Department of Cardiovascular Surgery, Osaka University Graduate School of Medicine, Osaka, Japan.
Department of Cardiovascular Surgery, Osaka University Graduate School of Medicine, Osaka, Japan.
J Thorac Cardiovasc Surg. 2024 Jul;168(1):76-85.e8. doi: 10.1016/j.jtcvs.2022.11.023. Epub 2022 Dec 1.
Coronary artery access after repeat transcatheter aortic valve replacement (TAV-in-TAV) is reportedly more difficult because leaflet displacement of the first transcatheter heart valve (THV) impairs coronary cannulation; however, its effects in small patients are unknown. This study aimed to simulate coronary accessibility after TAV-in-TAV in patients of small body size.
We retrospectively analyzed computed tomography scans after initial THV implantation and classified patients by THV and coronary artery location, valve-to-aorta distance, and valve-to-coronary distance. Risks were compared between the SAPIEN and CoreValve/Evolut series, among THV generations, and between bicuspid and tricuspid aortic valves in the CoreValve/Evolut series.
A total of 254 patients (SAPIEN series, n = 164; CoreValve/Evolut series, n = 90) were enrolled. The average body surface area of the patients was 1.44 m. Patients were classified as "feasible" (26%), "theoretically feasible with low risk" (19.7%), "theoretically feasible with high risk" (8.7%), or "unfeasible" (45.8%). The "unfeasible" rate was significantly higher in the CoreValve/Evolut series than in the SAPIEN series (78.9% vs 26.2%; P < .001). A significantly higher "unfeasible" rate was identified in the current model of SAPIEN (SAPIEN, 8.3%; SAPIENXT, 1.8%; SAPIEN3, 48.2%; P < .001), but not in the CoreValve/Evolut series (CoreValve, 83.3%; Evolut R, 80.0%; Evolut PRO, 71.4%; P = .587). Patients with a bicuspid aortic valve had a lower "unfeasible" rate compared to those with a tricuspid aortic valve (60.0% vs 86.2%; P = .014).
Patients of small body size may have a high probability of "unfeasible" coronary access after TAV-in-TAV, especially when treated with current high-frame devices, suggesting the need for careful strategic planning for initial THV implantation.
据报道,在重复经导管主动脉瓣置换术(TAV-in-TAV)后,冠状动脉的入路更加困难,因为第一次经导管心脏瓣膜(THV)的瓣叶移位会损害冠状动脉的插管;然而,其在小患者中的影响尚不清楚。本研究旨在模拟小体型患者 TAV-in-TAV 后的冠状动脉可及性。
我们回顾性分析了初次 THV 植入后的计算机断层扫描,并根据 THV 和冠状动脉位置、瓣膜至主动脉距离以及瓣膜至冠状动脉距离对患者进行分类。比较了 SAPIEN 和 CoreValve/Evolut 系列、THV 代际以及 CoreValve/Evolut 系列中双瓣叶和三瓣叶主动脉瓣之间的风险。
共纳入 254 例患者(SAPIEN 系列,n=164;CoreValve/Evolut 系列,n=90)。患者的平均体表面积为 1.44 m。患者被分类为“可行”(26%)、“理论上可行但风险低”(19.7%)、“理论上可行但风险高”(8.7%)或“不可行”(45.8%)。CoreValve/Evolut 系列的“不可行”率明显高于 SAPIEN 系列(78.9% vs 26.2%;P<.001)。当前 SAPIEN 模型中“不可行”率明显更高(SAPIEN,8.3%;SAPIENXT,1.8%;SAPIEN3,48.2%;P<.001),而 CoreValve/Evolut 系列则没有(CoreValve,83.3%;Evolut R,80.0%;Evolut PRO,71.4%;P=.587)。双瓣叶主动脉瓣患者的“不可行”率明显低于三瓣叶主动脉瓣患者(60.0% vs 86.2%;P=.014)。
体型较小的患者 TAV-in-TAV 后“不可行”冠状动脉入路的可能性较高,尤其是使用当前高帧率装置时,这提示在初次 THV 植入时需要仔细进行策略规划。
