ASAIO journal : a peer-reviewed journal of the American Society for Artificial Internal Organs
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Platelet dysfunction and loss of procoagulants and platelets leads to impaired hemostasis after cardiopulmonary bypass (CPB). Preoperative platelet sequestration delays surgery, and the large volume shifts, necessary to harvest therapeutically effective components, may be associated with hemodynamic instability. We performed platelet and plasma sequestration after the initiation of CPB during the cooling period in patients undergoing surgery in deep hypothermic cardiac arrest. ⋯ No patient needed re-exploration due to hemorrhage. The data presented provide evidence that autologous plasma and platelet sequestration during CPB initiation is effective. The harvested material reveals a high platelet count and fibrinogen level and preserves functional integrity.
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Pediatric myocardial related morbidity and mortality after cardiopulmonary bypass (CPB) are well documented, but the effects of pulsatile perfusion (PP) versus nonpulsatile perfusion (NPP) on myocardial blood flow during and after hypothermic CPB are unclear. After investigating the effects of PP versus NPP on myocardial flow during and after hypothermic CPB, we quantified PP and NPP pressure and flow waveforms in terms of the energy equivalent pressure (EEP) for direct comparison. Ten piglets underwent PP (n = 5) or NPP (n = 5). ⋯ The pressure increase (from MAP to EEP) was 10+/-2% with PP and 1% with NPP (p < 0.0001). The increase in extracorporeal circuit pressure (ECCP) (from ECCP to EEP) was 33+/-10% with PP and 3% with NPP (p < 0.0001). Pulsatile flow generates significantly higher energy, enhancing myocardial flow during and after hypothermic CPB and after 60 minutes of ischemia in this model.