Imaging photoplethysmography for evaluation of cutaneous sensory nerve fiber function

Biophotonics-Riga Pub Date : 2020-10-28 DOI:10.1117/12.2581705

Z. Marcinkevics, A. Aglinska, U. Rubins, A. Mikale, A. Grabovskis

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引用次数: 1

Abstract

Peripheral neuropathy refers to peripheral nervous system dysfunction which affects up to 2% of the world's population. This condition is caused by damage to the small nerve fibers, hence its assessment is still challenging due to the lack of simple, non-invasive and objective diagnostic techniques. The present study aimed to develop and evaluate a simple, objective and non-invasive technique for assessment of small cutaneous sensory nerve fiber function. Our approach is based on utilization of imaging photoplethysmography and local skin heating. The effectiveness of the method was evaluated on young, healthy volunteers (n = 14) after 10 minutes of 45-degree local skin heating, while recording a photoplethysmographic signal simultaneously from the intact (control) and anesthetized skin (topical application of Emla gel) regions. In the anesthetized skin region, the local heating evoked flare area was 44% lower than that of intact skin. A similar trend was observed for the perfusion curve- perfusion peak in the anesthetized skin was substantially reduced in comparison to intact. The results indicate for the potential of the imaging photoplethysmography in the assessment of the small nerve fiber function. It is believed that this technique could be utilized in the clinics in the future to examine neuropathy patients and diagnose neuropathy.

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成像光体积脉搏图评价皮肤感觉神经纤维功能

周围神经病变是指影响全球2%人口的周围神经系统功能障碍。这种情况是由小神经纤维损伤引起的，因此由于缺乏简单，非侵入性和客观的诊断技术，其评估仍然具有挑战性。本研究旨在发展和评估一种简单、客观、无创的小皮感觉神经纤维功能评估技术。我们的方法是基于成像光容积脉搏图和局部皮肤加热的利用。在年轻健康志愿者(n = 14)身上，经过10分钟的45度局部皮肤加热，同时记录完好(对照组)和麻醉(局部应用Emla凝胶)皮肤区域的光体积脉搏波信号，评估该方法的有效性。在麻醉皮肤区域，局部发热诱发耀斑面积比完整皮肤区域低44%。在灌注曲线上也观察到类似的趋势——麻醉皮肤的灌注峰值与完整皮肤相比显著降低。结果提示成像光体积脉搏波在评估小神经纤维功能方面的潜力。相信该技术可用于临床对神经病变患者的检查和诊断。

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Biophotonics-Riga

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