Evaluation of the variable depth resolution of active dynamic thermography on human skin

Biophotonics South America Pub Date : 2015-06-19 DOI:10.1117/12.2180807

N. Prindeze, H. Hoffman, B. Carney, L. Moffatt, M. Loew, J. Shupp

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引用次数: 1

Abstract

Active dynamic thermography (ADT) is an imaging technique capable of characterizing the non-homogenous thermal conductance of damaged tissues. The purpose of this study was to determine optimal stimulation parameters and quantify the optical resolution of ADT through various depths of human skin. Excised tissue from plastic surgery operations was collected immediately following excision. A total of 12 thin to thick split-thickness grafts were harvested from 3 patients. Grafts were placed on top of a 3D printed resolution chart and thermal stimulation was applied from a 300W halogen lamp array for between 0.5-10 seconds to determine optimal parameters. Video was captured with a thermal camera, and analysis was performed by reconstructing an image from thermal gradients. In this study ADT resolved 0.445±0 lp/mm at a depth of 0.010”, 0.356±0.048 lp/mm at a depth of 0.015”, 0.334±0.027 lp/mm at a depth of 0.020” and 0.265±0.022 lp/mm at a depth of 0.025”. The stimulus energy required for maximum resolution at each depth was 3- 4s, 8s, 12s and 12s respectively. ADT is a sensitive technique for imaging dermal structure, capable of resolving detail as fine as 1124 μm, 1427 μm, 1502 μm and 1893 μm in thin to thick split-thickness skin grafts respectively. This study has characterized a correlation between stimulus input and maximal resolution at differing depths of skin. It has also defined the functional imaging depth of ADT to below the sub-cutis, well below conventional spectrophotometric techniques.

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人体皮肤主动动态热成像变深度分辨率的评价

主动动态热成像(ADT)是一种成像技术，能够表征受损组织的非均匀热导。本研究的目的是确定最佳刺激参数，并量化ADT通过人体皮肤不同深度的光学分辨率。从整形手术中切除的组织在切除后立即收集。从3例患者中共采集了12个薄到厚的裂厚移植物。接枝放置在3D打印的分辨率图上，用300W卤素灯阵列进行0.5-10秒的热刺激，以确定最佳参数。用热像仪捕获视频，并通过热梯度重建图像进行分析。在本研究中，ADT在深度为0.010 "时的分辨率为0.445±0 lp/mm，在深度为0.015 "时的分辨率为0.356±0.048 lp/mm，在深度为0.020 "时的分辨率为0.334±0.027 lp/mm，在深度为0.025 "时的分辨率为0.265±0.022 lp/mm。各深度最大分辨率所需的刺激能量分别为3- 4s、8s、12s和12s。ADT是一种灵敏的真皮结构成像技术，能够分辨出细至1124 μm、1427 μm、1502 μm和1893 μm的薄至厚分块皮肤移植物的细节。本研究描述了刺激输入与不同皮肤深度的最大分辨率之间的相关性。它还定义了ADT的功能成像深度低于皮下，远低于传统的分光光度法技术。

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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Biophotonics South America

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