRP could be reinfused after operation in order to protect the function and quantities of the platelets. On the other hand, PRP could be made into autologous platelet gel (APG). APG contains supraphysiologic amounts of growth factors, and has adequate tensile strength and adhesive ability. Therefore, it can be used for hemostasis in operation, sealing wound and enhancing incision or dehiscent sternal wounds healing.
Objective To investigate the trends of cardiopulmonary bypass (CPB) professional development and personnel constitution in the past five years in China, and provide prediction and advice for the trend of Chinese CPB personnel constitution in the future. Methods We conducted 2 questionnaire investigations of Chinese hospitals in which cardiovascular surgeries were performed in the year 2005 and 2010, regarding the number of on-pump and off-pump cardiovascular operations and cases of extracorporeal membrane oxygenation (ECMO). Data of CPB personnel constitution in the year 2005 and 2010 were analyzed. Results The total number of cardiovascular operation, on-pump cardiovascular operation and ECMO cases was 104 631, 86 155, and 68 respectively in 2005. The total number of cardiovascular operation, on-pump cardiovascular operation and ECMO cases was 170 547, 136 753, and 206 respectively in 2010. There were 708 CPB professionals in 2005, including 40.2% (285/708)full time perfusionists and 23.2% (164/708)perfusionists with senior professional titles. There were 2 111 CPB professionals in 2010, including 37.6% (793/2 111) full time perfusionists and 25.5% (539/2 111) perfusionists with senior professional titles. Conclusion There has been a rapid CPB professional development in the past five years in China. The proportion of full time perfusionists, perfusionists with senior professional titles and higher educational degree will further increase in the future.
Abstract: Objective To identify the risk factors for shortterm adverse events in infants with congenital heart diseases receiving open heart surgical correction with cardiopulmonary bypass (CPB), in order to improve the outcome by adopting appropriate treatment measures. Methods We retrospectively analyzed the clinical data of 98 consecutive children with congenital heart diseases who underwent surgical correction with CPB in Beijing Fu Wai Hospital from November 2009 to December 2009. The patients were divided into two groups according to the postoperative complications. Among the patients without complications(n=40): there were 24 males and 16 females with an age of 7.60±0.40 months and a weight of 7.80±0.30 kg. In the patients with complications (n=58): there were 42 males and 16 females with an age of 6.20±0.40 months and a weight of 6.70±0.20 kg. In both groups, perioperative data were recorded, including preoperative fast blood glucose, creatinine, time of aortic crossclamp, modified or zerobalanced ultrafiltration, postoperative glucose level, concentration of lactate, notrope score and complications. Risk stratification was performed by Risk Adjusted Classification for Congenital Heart Surgery (RACHS-1). Univariate analysis and logistic regression analysis were used to identify the risk factors for shortterm adverse events. Results One patient(1.02%) died of circulatory failure during the perioperative period. Thirtyseven patients [CM(159mm]were supported by at least 2 vasoactive drugs for more than 48hours,29 by mechanical ventilation for more than 24 hours, 5 needed reintubation, 1 experienced tracheotomy, 31 suffered from noscomial infection, 4 had wound infection, 3 developed renal failure, and 1 developed hepatic dysfunction. By logistic regression analysis, age (OR=0.750, P=0.012), percutaneous oxygen saturation (OR=0.840,P=0.005), aortic crossclamp time (OR=1.040, P=0.008), postoperative glucose level (patients with a mean glucose level lower or equal to 8.33 mmol/L had a probability of developing adverse outcomes five times higher; OR=5.051, P=0.011) were found to be the risk factors for shortterm adverse outcomes. Conclusion Age, percutaneous oxygen saturation and aortic crossclamp time are associated with the shortterm adverse outcome of infants undergoing congenital heart disease correction with CPB. The present results do not support perioperative hyperglycemia as a risk factor for adverse outcome.
Objective To investigate the clinical effects and the management of combined using of zerobalanced ultrafiltration(ZBUF) and modified ultrafiltration(MUF) in severe infant open heart surgery with cardiopulmonary bypass(CPB) , in order to evaluate the feasibility and clinical significance of combination of ZBUF and MUF. Methods 20 pediatric patients diagnosed as complicated congenital heart disease had been involved, which included 12 males and 8 females with 12.6±7.5months of age and 8.5±3.3 kg of weight. Gambro FH22 hemofilter was selected in all patients. The typical MUF method was chosen. ZBUF was done during CPB and MUF was performed after CPB. The variety of hemodynamics, blood gas, concentration of electrolytes, inflammatory media and change of the plasma colloid osmotic pressure(COP) were measured at several time points. Filtrate was salvaged to detect the level of tumor necrosis factor alpha (TNF-α) and interleukine-8 (IL-8). Results Mean arterial pressure(MAP) was significantly higher(P=0.001) after MUF finished in all patients. Lactate acid (LAC), TNF-α and IL-8 had no significant difference before and after ZBUF. COP was significantly higher after MUF than that after ZBUF(P=0.002). Concentration of TNF-α in MUF filtrate was significantly higher than that in ZBUF(p=0.036). Conclusion Combined using of ZBUF and MUF has the effective ability of removing the inflammatory mediators and ameliorating system immunoreaction in pediatric CPB. MUF can improve the respiratory and heart function through decreasing the body water and increasing COP and hematocrit.