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Beating-Heart Mitral Valve Repair Using a Novel ePTFE Cordal Implantation Device: A Prospective Trial.使用新型 ePTFE 腱索植入装置行不停跳二尖瓣修复术:前瞻性试验。
J Am Coll Cardiol. 2018 Jan 2;71(1):25-36. doi: 10.1016/j.jacc.2017.10.062. Epub 2017 Nov 1.
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Cardioscopically Guided Beating Heart Surgery: Paravalvular Leak Repair.心内镜引导下心脏不停跳手术:瓣周漏修补术
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Med Biol Eng Comput. 2018 Mar;56(3):453-467. doi: 10.1007/s11517-017-1695-x. Epub 2017 Aug 15.
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Transapical Beating-Heart Mitral Valve Repair With an Expanded Polytetrafluoroethylene Cordal Implantation Device: Initial Clinical Experience.经心尖跳动心脏二尖瓣修复术联合膨体聚四氟乙烯腱索植入装置:初步临床经验
Circulation. 2016 Jul 19;134(3):189-97. doi: 10.1161/CIRCULATIONAHA.116.022010.
6
Cardioscopic Tool-delivery Instrument for Beating-heart Surgery.用于心脏跳动手术的心脏内镜器械输送装置。
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7
2014 AHA/ACC guideline for the management of patients with valvular heart disease: a report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines.2014年美国心脏协会/美国心脏病学会瓣膜性心脏病患者管理指南:美国心脏病学会/美国心脏协会实践指南工作组报告
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8
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Transapical neochord implantation: is tension of artificial chordae tendineae dependent on the insertion site?经心尖植入人工腱索:人工腱索的张力是否取决于植入部位?
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经皮心尖途径光学引导二尖瓣人工腱索植入器械。

Optically-guided instrument for transapical beating-heart delivery of artificial mitral chordae tendineae.

机构信息

Department of Cardiovascular Surgery, Boston's Children's Hospital, Boston, Mass.

Division of Cardiovascular Surgery, Taipei Veterans General Hospital, Taipei, Taiwan.

出版信息

J Thorac Cardiovasc Surg. 2019 Nov;158(5):1332-1340. doi: 10.1016/j.jtcvs.2019.02.120. Epub 2019 Mar 21.

DOI:10.1016/j.jtcvs.2019.02.120
PMID:31005306
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6754808/
Abstract

OBJECTIVE

We sought to develop an instrument that would enable the delivery of artificial chordae tendineae (ACT) using optical visualization of the leaflet inside the beating heart.

METHODS

A delivery instrument was developed together with an ACT anchor system. The instrument incorporates an optically clear silicone grasping surface in which are embedded a camera and LED for direct leaflet visualization during localization, grasping, and chordal delivery. ACTs, comprised of T-shaped anchors and an expanded polytetrafluoroethylene chordae, were fabricated to enable testing in a porcine model. Ex vivo experiments were used to measure the anchor tear-out force from the mitral leaflets. In vivo experiments were performed in which the mitral leaflets were accessed transapically using only optical guidance and ACTs were deployed in the posterior and anterior leaflets (P2 and A2 segments).

RESULTS

In 5 porcine ex vivo experiments, the mean force required to tear the anchors from the leaflets was 3.8 ± 1.2 N. In 5 porcine in vivo nonsurvival procedures, 14 ACTs were successfully placed in the leaflets (9 in P2 and 5 in A2). ACT implantation took an average of 3.22 ± 0.83 minutes from entry to exit through the apex.

CONCLUSIONS

Optical visualization of the mitral leaflet during chordal placement is feasible and provides direct feedback to the operator throughout the deployment sequence. This enables visual confirmation of the targeted leaflet location, distance from the free edge, and successful deployment of the chordal anchor. Further studies are needed to refine and assess the device for clinical use.

摘要

目的

我们旨在开发一种仪器,以便在跳动的心脏内部使用瓣叶的光学可视化来实现人工腱索(ACT)的植入。

方法

我们共同开发了一种输送器械和 ACT 锚定系统。该器械包含一个光学透明的硅树脂抓握表面,其中嵌入了一个摄像头和 LED 灯,以便在定位、抓取和腱索输送过程中直接观察瓣叶。ACT 由 T 型锚和膨体聚四氟乙烯腱索组成,可用于在猪模型中进行测试。进行了离体实验以测量锚从二尖瓣瓣叶上的撕裂力。进行了体内实验,仅通过光学引导经心尖入路进入二尖瓣,在其后叶和前叶(P2 和 A2 节段)部署了 ACT。

结果

在 5 例猪的离体实验中,从瓣叶上撕裂锚所需的平均力为 3.8 ± 1.2 N。在 5 例猪的非存活程序中,成功地在瓣叶上放置了 14 个 ACT(9 个在 P2,5 个在 A2)。ACT 植入术从进入心尖到从心尖穿出的平均时间为 3.22 ± 0.83 分钟。

结论

在腱索放置过程中对二尖瓣瓣叶进行光学可视化是可行的,并在整个部署过程中为操作人员提供直接反馈。这可以通过视觉确认目标瓣叶位置、距游离缘的距离以及成功部署腱索锚来实现。需要进一步的研究来完善和评估该设备用于临床应用。