Elective hypothermic cardiopulmonary bypass and circulatory arrest for spinal cord protection during operations on the thoracoabdominal aorta

Abstract

Resection of aneurysms of the entire descending thoracic aorta and segments of the abdominal aorta is associated with a substantial incidence of spinal cord ischemic injury, particularly in patients with aortic dissection. Since hypothermia has a protective effect on spinal cord function, we evaluated a technique of total cardiopulmonary bypass with periods of hypothermic circulatory arrest and low flow (rectal/bladder temperatures of 15 degrees to 19 degrees C) in five patients requiring replacement of the entire descending thoracic and the upper abdominal aorta and judged to be at high risk for the development of spinal cord injury. All patent lower intercostal and lumbar arteries were preserved or reimplanted during the hypothermic interval. There was one hospital death. None of the four survivors had a new spinal neurologic deficit, renal or cardiac dysfunction, or required reoperation for bleeding. Transfusion of blood products was not excessive. Severe pulmonary dysfunction necessitating tracheostomy occurred in one patient and contributed to his death 7 weeks postoperatively. The remaining three patients are well 8 to 36 months postoperatively. This initial experience suggests that hypothermic perfusion and circulatory arrest can be safely implemented in selected patients who require extensive aortic resections and who are at substantial risk for the development of spinal cord injury. Further evaluation of this technique is warranted.