Objective To introduce the method and effect of common cardiop ulmonary bypass(CPB) switched to closed extracorporeal circulation by medtronic extracorporeal membrane oxygenation(ECMO) package. Methods From Junuary 2007 to June 2008, common CPB switched to closed extracorporeal circulation by Medtronic ECMO package adding blood reservoir and artery microembolus filtrator was used to 15 patients with grave heart disease to provide CPB support during operation on heart and cardiac function support after operation. The circulation was built through femoral arteryfemoral veinsuperior vena cava intubation or aortaright auricle intubation. There were 10 male and 5 female aged from 6582 years (74.0±9.3 years) and weighed from 6389 kg (69.0±11.4 kg). There were 11 cases with old myocardial infarction, 1 case with acute myocardial infarction, 1 case with old myocardial infarction complicated with mitral stenosis and mitral incompetence, and 2 cases reopened and undergone double valve replacement. Results For all the 15 patients, the closed circulation time was 31112 min(77.3±21.5 min). The CPB time was 51-84 min(69.7±9.8 min). The ostoperative mechanical ventilation time was 414 h(8.3±2.9 h). The 24 hchest drainage was 110-360 ml(227.3±80.4 ml). All patients were cured and discharged successfully with cardiac function classification in grade ⅠⅡ. Thirteen cases were followed up. The followup time was 412 months. Their cardiac function recovered well and no complication occurred. Conclusion This method could provide effective support for heart and lung before operation,during operation and after operation. This method could save material cost. The heparin paintcoat could reduce inflammatory reaction and it is good for patients’ recovery.
Abstract: Objective To observe the influence of various methods of cerebral protection during deep hypothermic circulatory arrest (DHCA ) on S-100 protein. Methods Eighteen dogs were randomly and equally divided into three groups: the deep hypothermic circulatory arrest (DHCA group ) , the DHCA with retrograde cerebral perfusion (DHCA + RCP group ) , and the DHCA with intermittent antegrade cerebral perfusion (DHCA + IACP group ). Upon interruption of cardiopulmonary bypass (CPB) , the nasopharyngeal temperature was slowly lowered to 18℃, before CPB was discontinued for 90 minutes, after 90 minutes, CPB was re-established and the body temperature was gradually restored to 36℃, then CPB was terminated. Before the circulatory arrest, 45min, 90min after the circulatory arrest and 15min, 30min after re-established of CPB, blood samples were drawn from the jugular veins fo r assay of S-100 protein. Upon completion of surgery, the dogs was sacrificed and the hippocampus was removed from the brain, properly processed for examination by transmission electron microscope for changes in the ultrastructure of the brain and nerve cells. Results There was no significant difference in the content of S-100 protein before circulatory arrest among all three groups (P gt; 0.05). After circulatory arrest, DHCA and DHCA +RCP group showed an significant increase in the content of S-100 protein (P lt; 0.01). There was no significant difference in the content of S-100 protein after circulatory arrest in DHCA + IACP group. Conclusion Cerebral ischemic injuries would occur if the period of DHCA is prolonged. RCP during DHCA would provide protection for the brain to some extent, but it is more likely to cause dropsy in the brain and nerve cells. On the other hand IACP during DHCA appears to provide better brain protection.