University Heart Center Graz, Department of Cardiology, Medical University of Graz, Graz, Austria.
The Lambe Institute for Translational Medicine and Curam, Saolta University Healthcare Group, Galway, Ireland.
Catheter Cardiovasc Interv. 2022 Feb;99(2):424-432. doi: 10.1002/ccd.29510. Epub 2021 Feb 10.
Present bench study aimed to evaluate whether technical characteristics of Fantom Encore® bioresorbable scaffold (BRS) allow to perform proximal optimization/side branch dilation/proximal optimization (POT-SB-POT) technique, as an adequate solution for bifurcation percutaneous coronary intervention.
Two Fantom Encore® BRS platforms (small with 3.0 mm nominal diameter, n = 7; and large with 3.5 mm nominal diameter, n = 7) were evaluated in bench models, which were designed according to Finet-law and fitted to nominal scaffold diameter in the distal main branch (MB) and fitted to indicated maximal expansion capacity in the proximal main branch (MB). Results were evaluated by (a) fluoroscopy, (b) optical coherence tomography (OCT) and (c) micro-computed tomography (μCT).
All procedures were performed according to the protocol. Careful review of the fluoroscopic loops by an independent operator did not reveal any strut fracture or major deformation. By OCT the overall rate of perfectly apposed struts in the bifurcation area was 15 ± 6% after SB opening, that increased significantly but remained low with 22 ± 9% after final POT (p = .001). Compared to SB ballooning alone, significant benefit of final POT was found in rate of perfect apposition in the proximal MB (15 ± 12% vs. 26 ± 15%, respectively; p = .017) and at the abostial side of polygon of confluence (7 ± 9% vs. 16 ± 13%, respectively; p = .005). μCT analysis revealed a single strut fracture in one case with the small platform, while four cases showed single or multiple strut fractures with the large platform.
The mechanical characteristics of the device are not suitable for use of Conventional techniques for bifurcation PCI such as POT-SB-POT. The use of Fantom Encore® BRS for bifurcation PCI with relevant SB should not be encouraged.
本基础研究旨在评估 Fantom Encore®生物可吸收支架(BRS)的技术特点是否允许进行近端优化/分支扩张/近端优化(POT-SB-POT)技术,作为分叉经皮冠状动脉介入治疗的一种合适解决方案。
在基础模型中评估了两种 Fantom Encore® BRS 平台(小直径为 3.0mm,n=7;大直径为 3.5mm,n=7),这些模型是根据 Finet 定律设计的,并与远端主干(MB)的标称支架直径相匹配,并与近端主干(MB)的最大扩张能力相匹配。结果通过(a)荧光透视,(b)光学相干断层扫描(OCT)和(c)微计算机断层扫描(μCT)进行评估。
所有程序均按照方案进行。由独立操作者仔细审查荧光透视环,未发现任何支架断裂或严重变形。通过 OCT,在分支区域,SB 开放后完全贴合的支架总体比例为 15±6%,在最终 POT 后显著增加,但仍较低,为 22±9%(p=0.001)。与单独的 SB 扩张相比,最终 POT 在近端 MB(15±12%比 26±15%,分别;p=0.017)和融合多边形的近段侧(7±9%比 16±13%,分别;p=0.005)的完美贴合率方面具有显著优势。μCT 分析显示,小平台中有 1 例发生单个支架断裂,而大平台中有 4 例出现单个或多个支架断裂。
该设备的机械特性不适合分叉 PCI 的常规技术,如 POT-SB-POT。不应鼓励使用 Fantom Encore® BRS 进行分叉 PCI 并相关的 SB。
