Improvement of clinical wound microcirculation diagnosis using an object tracking-based laser speckle contrast imaging system.

IF 6.6 3区 医学 Q1 ENGINEERING, BIOMEDICAL APL Bioengineering Pub Date : 2024-01-29 eCollection Date: 2024-03-01 DOI:10.1063/5.0172443
Meng-Che Hsieh, Chia-Yu Chang, Ching-Han Hsu, Yan-Ren Lin, Pei-You Hsieh, Congo Tak-Shing Ching, Lun-De Liao
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Abstract

Wound monitoring is crucial for effective healing, as nonhealing wounds can lead to tissue ulceration and necrosis. Evaluating wound recovery involves observing changes in angiogenesis. Laser speckle contrast imaging (LSCI) is vital for wound assessment due to its rapid imaging, high resolution, wide coverage, and noncontact properties. When using LSCI equipment, regions of interest (ROIs) must be delineated in lesion areas in images for quantitative analysis. However, patients with serious wounds cannot maintain constant postures because the affected areas are often associated with discomfort and pain. This leads to deviations between the drawn ROI and actual wound position when using LSCI for wound assessment, affecting the reliability of relevant assessments. To address these issues, we used the channel and spatial reliability tracker object tracking algorithm to develop an automatic ROI tracking function for LSCI systems. This algorithm is used to track and correct artificial movements in blood flow images, address the ROI position offset caused by the movement of the affected body part, increase the blood flow analysis accuracy, and improve the clinical applicability of LSCI systems. ROI tracking experiments were performed by simulating wounds, and the results showed that the intraclass correlation coefficient (ICC) ranged from 0.134 to 0.976. Furthermore, the object within the ROI affected tracking performance. Clinical assessments across wound types showed ICCs ranging from 0.798 to 0.917 for acute wounds and 0.628-0.849 for chronic wounds. We also discuss factors affecting tracking performance and propose strategies to enhance implementation effectiveness.

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利用基于物体跟踪的激光斑点对比成像系统改进临床伤口微循环诊断。
伤口监测对于有效愈合至关重要,因为伤口不愈合会导致组织溃烂和坏死。评估伤口恢复情况需要观察血管生成的变化。激光斑点对比成像(LSCI)具有成像速度快、分辨率高、覆盖范围广和非接触等特点,对伤口评估至关重要。使用 LSCI 设备时,必须在图像中的病变区域划定感兴趣区(ROI),以便进行定量分析。然而,有严重伤口的患者无法保持恒定的姿势,因为患处经常伴有不适和疼痛。这就导致在使用 LSCI 评估伤口时,绘制的 ROI 与实际伤口位置存在偏差,影响了相关评估的可靠性。为了解决这些问题,我们使用通道和空间可靠性跟踪器对象跟踪算法,为 LSCI 系统开发了自动 ROI 跟踪功能。该算法用于跟踪和纠正血流图像中的人为移动,解决受影响身体部位移动造成的 ROI 位置偏移,提高血流分析的准确性,改善 LSCI 系统的临床适用性。通过模拟伤口进行了 ROI 追踪实验,结果表明类内相关系数 (ICC) 在 0.134 到 0.976 之间。此外,ROI 内的物体也会影响追踪性能。不同类型伤口的临床评估结果显示,急性伤口的类内相关系数为 0.798 至 0.917,慢性伤口的类内相关系数为 0.628 至 0.849。我们还讨论了影响追踪性能的因素,并提出了提高实施效果的策略。
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
APL Bioengineering
APL Bioengineering ENGINEERING, BIOMEDICAL-
CiteScore
9.30
自引率
6.70%
发文量
39
审稿时长
19 weeks
期刊介绍: APL Bioengineering is devoted to research at the intersection of biology, physics, and engineering. The journal publishes high-impact manuscripts specific to the understanding and advancement of physics and engineering of biological systems. APL Bioengineering is the new home for the bioengineering and biomedical research communities. APL Bioengineering publishes original research articles, reviews, and perspectives. Topical coverage includes: -Biofabrication and Bioprinting -Biomedical Materials, Sensors, and Imaging -Engineered Living Systems -Cell and Tissue Engineering -Regenerative Medicine -Molecular, Cell, and Tissue Biomechanics -Systems Biology and Computational Biology
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