利用漫反射光谱成像估计的血红蛋白参数对大鼠皮肤组织的烧伤深度进行可视化。
visualization of burn depth in skin tissue of rats using hemoglobin parameters estimated by diffuse reflectance spectral imaging.
机构信息
Tokyo University of Agriculture and Technology, Graduate School of Bio-Applications and Systems Engineering, Tokyo, Japan.
Tokyo University of Agriculture and Technology, Department of Biomedical Engineering, Tokyo, Japan.
出版信息
J Biomed Opt. 2024 Feb;29(2):026003. doi: 10.1117/1.JBO.29.2.026003. Epub 2024 Feb 15.
SIGNIFICANCE
Burn injuries represent a global public health problem that kills an estimated 180,000 people annually. Non-fatal burns result in prolonged hospitalization, disfigurement, and disability. The most common, convenient, and widely used method for assessing burn depth is physical or visual examination, but the accuracy of this method is reportedly poor (60% to 75%). Rapid, correct assessment of burn depth is very important for the optimal management and treatment of burn patients. New methods of burn depth assessment that are inexpensive, simple, rapid, non-contact, and non-invasive are therefore needed.
AIM
The aim of this study was to propose an approach to visualize the spatial distribution of burn depth using hemoglobin parameters estimated from spectral diffuse reflectance imaging and to demonstrate the feasibility of the proposed approach for differentiating burn depth in a rat model of scald burn injury.
APPROACH
The new approach to creating a spatial map of burn depth was based on canonical discriminant analysis (CDA) of total hemoglobin concentration, tissue oxygen saturation, and methemoglobin saturation as estimated from spectral diffuse reflectance images. Burns of three different degrees of severity were created in rat dorsal skin by 10-s exposure to water maintained at 70°C, 78°C, and 98°C, respectively. Spectral images for dorsal regions were acquired under anesthesia immediately after burn injury and at 24 h, 48 h, and 72 h after injury.
RESULTS
Most areas of images in the group with skin exposed to 70°C water and 98°C water were classified as 70°C burn and 98°C burn, respectively. In contrast, no significant difference between areas classified as 78°C burn and 98°C burn from 24 h to 72 h was evident in the group with skin exposed to 78°C water, suggesting that burn depth was heterogeneous.
CONCLUSIONS
The proposed approach combining diffuse reflectance spectral imaging and CDA appears promising for differentiating 70°C burns from 78°C burns and 98°C burns, and 98°C burns from 70°C burns and 78°C burns at 24 to 72 h after burn injury in a rat model of scald burn injury.
意义
烧伤是一个全球性的公共卫生问题,每年估计有 18 万人因此死亡。非致命性烧伤会导致住院时间延长、毁容和残疾。最常见、最方便、应用最广泛的评估烧伤深度的方法是体格检查或肉眼观察,但据报道,这种方法的准确性较差(60%至 75%)。快速、准确地评估烧伤深度对烧伤患者的最佳治疗非常重要。因此,需要寻找廉价、简便、快速、非接触和非侵入性的新的烧伤深度评估方法。
目的
本研究旨在提出一种利用光谱漫反射成像估计的血红蛋白参数来可视化烧伤深度空间分布的方法,并证明该方法在大鼠烫伤烧伤模型中区分烧伤深度的可行性。
方法
创建烧伤深度空间图谱的新方法是基于总血红蛋白浓度、组织氧饱和度和高铁血红蛋白饱和度的典型判别分析(CDA),这些参数是从光谱漫反射图像中估计得到的。通过将大鼠背部皮肤暴露于 70°C、78°C 和 98°C 的水中 10 秒,分别在大鼠背部皮肤造成三种不同严重程度的烧伤。在烧伤后立即麻醉下采集背部区域的光谱图像,并在烧伤后 24 小时、48 小时和 72 小时采集图像。
结果
暴露于 70°C 水和 98°C 水的皮肤组的大多数图像区域分别被归类为 70°C 烧伤和 98°C 烧伤。相反,暴露于 78°C 水的皮肤组在 24 小时至 72 小时之间,78°C 烧伤和 98°C 烧伤之间的区域分类没有明显差异,表明烧伤深度不均匀。
结论
该方法结合漫反射光谱成像和 CDA,有望区分大鼠烫伤烧伤模型中 24 小时至 72 小时的 70°C 烧伤与 78°C 烧伤和 98°C 烧伤,以及 98°C 烧伤与 70°C 烧伤和 78°C 烧伤。
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