用于内脏灌注评估的荧光血管造影定量:测量两种软件算法之间的一致性

D. J. Nijssen, J. J. Joosten, J. Osterkamp, R. M. van den Elzen, D. M. de Bruin, M. B. S. Svendsen, M. W. Dalsgaard, S. S. Gisbertz, R. Hompes, M. P. Achiam, M. I. van Berge Henegouwen
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引用次数: 0

摘要

背景花青素绿荧光血管造影(ICG-FA)可减少胃肠吻合术中与灌注相关的并发症。用于量化 ICG-FA 的软件正在兴起,以克服对该技术的主观解释。需要对量化算法进行比较,以判断其外部有效性。这项回顾性队列分析包括 2020 年 8 月至 2022 年 2 月期间接受食管切除术和胃导管重建术患者的标准化 ICG-FA 视频记录。记录由两种量化软件进行分析:AMS 和 CPH。用于测量内脏灌注的定量参数是荧光时间曲线得出的归一化最大斜率。AMS 和 CPH 的一致性通过 Bland-Altman 分析进行评估。研究还确定了两种软件的术中灌注测量与吻合口漏发生率之间的关系。Bland-Altman 分析表明,AMS 软件与 CPH 软件在测量归一化最大斜率方面的平均相对差异为 + 58.2%。AMS 和 CPH 之间的一致性随着测量值幅度的增加而恶化,显示出比例(线性)偏差(R2 = 0.512,p <0.001)。AMS 和 CPH 测量的归一化最大斜率与吻合口漏的发生均无显著关系(中位数分别为 0.081 对 0.074,p = 0.32 和 0.041 对 0.042,p = 0.51)。在解释报告 ICG-FA 定量参数和衍生阈值的研究时,应考虑基于软件的定量方法之间可能存在的差异,因为其外部有效性可能有限。
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Quantification of fluorescence angiography for visceral perfusion assessment: measuring agreement between two software algorithms

Background

Indocyanine green fluorescence angiography (ICG-FA) may reduce perfusion-related complications of gastrointestinal anastomosis. Software implementations for quantifying ICG-FA are emerging to overcome a subjective interpretation of the technology. Comparison between quantification algorithms is needed to judge its external validity. This study aimed to measure the agreement for visceral perfusion assessment between two independently developed quantification software implementations.

Methods

This retrospective cohort analysis included standardized ICG-FA video recordings of patients who underwent esophagectomy with gastric conduit reconstruction between August 2020 until February 2022. Recordings were analyzed by two quantification software implementations: AMS and CPH. The quantitative parameter used to measure visceral perfusion was the normalized maximum slope derived from fluorescence time curves. The agreement between AMS and CPH was evaluated in a Bland–Altman analysis. The relation between the intraoperative measurement of perfusion and the incidence of anastomotic leakage was determined for both software implementations.

Results

Seventy pre-anastomosis ICG-FA recordings were included in the study. The Bland–Altman analysis indicated a mean relative difference of + 58.2% in the measurement of the normalized maximum slope when comparing the AMS software to CPH. The agreement between AMS and CPH deteriorated as the magnitude of the measured values increased, revealing a proportional (linear) bias (R2 = 0.512, p < 0.001). Neither the AMS nor the CPH measurements of the normalized maximum slope held a significant relationship with the occurrence of anastomotic leakage (median of 0.081 versus 0.074, p = 0.32 and 0.041 vs 0.042, p = 0.51, respectively).

Conclusion

This is the first study to demonstrate technical differences in software implementations that can lead to discrepancies in ICG-FA quantification in human clinical cases. The possible variation among software-based quantification methods should be considered when interpreting studies that report quantitative ICG-FA parameters and derived thresholds, as there may be a limited external validity.

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