Establishing reference curves for vital tissue perfusion using quantitative near-infrared fluorescence imaging with indocyanine green.

IF 2.1 3区医学 Q2 SURGERY

Langenbeck's Archives of Surgery Pub Date : 2025-01-08 DOI:10.1007/s00423-024-03589-1

Floris P Tange, Roderick C Peul, Pim van den Hoven, Stefan Koning, Mo W Kruiswijk, Robin A Faber, Pieter S Verduijn, Carla S P van Rijswijk, Hidde A Galema, Denise E Hilling, Sam P J van Dijk, Tessa M van Ginhoven, Stijn Keereweer, Marc A M Mureau, Eline A Feitsma, Milou E Noltes, Schelto Kruijff, Caroline Driessen, Michael P Achiam, Abbey Schepers, Jan van Schaik, J Sven D Mieog, Alexander L Vahrmeijer, Jaap F Hamming, Joost R van der Vorst

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引用次数: 0

Abstract

Purpose: Assessment of tissue perfusion using near-infrared fluorescence (NIR) with indocyanine green (ICG) is gaining popularity, however reliable and objective interpretation remains a challenge. Therefore, this study aimed to establish reference curves for vital tissue perfusion across target tissues using this imaging modality.

Methods: Data from five prospective study cohorts conducted in three Dutch academic medical centres between December 2018 and June 2023 was included. Quantitative analysis using time-intensity curves was performed in ten target tissues, including the colon, ileum, gastric conduit, deep inferior epigastric artery perforator (DIEP) flap, skin of the foot, trachea, sternocleidomastoid muscle (SCM), carotid artery, parathyroid gland, and skin of the neck.

Results: A total of 178 patients were included in this study, representing 303 target tissues. Three different patterns of reference curves were identified based on a subjective assessment. Seven out of ten tissues showed a reference curve with rapid inflow (median time-to-max (tmax): 13.0-17.8 s, median maximum-normalized-slope (slope norm): 10.6-12.6%/sec), short outflow (median area-under-the-curve of tmax + 60 s (AUC60): 65.0-85.1%) followed by a gradual/absent outflow. Secondly, the DIEP flap and SCM tissue showed a reference curve with longer inflow (median tmax: 24.0, 22.0 s, median slope norm: 9.3, 9.7%/sec respectively) and reduced outflow (median AUC60: 89.1, 89.0% respectively). Thirdly, the skin of the foot showed slow inflow (median tmax 141.1 s, median norm slope 2.1%/sec) without outflow.

Conclusion: This study demonstrates reference curves for vital tissue perfusion of multiple target tissues identified with ICG NIR fluorescence imaging, providing a critical step towards the clinical implementation of this technique.

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用吲哚菁绿定量近红外荧光成像建立重要组织灌注参考曲线。

目的：近红外荧光（NIR）与吲哚菁绿（ICG）评价组织灌注越来越受欢迎，但可靠和客观的解释仍然是一个挑战。因此，本研究旨在利用该成像方式建立跨靶组织重要组织灌注的参考曲线。方法：纳入2018年12月至2023年6月期间在三个荷兰学术医疗中心进行的五个前瞻性研究队列的数据。采用时间-强度曲线对结肠、回肠、胃导管、腹下深动脉穿支（DIEP）皮瓣、足部皮肤、气管、胸锁乳突肌、颈动脉、甲状旁腺、颈部皮肤等10个靶组织进行定量分析。结果：本研究共纳入178例患者，代表303个靶组织。根据主观评价，确定了三种不同的参考曲线模式。10个组织中有7个组织的参考曲线为快速流入（达到最大值的中位数时间（tmax）： 13.0-17.8 s，最大归一化斜率中位数（斜率规范）：10.6-12.6%/秒），短流出（tmax + 60 s曲线下面积中位数（AUC60）： 65.0-85.1%），然后是逐渐或无流出。其次，DIEP皮瓣和SCM组织的参考曲线流入较长（tmax中位数分别为24.0、22.0 s，斜率中位数分别为9.3、9.7%/秒），流出量减少（AUC60中位数分别为89.1、89.0%）。③足部皮肤呈缓慢流入（tmax中位数141.1 s， norm斜率中位数2.1%/sec），无流出。结论：本研究建立了ICG近红外荧光成像识别的多个靶组织的重要组织灌注参考曲线，为该技术的临床应用提供了关键的一步。

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

Langenbeck's Archives of Surgery 医学-外科

CiteScore

3.30

自引率

8.70%

发文量

342

审稿时长

4-8 weeks

期刊介绍： Langenbeck''s Archives of Surgery aims to publish the best results in the field of clinical surgery and basic surgical research. The main focus is on providing the highest level of clinical research and clinically relevant basic research. The journal, published exclusively in English, will provide an international discussion forum for the controlled results of clinical surgery. The majority of published contributions will be original articles reporting on clinical data from general and visceral surgery, while endocrine surgery will also be covered. Papers on basic surgical principles from the fields of traumatology, vascular and thoracic surgery are also welcome. Evidence-based medicine is an important criterion for the acceptance of papers.