ヤマザキ ケンジ   Yamazaki Kenji
  山崎 健二
   所属   医学部 医学科(東京女子医科大学病院)
   職種   客員教授
論文種別 原著
言語種別 英語
査読の有無 査読あり
表題 Outflow graft anastomosis site design could be correlated to aortic valve regurgitation under left ventricular assist device support.
掲載誌名 正式名:Journal of Artificial Organs
略  称:J Artif Organs
ISSNコード:1434-7229/1619-0904
掲載区分国内
出版社 The Japanese Society for Artificial Organs
巻・号・頁 21(2),pp.150-155
著者・共著者 IIZUKA Kei†, NISHINAKA Tomohiro, ICHIHARA Yuki, MIYAMOTO Takuma, YAMAZAKI Kenji*
担当区分 最終著者
発行年月 2018/01
概要 Aortic valve regurgitation (AR) is a critical complication during circulatory support with a left ventricular assist device (LVAD). The time-course of AR and related factors, including outflow graft anastomosis site design, were investigated. Twenty-three patients who had continuous-flow LVAD implantation and were supported for more than 6 months were investigated. AR grade (none, 0; trivial, 0.5; mild, 1; mild-moderate, 1.5; moderate, 2; moderate-severe, 2.5; severe, 3) and aortic valve opening were evaluated with echocardiography. Computed tomography was performed to all the patients postoperatively. The angle of the outflow graft to the aorta (O-A angle, parallel 0; tangent 90°, 0-180°), aortic diameter at the anastomosis site, sino-tubular junction (STJ) diameter, distance between the STJ and the anastomosis site, and distance between the anastomosis site and the brachiocephalic artery were measured. The patients' age was 38 ± 11 years. Support duration was 686 ± 354 days. Mean AR grade after continuous-flow LVAD implantation was increased to around mild and was maintained thereafter. No patient needed any intervention to the aortic valve. The aortic valves of 82.6% of patients were closed continuously. The O-A angle (83 ± 14) was positively correlated with maximum AR grade (p = 0.0095). The O-A angle was significantly smaller in patients with maximum AR grade of 1 or less (77 ± 9°) than in those with 1.5 or greater (94 ± 15°, p = 0.021). The other CT measurements had no correlation with AR grade. In conclusion, the O-A angle was correlated with AR grade progression. The O-A angle appears to be one of the important factors related to AR under continuous-flow LVAD support.
DOI 10.1007/s10047-017-1006-1
PMID 29164425