Bleeding after cardiac surgery is a common and serious complication leading to transfusion of multiple blood products and resulting in increased morbidity and mortality. Despite the publication of numerous guidelines and consensus statements for patient blood management in cardiac surgery, research has revealed that adherence to these guidelines is poor, and as a result, a significant variability in patient transfusion practices among practitioners still remains. In addition, although utilization of point-of-care (POC) coagulation monitors and the use of novel therapeutic strategies for perioperative hemostasis, such as the use of coagulation factor concentrates, have increased significantly over the last decade, they are still not widely available in every institution. Therefore, despite continuous efforts, blood transfusion in cardiac surgery has only modestly declined over the last decade, remaining at ≥50% in high-risk patients. Given these limitations, and in response to new regulatory and legislature requirements, the Society of Cardiovascular Anesthesiologists (SCA) has formed the Blood Conservation in Cardiac Surgery Working Group to organize, summarize, and disseminate the available best-practice knowledge in patient blood management in cardiac surgery. The current publication includes the summary statements and algorithms designed by the working group, after collection and review of the existing guidelines, consensus statements, and recommendations for patient blood management practices in cardiac surgery patients. The overall goal is creating a dynamic resource of easily accessible educational material that will help to increase and improve compliance with the existing evidence-based best practices of patient blood management by cardiac surgery care teams.
Bleeding after cardiac surgery is a common and serious complication leading to transfusion of multiple blood products and resulting in increased morbidity and mortality. Despite the publication of numerous guidelines and consensus statements for patient blood management in cardiac surgery, research has revealed that adherence to these guidelines is poor, and as a result, a significant variability in patient transfusion practices among practitioners still remains. In addition, although utilization of point of care coagulation monitors and the use of novel therapeutic strategies for perioperative hemostasis, such as the use of coagulation factor concentrates, has increased significantly over the last decade, they are still not widely available in every institution. Therefore, despite continuous efforts, blood transfusion in cardiac surgery has declined only modestly over the last decade, remaining at 50% or greater in high-risk patients. Given these limitations and in response to new regulatory and legislature requirements, the Society of Cardiovascular Anesthesiologists has formed the Blood Conservation in Cardiac Surgery Working Group in order to organize, summarize, and disseminate the available best-practice knowledge in patient blood management in cardiac surgery. The current publication includes the summary statements and algorithms designed by the working group, after collection and review of the existing guidelines, consensus statements, and recommendations for patient blood management practices in cardiac surgery patients. The overall goal is creating a dynamic resource of easily accessible educational material that will help to increase and improve compliance with the existing evidence-based best practices of patient blood management by cardiac surgery care teams.
The Fas (CD95, APO-1) receptor is a membrane-associated polypeptide that can mediate apoptosis in various cell types. Although Fas receptor is expressed in endothelial cells (EC), little is known about its function in these cells. The expression of Fas by liver endothelial cells (LEC) suggests that upon stimulation, apoptosis may occur in these cells. We show that Fas is highly and constitutively expressed in cloned murine liver endothelial cells (LEC-1). In contrast, FasL expression was not detected at the protein and mRNA level in these cells. Our results show that Fas ligation in LEC-1 induces apoptotic cell death, indicating that Fas receptor is functional in these cells. The doses of Fas agonist required to induce LEC-1 apoptosis were higher than those used previously in other cells, including hepatocytes, suggesting that LEC-1 are highly resistant to the Fas apoptotic pathway. TNF treatment of LEC-1 induced up-regulation of Fas receptor on these cells. In contrast, TNF did not induce the expression of FasL on LEC-1. An increased susceptibility to Fas-mediated apoptosis was observed in TNF-treated LEC-1. Enhanced susceptibility to Fas-mediated apoptosis was also observed in LEC-1 pretreated with actinomycin D, suggesting that transcription of message coding for protective proteins is necessary to protect these cells against Fas-mediated apoptosis. Up-regulation of VCAM-1 and ICAM-1 was observed in LEC-1 treated with a dose of Fas agonist that does not induce apoptosis. To our knowledge, this is the first report that Fas mediates apoptosis in LEC, suggesting that apoptosis of these cells may participate in the liver damage observed in animals after receiving anti-Fas mAb or soluble FasL. Our findings also suggest that the Fas/FasL system may transduce activating signals independently of cell death in LEC-1.
The review resulted in the conclusion that 3D TEE provides unique and dynamic 3D spatial information that cannot be obtained by 2D TEE or fluoroscopy. In addition to technical and process advancements, future studies should address educational value in terms of acceleration of learning curves, and impact on surgical decision making.
Providing anesthesia in nonoperating room locations is becoming increasingly common. The field of electrophysiology and its patient population are growing, resulting in a greater need for anesthesiologists in the electrophysiology laboratory. The procedures are complex and of long duration with patients who have multiple comorbidities. The electrophysiology laboratory is a unique situation in that arrhythmias are sought and sometimes even provoked so that they may be eliminated. The focus of this review will be on anesthesia for electrophysiology studies and catheter ablation.
BACKGROUND: Blood conservation and hemostasis are integral parts of reducing avoidable blood transfusions and the associated morbidity and mortality. Despite the publication of blood conservation guidelines for cardiac surgery, evidence suggests persistent variability in practice patterns. Members of the Society of Cardiovascular Anesthesiologists (SCA) created a survey to audit conformance to existing guidelines and use the results to help narrow the evidence-to-practice gap. METHODS: Members of the SCA and its Continuous Practice Improvement (CPI)— Blood Conservation Work Group developed a 48-item Blood Conservation and Hemostasis in Cardiac Surgery (BCHCS) survey. The questionnaire included the components of the Anesthesia Quality Institute’s (AQI) composite measure AQI49. The survey was distributed to the entire SCA membership by e-mail via the Research Electronic Data Capture (REDCap) Consortium between the fall of 2017 and early 2018. RESULTS: Of 3152 SCA members, 536 returned surveys for a response rate of 17%. Most responders worked at academic institutions. The median transfusion trigger after cardiopulmonary bypass was hemoglobin (Hgb) 7.0 to 8.0 g/dL. There are 4 components to AQI49, and the composite conformance to all of them was low due to 1 specific component: the use of transfusion algorithms supplemented with point-of-care (POC) testing. There was good conformance to the other 3 components of AQI49: use of antifibrinolytics, minimization of hemodilution and use of red cell salvage. Overall, practices with a multidisciplinary patient blood management (PBM) team were the most successful in meeting all 4 AQI49 criteria. CONCLUSIONS: The survey demonstrated widespread adoption of several best practices, including the tolerance of lower hemoglobin transfusion triggers, use of antifibrinolytics, minimization of hemodilution, and use of red cell salvage. The survey also confirms that gaps remain in preoperative anemia management and the use of transfusion algorithms supplemented with POC hemostasis testing. Serial use of this survey can be used to identify barriers to implementation and audit the effectiveness of interventions described in this article. This instrument could also help harmonize local, regional, and national efforts and become an essential component of an implementation strategy for PBM in cardiac surgery.
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