Spectral analysis with highly collimated mini-LEDs as light sources for quantitative detection of direct bilirubin.

0 MATERIALS SCIENCE, MULTIDISCIPLINARY
Zhi Ting Ye, Shen Fu Tseng, Shang Xuan Tsou, Chun Wei Tsai
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引用次数: 0

Abstract

Because the human eye cannot visually detect the results of direct bilirubin test papers accurately and quantitatively, this study proposes four different highly collimated mini light-emitting diodes (HC mini-LEDs) as light sources for detection. First, different concentrations of bilirubin were oxidized to biliverdin by FeCl3 on the test paper, and pictures were obtained with a smartphone. Next, the red, green, and blue (RGB) channels of the pictures were separated to average grayscale values, and their linear relationship with the direct bilirubin concentration was analyzed to detect bilirubin on the test paper noninvasively and quantitatively. The experimental results showed that when green HC mini-LEDs were used as the light sources and image analysis was performed using the G channel, for a direct bilirubin concentration range of 0.1-2 mg/dL, the G channel determination coefficient (R2) reached 0.9523 and limit of detection was 0.459 mg/dL. The detection method proposed herein has advantages such as rapid analysis, noninvasive detection, and digitization according to RGB grayscale changes in the images of the detection test paper.

利用高度准直的微型 LED 作为光源进行光谱分析,定量检测直接胆红素。
由于人眼无法直观地准确定量检测直接胆红素试纸的结果,本研究提出了四种不同的高准直微型发光二极管(HC mini-LED)作为检测光源。首先,在试纸上用氯化铁将不同浓度的胆红素氧化成胆绿素,并用智能手机获取图片。然后,将图片的红、绿、蓝(RGB)通道分离成平均灰度值,分析其与直接胆红素浓度的线性关系,从而无创、定量地检测试纸上的胆红素。实验结果表明,当使用绿色 HC 微型 LED 作为光源并使用 G 通道进行图像分析时,在直接胆红素浓度为 0.1-2 mg/dL 的范围内,G 通道测定系数(R2)达到 0.9523,检测限为 0.459 mg/dL。本文提出的检测方法具有快速分析、无创检测、根据检测试纸图像的 RGB 灰度变化进行数字化等优点。
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
CiteScore
0.70
自引率
0.00%
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