Efficacy of minimally invasive vascular interventions assessed with mobile multispectral near-infrared spectroscopy

JVS-vascular insights Pub Date : 2025-01-01 DOI:10.1016/j.jvsvi.2025.100216

Alisha Roberta Oropallo MD , Amit Rao MD , Jo Ann Eisinger PA , Larry Leonardi PhD

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引用次数: 0

Abstract

Background

The adoption of minimally invasive techniques for treating chronic venous insufficiency has surged. Techniques such as foam sclerotherapy and radiofrequency ablation (RFA) are now widely used to address incompetent great saphenous veins. Duplex ultrasound examination has become the gold standard for diagnosing venous insufficiency and evaluating the effectiveness of these treatments. However, venous reflux ultrasound studies remain some of the most time-consuming tasks to obtain.

Objective

The objective of this study was to evaluate the effectiveness of minimally invasive vascular interventions, such as foam sclerotherapy and/or RFA, using mobile multispectral near-infrared spectroscopic (NIRS) imaging. By measuring changes in tissue oxygenation (StO₂) before and after treatment, this study aims to provide insights into the utility of NIRS imaging as a noninvasive tool for assessing treatment outcomes.

Methods

This quasi-experimental pre-post-test design study included 14 patients treated for chronic venous insufficiency with either foam sclerotherapy or RFA between November 2022 and February 2024. The patient population presented with significant great saphenous vein insufficiency and normal deep venous pathology, with no evidence of deep vein thrombosis or superficial vein thrombosis, except for one case with partial chronic and deep venous thrombosis. NIRS images of the lower extremities were collected before and immediately after the treatment. The images were acquired from various anatomical locations including the dorsum and plantar aspects of the foot, the medial and lateral leg, and the wound area if present.

Results

The results demonstrated a statistically significant increase in mean StO₂ in lower extremities after foam sclerotherapy and RFA, indicating an improved microcirculatory function in the treated limb. These improvements in StO₂ in the lower extremities were consistent with the vascular examination results, which confirmed successful vein ablation or closure.

Conclusions

The study demonstrates that NIRS imaging effectively tracks treatment-related changes, providing a noninvasive and reliable method for the real-time assessment of StO₂. By visualizing changes in microcirculation, this technology offers clinicians valuable insights, enabling earlier detection of treatment success or failure and facilitating timely interventions. As such, NIRS imaging holds promise as a valuable tool in clinical practice for evaluating the efficacy of minimally invasive vascular treatments. However, the small sample size limits the ability to draw definitive conclusions.

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移动多光谱近红外光谱评估微创血管干预的疗效

背景微创技术在慢性静脉功能不全治疗中的应用越来越广泛。泡沫硬化疗法和射频消融（RFA）等技术现在被广泛用于治疗功能不全的大隐静脉。双重超声检查已成为诊断静脉功能不全和评估这些治疗效果的金标准。然而，静脉反流超声研究仍然是一些最耗时的任务获得。目的本研究的目的是评估微创血管干预的有效性，如泡沫硬化治疗和/或RFA，使用移动多光谱近红外光谱（NIRS）成像。通过测量治疗前后组织氧合（StO2）的变化，本研究旨在深入了解近红外成像作为评估治疗结果的无创工具的实用性。方法：这项准实验前-后试验设计研究纳入了2022年11月至2024年2月期间接受泡沫硬化疗法或RFA治疗的14例慢性静脉功能不全患者。患者总体表现为大隐静脉明显不全，深静脉病理正常，除1例部分慢性深静脉血栓形成外，无深静脉血栓形成或浅静脉血栓形成的证据。在治疗前和治疗后立即收集下肢近红外光谱图像。图像来自不同的解剖位置，包括足背和足底，腿内侧和外侧，以及伤口区域（如果存在）。结果结果显示，泡沫硬化治疗和RFA治疗后下肢平均StO2有统计学意义的增加，表明治疗后肢体微循环功能得到改善。下肢StO2的改善与血管检查结果一致，证实静脉消融或关闭成功。结论近红外成像可有效跟踪治疗相关变化，为实时评估StO2提供了一种无创、可靠的方法。通过观察微循环的变化，这项技术为临床医生提供了有价值的见解，能够更早地发现治疗的成功或失败，并促进及时的干预。因此，近红外成像有望成为临床实践中评估微创血管治疗疗效的宝贵工具。然而，样本量小限制了得出明确结论的能力。

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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JVS-vascular insights

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