Yoshizane Takashi, Tanaka Shinichiro, Abe Shintaro, Ueno Takahiro, Goto Yoshiaki, Kojima Tai, Iwama Makoto, Arai Masazumi, Noda Toshiyuki, Kawasaki Masanori
Department of Cardiology, Gifu Prefectural General Medical Center, 4-6-1, Noishiki, Gifu, 500-8226, Gifu, Japan.
Asahi University Hospital, Gifu, Gifu, Japan.
Heart Vessels. 2019 Oct;34(10):1639-1649. doi: 10.1007/s00380-019-01410-4. Epub 2019 Apr 17.
Pathological studies have suggested the different process of in-stent restenosis (ISR) of bare-metal stents (BMS) and drug-eluting stents (DES). Here, we evaluated the components of neointimal tissue using integrated backscatter intravascular ultrasound (IB-IVUS) and focused on the time course after stent implantation and tissue signal distribution. We evaluated 125 lesions of 125 patients who underwent target lesion revascularization for ISR (BMS: n = 73, DES: n = 52). Volume analysis of a 4-mm length centered on a minimum lumen area in every 1-mm cross-sectional area was performed. For IB-IVUS analysis, color-coded maps were constructed from the default setting based on the integrated backscatter (IB) values (middle-IB value, green: fibrous and low-IB value, blue: lipid pool). For the neointimal tissue volume, we evaluated the ratios of the green (%G) and blue (%B) areas. Tissue signal distribution (TD) was also obtained from the default setting based on IB values in each pixel of IB-IVUS imaging. We compared values of neointimal tissues measured by IB-IVUS between the DES and BMS and time course. The observed period was longer after BMS implantation than after DES implantation (BMS: 2545 days, DES: 1233 days, p < 0.001). Overall, %G and %B were similar between the BMS and DES groups (%G: 55% and 51%, respectively, p = 0.10; %B: 36% and 38%, respectively, p = 0.51); however, TD was significantly higher in the DES group than in the BMS group (1091 vs. 1367, p < 0.001). TD in the DES group remained high during the follow-up periods. However, TD in the BMS group was low in the early phase and significantly increased over time (r = 0.56, p < 0.001). When analyzing the ISR within 2 years after stent implantation, the BMS was distinguished with a sensitivity of 66% and a specificity of 90% (cut-off value: TD = 1135, area under the curve 0.83, 95% confidence interval 0.74-0.92). TD could differentiate neointimal tissue after BMS implantation in the early phase. TD can be a useful index in the observation of neoatherosclerosis.
病理学研究表明,裸金属支架(BMS)和药物洗脱支架(DES)的支架内再狭窄(ISR)过程有所不同。在此,我们使用背向散射积分血管内超声(IB-IVUS)评估了新生内膜组织的成分,并重点关注了支架植入后的时间进程和组织信号分布。我们评估了125例因ISR接受靶病变血运重建的患者的125个病变(BMS:n = 73,DES:n = 52)。对每个1毫米横截面积中以最小管腔面积为中心的4毫米长度进行体积分析。对于IB-IVUS分析,根据基于背向散射积分(IB)值的默认设置构建彩色编码图(中等IB值,绿色:纤维组织;低IB值,蓝色:脂质池)。对于新生内膜组织体积,我们评估了绿色(%G)和蓝色(%B)区域的比例。组织信号分布(TD)也从基于IB-IVUS成像每个像素的IB值的默认设置中获得。我们比较了DES和BMS之间通过IB-IVUS测量的新生内膜组织值以及时间进程。BMS植入后的观察期比DES植入后更长(BMS:2545天,DES:1233天,p < 0.001)。总体而言,BMS组和DES组之间的%G和%B相似(%G分别为55%和51%,p = 0.10;%B分别为36%和38%,p = 0.51);然而,DES组的TD显著高于BMS组(1091对1367,p < 0.001)。DES组的TD在随访期间一直较高。然而,BMS组的TD在早期较低,且随时间显著增加(r = 0.56,p < 0.001)。在分析支架植入后2年内的ISR时,BMS的区分灵敏度为66%,特异性为90%(临界值:TD = 1135,曲线下面积0.83, 95%置信区间0.74 - 0.92)。TD可以在早期区分BMS植入后的新生内膜组织。TD在观察新生动脉粥样硬化方面可能是一个有用的指标。