Assessing the development status of intraoperative fluorescence imaging for perfusion assessments, using the IDEAL framework.

IF 2.1 Q2 SURGERY
BMJ Surgery Interventions Health Technologies Pub Date : 2021-10-19 eCollection Date: 2021-01-01 DOI:10.1136/bmjsit-2021-000088
Takeaki Ishizawa, Peter McCulloch, Derek Muehrcke, Thomas Carus, Ory Wiesel, Giovanni Dapri, Sylke Schneider-Koriath, Steven D Wexner, Mahmoud Abu-Gazala, Luigi Boni, Elisa Cassinotti, Charles Sabbagh, Ronan Cahill, Frederic Ris, Michele Carvello, Antonino Spinelli, Eric Vibert, Muga Terasawa, Mikiya Takao, Kiyoshi Hasegawa, Rutger M Schols, Tim Pruimboom, Yasuo Murai, Fumihiro Matano, Michael Bouvet, Michele Diana, Norihiro Kokudo, Fernando Dip, Kevin White, Raul J Rosenthal
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引用次数: 5

Abstract

Objectives: Intraoperative fluorescence imaging is currently used in a variety of surgical fields for four main purposes: assessing tissue perfusion; identifying/localizing cancer; mapping lymphatic systems; and visualizing anatomy. To establish evidence-based guidance for research and practice, understanding the state of research on fluorescence imaging in different surgical fields is needed. We evaluated the evidence on fluorescence imaging for perfusion assessments using the Idea, Development, Exploration, Assessment, Long Term Study (IDEAL) framework, which was designed for describing the stages of innovation in surgery and other interventional procedures.

Design: Narrative literature review with analysis of IDEAL stage of each field of study.

Setting: All publications on intraoperative fluorescence imaging for perfusion assessments reported in PubMed through 2019 were identified for six surgical procedures: coronary artery bypass grafting (CABG), upper gastrointestinal (GI) surgery, colorectal surgery, solid organ transplantation, reconstructive surgery, and cerebral aneurysm surgery.

Main outcome measures: The IDEAL stage of research evidence was determined for each specialty field using a previously described approach.

Results: 196 articles (15 003 cases) were selected for analysis. Current status of research evidence was determined to be IDEAL Stage 2a for upper GI and transplantation surgery, IDEAL 2b for CABG, colorectal and cerebral aneurysm surgery, and IDEAL Stage 3 for reconstructive surgery. Using the technique resulted in a high (up to 50%) rate of revisions among surgical procedures, but its efficacy improving postoperative outcomes has not yet been demonstrated by randomized controlled trials in any discipline. Only one possible adverse reaction to intravenous indocyanine green was reported.

Conclusions: Using fluorescence imaging intraoperatively to assess perfusion is feasible and appears useful for surgical decision making across a range of disciplines. Identifying the IDEAL stage of current research knowledge aids in planning further studies to establish the potential for patient benefit.

Abstract Image

Abstract Image

Abstract Image

利用IDEAL框架评估术中荧光成像灌注评估的发展状况。
目的:术中荧光成像目前用于各种手术领域,主要有四个目的:评估组织灌注;识别/本地化癌症;绘制淋巴系统;可视化解剖。了解荧光成像在不同外科领域的研究现状,为研究和实践提供循证指导。我们使用Idea、Development、Exploration、Assessment、Long Term Study (IDEAL)框架评估了荧光成像用于灌注评估的证据,该框架旨在描述手术和其他介入手术的创新阶段。设计:叙述文献回顾,分析每个研究领域的理想阶段。背景:截至2019年,PubMed上报告的所有术中荧光成像灌注评估出版物均被确定为六种外科手术:冠状动脉搭桥术(CABG)、上胃肠道(GI)手术、结直肠手术、实体器官移植、重建手术和脑动脉瘤手术。主要结果测量:使用先前描述的方法确定每个专业领域的研究证据的理想阶段。结果:选取196篇文献(15 003例)进行分析。目前研究证据的状态确定为上消化道和移植手术的理想2a期,CABG、结直肠和脑动脉瘤手术的理想2b期,重建手术的理想3期。在外科手术中,使用该技术导致高(高达50%)的翻修率,但其改善术后预后的功效尚未在任何学科的随机对照试验中得到证实。仅报道一例静脉注射吲哚菁绿可能的不良反应。结论:术中使用荧光成像评估灌注是可行的,并且对各种学科的手术决策都是有用的。确定当前研究知识的理想阶段有助于规划进一步的研究,以确定患者获益的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
2.80
自引率
0.00%
发文量
22
审稿时长
17 weeks
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