ASAIO journal : a peer-reviewed journal of the American Society for Artificial Internal Organs
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Patients with severe cardiac or pulmonary failure who require transport to specialized hospitals currently pose a challenge. Mechanical support in the form of extracorporeal membrane oxygenation (ECMO) may increase the safety of transporting such patients to an institution where they will have access to advanced medical therapy. Over 2.5 years, 17 patients were successfully cannulated and placed on a simplified ECMO circuit at other institutions and transported via ambulance to our hospital. ⋯ Ten patients (59%) were weaned from the ventilator, and nine patients (53%) survived up to 3 months and were discharged from the hospital. Critically ill patients with severe ARDS or cardiogenic shock can be safely transported on VV or VA ECMO support to regional ECMO centers. As the indications and demands for ECMO support expand, so will the role for transporting patients on ECMO.
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The purpose of this study is to briefly summarize cardiopulmonary bypass (CPB) techniques and clinical outcomes in Beijing Fuwai Hospital. This article introduces routine CPB techniques in Fuwai Hospital, including CPB instruments, circuit setup, priming, conventional CPB management, myocardial protection, deep hypothermic circulatory arrest, ultrafiltration, autologous cell saver blood transfusion, and extracorporeal membrane oxygenation (ECMO). Clinical outcomes and further improvements of CPB management are also discussed. ⋯ Twenty-seven patients (75%, mean support time: 123.6 ± 54.1 hours) were weaned off ECMO successfully and discharged without severe complications. In conclusion, clinical CPB protocol used in Beijing Fuwai Hospital is a safe, simple, and conventional CPB management system that is suitable for practical clinical application in China. Further optimization is still needed to improve perfusion quality.
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Extracorporeal circulatory support revolutionized the field of cardiothoracic surgery, initially in the form of cardiopulmonary bypass (CPB) and then in its modified form, extracorporeal membrane oxygenation (ECMO). Although initial cannulation techniques involved open intrathoracic approaches, the increased prevalence of reoperative sternotomies and the emergence of minimally invasive surgery encouraged the development of peripheral cannulation methods and configurations. ⋯ However, some patients on VV ECMO then develop compromised cardiac performance. We describe two ways in which the Avalon Elite was used, first for complete venous drainage through a single peripheral site for CPB and in the other to convert a patient on VV ECMO to axillary artery venoarterial (VA) ECMO.
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The potential for long-term support on a ventricular assist device (VAD) in the bridge-to-transplant (BTT) and destination therapy (DT) settings has created unprecedented ethical challenges for patients and caregivers. Concerns include the patient's adaptation to life on a device and the ethical, clinical, and practical issues associated with living on mechanical support. ⋯ Patient preparation for VAD implantation encompasses three phases: 1) initial information regarding the physical events involved in implantation, risks and benefits of current device technology, and the use of VAD as a rescue device; 2) preimplant preparation including completion of advance directives specific to BTT/DT, competency determination, and identifying a patient spokesperson, multidisciplinary consultants, and cultural preferences regarding device withdrawal; and 3) VAD-specific end-of-life issues including plans for device replacement and palliative care with hospice or device withdrawal. This three-phase 10-point model addresses the ethical and psychosocial issues that should be discussed with patients undergoing VAD support.
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Our group describes a rare complication of inadvertent azygos vein cannulation during initiation of extracorporeal membrane oxygenation (ECMO) in a neonate with prenatal closure of the ductus arteriosus in a neonate born at an outlying facility and referred for possible congenital heart disease. Upon initial echocardiogram, no flow in the ductus arteriosus was present despite being maintained on prostaglandins. ⋯ Replacement of venous ECMO cannula with echocardiographic visualization of guide wire position restored ECMO flow. This report emphasizes the importance of lateral chest radiograph and prompt echocardiographic guidance at the time of ECMO cannulation particularly in clinical scenarios associated with azygos vein dilatation or elevated pressures in the right atrium or superior vena cava.