Kyobu geka. The Japanese journal of thoracic surgery
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Our basic strategy for spinal cord protection during thoracoabdominal aortic surgery has been established since August 1994 such as: 1) distal aortic perfusion using partial cardiopulmonary bypass (32-34 degrees C), 2) multi-segmental sequential clamping, 3) deep hypothermic circulatory arrest when sequential clamping is impossible, 4) evoked spinal cord potential-guided reconstruction of the critical intercostal arteries (preoperative evaluation using multi-detector row computed tomography), 5) cerebrospinal fluid drainage, and 6) administration of naloxone hydrochloride and methylprednisolone. In this paper, we analyzed clinical outcome of thoracoabdominal aortic surgery according to this strategy. ⋯ Our strategy for spinal cord protection during thoracoabdominal aortic surgery could provide acceptable clinical outcome and seemed justified.
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Spinal cord injury such as paraparesis and paraplegia remains one of the major concerns in surgery on the thoracoabdominal aortic aneurysm (TAAA). We utilize spinal cord protection including cerebrospinal fluid drainage (CSFD), adjuncts of aortic distal perfusion, reconstruction of the intercostal or lumbar arteries and deep hypothermia in TAAA repair. This report describes the results of surgical treatment for TAAA including postoperative neurological outcome. ⋯ This clinical experience demonstrates that current technical strategies enable patients to undergo TAAA repair with acceptable early survival. However, despite aggressive spinal cord protection, few patients suffered from postoperative spinal cord injury. Future research should focus on spinal cord protection in patients with TAAA.
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Deep hypothermic cardiopulmonary bypass with intervals of circulatory arrest has been used for protection of the spinal cord during operations for thoracoabdominal aortic aneurysm (TAAA) in our hospital. We examined the effect of this adjunct this time. We studied 15 patients who were operated using deep hypothermic cardiopulmonary bypass with intervals of circulatory arrest among 19 patients with the TAAA who we performed the operations from 1995 through 2003. ⋯ Duration of spinal cord ischemia to the intercostal arteries were reconstructed was from 25 to 104 (50.5 +/- 24) minutes. We recognized nerve disorder in 6 cases in progress after operation, and respiratory organs management period and a hospitalization period became long, but the hospitalization death was 3 cases, and, as for the paraplegia was no case, 12 patients were discharged in good condition. The deep hypothermic cardiopulmonary bypass with intervals of circulatory arrest was regarded as a useful adjunct for prevention of the paraplegia.
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Between October 1996 and June 2003, endovascular stent graft repair was performed in 87 patients with descending thoracic aortic aneurysms, graft replacement was performed in 24 patients with thoracoabdominal aortic aneurysms, and endovascular stent graft repair with concomitant surgical bypass of abdominal visceral arteries was performed in 3 patients with thoracoabdominal aortic aneurysms. The retrievable stent graft was inserted and evoked spinal cord potential were monitored in order to predict spinal cord ischemia for stent graft repair. There was no paraplegia or hospital death, although 3 patients had paraparesis in stent graft repair. ⋯ The concomitant surgical procedure was a good technique for patients in whom cardiopulmonary bypass could not be used. Our results of stent graft repair and surgical operation for descending thoracic or thoracoabdominal aortic aneurysms were acceptable. The retrievable stent graft was useful for prediction of spinal cord ischemia before endovascular stent graft repair of descending thoracic or thoracoabdominal aortic aneurysm.