Wearable laser Doppler flowmetry for non-invasive assessment of diabetic foot microcirculation: methodological considerations and clinical implications.

IF 3 3区医学 Q2 BIOCHEMICAL RESEARCH METHODS Journal of Biomedical Optics Pub Date : 2024-06-01 Epub Date: 2024-05-11 DOI:10.1117/1.JBO.29.6.065001

Xing-Xi Hu, Xiao-Man Xing, Zhen-Ming Zhang, Chao Zhang, Li Chen, Jia-Zhang Huang, Xu Wang, Xin Ma, Xiang Geng

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Abstract

Significance: Type 2 diabetes mellitus (T2DM) is a global health concern with significant implications for vascular health. The current evaluation methods cannot achieve effective, portable, and quantitative evaluation of foot microcirculation.

Aim: We aim to use a wearable device laser Doppler flowmetry (LDF) to evaluate the foot microcirculation of T2DM patients at rest.

Approach: Eleven T2DM patients and twelve healthy subjects participated in this study. The wearable LDF was used to measure the blood flows (BFs) for regions of the first metatarsal head (M1), fifth metatarsal head (M5), heel, and dorsal foot. Typical wavelet analysis was used to decompose the five individual control mechanisms: endothelial, neurogenic, myogenic, respiratory, and heart components. The mean BF and sample entropy (SE) were calculated, and the differences between diabetic patients and healthy adults and among the four regions were compared.

Results: Diabetic patients showed significantly reduced mean BF in the neurogenic ( $p = 0.044$ ) and heart ( $p = 0.001$ ) components at the M1 and M5 regions ( $p = 0.025$ ) compared with healthy adults. Diabetic patients had significantly lower SE in the neurogenic ( $p = 0.049$ ) and myogenic ( $p = 0.032$ ) components at the M1 region, as well as in the endothelial ( $p < 0.001$ ) component at the M5 region and in the myogenic component at the dorsal foot ( $p = 0.007$ ), compared with healthy adults. The SE in the myogenic component at the dorsal foot was lower than at the M5 region ( $p = 0.050$ ) and heel area ( $p = 0.041$ ). Similarly, the SE in the heart component at the dorsal foot was lower than at the M5 region ( $p = 0.017$ ) and heel area ( $p = 0.028$ ) in diabetic patients.

Conclusions: This study indicated the potential of using the novel wearable LDF device for tracking vascular complications and implementing targeted interventions in T2DM patients.

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用于糖尿病足微循环无创评估的可穿戴激光多普勒血流测量仪：方法学考虑因素和临床意义。

意义重大：2 型糖尿病（T2DM）是全球关注的健康问题，对血管健康有重大影响。目前的评估方法无法实现对足部微循环的有效、便携和定量评估。目的：我们旨在使用可穿戴设备激光多普勒血流测量仪（LDF）评估 T2DM 患者静息状态下的足部微循环：方法：11 名 T2DM 患者和 12 名健康受试者参与了这项研究。可穿戴式 LDF 用于测量第一跖骨头（M1）、第五跖骨头（M5）、足跟和足背区域的血流量（BFs）。典型的小波分析用于分解五个单独的控制机制：内皮、神经、肌源、呼吸和心脏成分。计算了平均血压和样本熵（SE），并比较了糖尿病患者和健康成人之间以及四个区域之间的差异：结果：与健康成人相比，糖尿病患者在 M1 和 M5 区域的神经源成分（p=0.044）和心脏成分（p=0.001）的平均 BF 明显降低（p=0.025）。与健康成人相比，糖尿病患者在 M1 区域的神经源成分（p=0.049）和肌源成分（p=0.032）以及 M5 区域的内皮成分（p0.001）和足背肌源成分（p=0.007）中的 SE 明显较低。足背肌源性成分的 SE 低于 M5 区（p=0.050）和足跟区（p=0.041）。同样，糖尿病患者足背心脏成分的 SE 低于 M5 区域（p=0.017）和足跟区域（p=0.028）：这项研究表明，使用新型可穿戴 LDF 设备跟踪 T2DM 患者的血管并发症并实施有针对性的干预措施具有潜力。

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

Journal of Biomedical Optics 医学-光学

CiteScore

6.40

自引率

5.70%

发文量

263

审稿时长

2 months

期刊介绍： The Journal of Biomedical Optics publishes peer-reviewed papers on the use of modern optical technology for improved health care and biomedical research.