Shinichi Iwakoshi1, Shigeo Ichihashi2, Hirofumi Itoh2, Nobuoki Tabayashi3, Shoji Sakaguchi4, Takeshi Yoshida5, Yoshihisa Nakao6, Kimihiko Kichikawa2. 1. Department of Radiology, Nara Medical University, Nara, Japan. Electronic address: shinichi18548342@gmail.com. 2. Department of Radiology, Nara Medical University, Nara, Japan. 3. Department of Thoracic and Cardiovascular Surgery, Nara Medical University, Nara, Japan. 4. Department of Radiology, Matsubara Tokusyukai Hospital, Matsubara, Japan. 5. Department of Cardiovascular Surgery, Matsubara Tokusyukai Hospital, Matsubara, Japan. 6. Department of Cardiovascular Surgery, Yao Tokusyukai Hospital, Yao, Japan.
Abstract
OBJECTIVE: Thoracic endovascular aneurysm repair (TEVAR) for the aortic arch aneurysm is challenging because of its curved anatomic configuration and the presence of the supra-aortic branches. The Najuta fenestrated endograft (Kawasumi Laboratories, Inc, Tokyo, Japan) was developed to treat aortic arch diseases, offering maximal proximal landing length while preserving the blood flow to the supra-aortic branches. We evaluated the perioperative and midterm outcomes of this fenestrated endograft. METHODS: Between July 2007 and July 2013, 32 patients were treated with the Najuta endograft at three vascular centers. The mean age of the patients was 74.5 ± 9.8 years (23 patients were men). Technical success, complication, overall survival rate, freedom from aneurysm-related death, secondary intervention, aneurysm enlargement, device migration, and patency of supra-aortic branches were investigated retrospectively. RESULTS: The median follow-up period was 2.5 years (range, 0.2-6.2 years). Seventy-one supra-aortic vessels (30 brachiocephalic arteries, 31 left common carotid arteries, 10 left subclavian arteries) were planned to be preserved with fenestrations. Technical success rate was 91% (29 of 32; three type I endoleaks were seen), and five perioperative complications (two Stanford A dissections, one cerebral infarction, one celiac artery obstruction, one spinal cord ischemia) were recognized. Perioperative death was not observed. Overall survival rate and rate of freedom from aneurysm-related death at 3 years were 67% and 97%, respectively. The rate of freedom from secondary intervention and the rate of freedom from aneurysm enlargement at 3 years were 84% and 85%, respectively. Device migration was not observed. There were two branch (left carotid artery and left subclavian artery) occlusions at 2 weeks after TEVAR due to the endograft's infolding. No other branch occlusion was seen in this follow-up period. As a result, the patency rate of the supra-aortic branch was 97% at 3 years. CONCLUSIONS: The perioperative and 3-year outcomes of TEVAR using the Najuta precurved, fenestrated endograft demonstrated high freedom from aneurysm enlargement and patency rates of the supra-aortic branches.
OBJECTIVE:Thoracic endovascular aneurysm repair (TEVAR) for the aortic arch aneurysm is challenging because of its curved anatomic configuration and the presence of the supra-aortic branches. The Najuta fenestrated endograft (Kawasumi Laboratories, Inc, Tokyo, Japan) was developed to treat aortic arch diseases, offering maximal proximal landing length while preserving the blood flow to the supra-aortic branches. We evaluated the perioperative and midterm outcomes of this fenestrated endograft. METHODS: Between July 2007 and July 2013, 32 patients were treated with the Najuta endograft at three vascular centers. The mean age of the patients was 74.5 ± 9.8 years (23 patients were men). Technical success, complication, overall survival rate, freedom from aneurysm-related death, secondary intervention, aneurysm enlargement, device migration, and patency of supra-aortic branches were investigated retrospectively. RESULTS: The median follow-up period was 2.5 years (range, 0.2-6.2 years). Seventy-one supra-aortic vessels (30 brachiocephalic arteries, 31 left common carotid arteries, 10 left subclavian arteries) were planned to be preserved with fenestrations. Technical success rate was 91% (29 of 32; three type I endoleaks were seen), and five perioperative complications (two Stanford A dissections, one cerebral infarction, one celiac artery obstruction, one spinal cord ischemia) were recognized. Perioperative death was not observed. Overall survival rate and rate of freedom from aneurysm-related death at 3 years were 67% and 97%, respectively. The rate of freedom from secondary intervention and the rate of freedom from aneurysm enlargement at 3 years were 84% and 85%, respectively. Device migration was not observed. There were two branch (left carotid artery and left subclavian artery) occlusions at 2 weeks after TEVAR due to the endograft's infolding. No other branch occlusion was seen in this follow-up period. As a result, the patency rate of the supra-aortic branch was 97% at 3 years. CONCLUSIONS: The perioperative and 3-year outcomes of TEVAR using the Najuta precurved, fenestrated endograft demonstrated high freedom from aneurysm enlargement and patency rates of the supra-aortic branches.