Biplane 3D overlay guidance for congenital heart disease to assist cardiac catheterization interventions-A pilot study.

IF 1.4 Q3 CARDIAC & CARDIOVASCULAR SYSTEMS JRSM Cardiovascular Disease Pub Date : 2024-09-19 eCollection Date: 2024-01-01 DOI:10.1177/20480040241274521
Ravi V Vegulla, Gerald Greil, Surendranath V Reddy, Luis Zabala, Vivian Dimas, Yousef Arar, Antonia Pontiki, Kawal Rhode, Tarique Hussain
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Abstract

Cardiac catheterization for congenital heart disease (CHD) performed under fluoroscopic guidance still lacks definition and requires exposure to ionizing radiation and contrast agents, with most patients needing multiple procedures through their lifetime, leading to cumulative radiation risks. While fusion overlay techniques have been employed in the past to aid, these have been limited to a single plane, while interventions are traditionally performed under biplane fluoroscopy. We describe our initial experience performing cardiac catheterizations guided by an enhanced biplane GuideCCI system© (Siemens Healthcare, Germany) augmented by 3D magnetic resonance imaging and computed tomography modeling. Twenty-one children and young adults with CHD undergoing catheterization procedures between October 2019 and May 2021 were chosen based on their degree of complexity of cardiac anatomy. 3D stereolithography models were generated, overlayed, and displayed in real time, alongside angiographs in both planes on the screen during these procedures. We report successful implementation of this novel technology for performance of 26 interventions including stent placements, balloon dilations, vessel occlusion and percutaneous valve and transvenous pacemaker implantation all in patients with various complex cardiac anatomies. A statistically significant reduction in radiation and contrast use was noted for coarctation of the aorta stent angioplasty and transcatheter pulmonary valve replacement when compared with national benchmarks and local institutional metrics (with and without single plane overlay). No complications were encountered with the use of this technology. Use of a tracheal registration technique provided very good correlation in most cases. Operators preferred using biplane augmented catheterization over traditional fluoroscopy in patients with complex cardiac anatomy undergoing interventions.

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用于先天性心脏病的双平面三维覆盖引导以辅助心导管介入治疗--一项试点研究。
在透视引导下进行的先天性心脏病(CHD)心导管检查仍然缺乏明确性,而且需要暴露于电离辐射和造影剂中,大多数患者一生中需要进行多次手术,从而导致累积性辐射风险。虽然过去曾采用过融合覆盖技术来辅助治疗,但这些技术仅限于单一平面,而介入治疗传统上是在双平面透视下进行的。我们介绍了在增强型双平面 GuideCCI 系统©(德国西门子医疗集团)的引导下,通过三维磁共振成像和计算机断层扫描建模进行心导管手术的初步经验。在 2019 年 10 月至 2021 年 5 月期间,21 名患有先天性心脏病的儿童和年轻成人根据其心脏解剖的复杂程度接受了导管手术。在这些手术过程中,我们在屏幕上实时生成、叠加和显示三维立体光刻模型以及两个平面的血管造影。我们报告了这项新技术成功应用于 26 种介入手术的情况,包括支架植入、球囊扩张、血管闭塞、经皮瓣膜和经静脉起搏器植入,所有这些手术都是针对各种复杂心脏解剖结构的患者进行的。与国家基准和当地机构指标(有单平面覆盖和无单平面覆盖)相比,主动脉共动脉支架血管成形术和经导管肺动脉瓣置换术的辐射和造影剂用量明显减少。使用该技术未出现任何并发症。在大多数病例中,使用气管套准技术可提供非常好的相关性。对于心脏解剖结构复杂的介入治疗患者,手术医生更倾向于使用双平面增强导管术,而不是传统的透视术。
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来源期刊
JRSM Cardiovascular Disease
JRSM Cardiovascular Disease CARDIAC & CARDIOVASCULAR SYSTEMS-
自引率
6.20%
发文量
12
审稿时长
12 weeks
期刊最新文献
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