Design and implementation of ratiometric fluorescence detection system for serum bilirubin_Journal of Biomedical Engineering

Authors：

 XIAO Wenxiang , ZHI Dongcan

School of Life and Environment Science, Guilin University of Electronic Technology, Guilin, Guangxi 541004, P. R. China;

Corresponding author：

XIAO Wenxiang, Email: wenxiangxiao@126.com

Keywords：

Ratiometric sensor; Bilirubin; Fluorescent film; Portable instrument

DOI：

10.7507/1001-5515.202107066

Video：

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The current quantitative methods of bilirubin have disadvantages such as high cost and low sensitivity. Due to the negative correlation between the level of serum bilirubin and the risk of cardiovascular diseases, a fluorescent ratiometric film sensor was developed aiming at bilirubin detection at low level concentration. Blue-emitting and red-emitting gold nanoclusters were assembled into the same film using layer-by-layer self-assembly technology. Detection of bilirubin was achieved based on the intensity ratio of the two nanoclusters. Bilirubin exposure causes fluorescent quenching of the film. The fluorescence intensity ratio of the two cluster probes had quantitative relationship versus bilirubin concentration. Based on this film sensor, a portable fluorescence detection system was designed for the ratiometric sensing of bilirubin. The hardware of the system was mainly composed of main control chip STM32F407, TSL237 and TSL238T optical frequency sensor. A light-avoiding dark room and detection light path were designed through three-dimensional printing to reduce the interference from ambient light and improve detection accuracy. Experimental results showed that the proposed detection system had strong anti-interference, good stability and accuracy. The linear coefficient of bilirubin detected by this system was 0.987. The system presented good results in reproducible experiments and possessed a good linear relationship with the data obtained by standard spectrofluorometer. The portable system is expected to detect serum bilirubin at low levels.

Citation： XIAO Wenxiang, ZHI Dongcan. Design and implementation of ratiometric fluorescence detection system for serum bilirubin. Journal of Biomedical Engineering, 2022, 39(4): 784-791. doi: 10.7507/1001-5515.202107066 Copy

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22.	张浩楠. 基于STM32F407无线视频传输的设计与实现. 电子技术与软件工程, 2019, 164(18): 111-112.
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27.	任克强, 王传强. 基于STM32F4的多通道串口驱动TFT液晶屏显示系统设计. 液晶与显示, 2020, 35(5): 449-455.
28.	郝浙吉. 孕激素检测仪荧光检测系统研究. 长春: 长春理工大学, 2020.
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30.	刘鑫. 荧光免疫层析分析仪的设计分析. 生命科学仪器, 2015, 13(3): 23-26.

1. 张平平, 柳艳萍. 2016-2018年天津市滨海新区心脑血管疾病监测结果分析. 社区医学杂志, 2020, 18(18): 1241-1244, 1249.
2. 中国疾病预防控制工作进展(2015年). 首都公共卫生, 2015, 9(3): 97-101.
3. 丁烨. 血清胆红素联合低密度脂蛋白胆固醇检验在冠心病早期诊断中的应用效果. 临床合理用药杂志, 2020, 13(27): 19-20, 24.
4. Kunutsor S K. Serum total bilirubin levels and coronary heart disease--causal association or epiphenomenon? Exp Gerontol, 2015, 72: 63-66.
5. 郭晓菲, 李保. 血清胆红素与冠心病关系研究进展. 临床医药实践, 2017, 26(4): 297-300.
6. 贾雯雯, 孙莹莹, 张禅那, 等. 血清总胆红素与出血性脑卒中发生及其预后的关系. 中国分子心脏病学杂志, 2020, 20(4): 3473-3476.
7. 吴妍, 张爱珍. 2型糖尿病患者血清胆红素与心血管病风险及颈动脉硬化的相关性分析. 健康研究, 2017, 37(6): 604-607.
8. 郭青玉, 宋雯婧, 许邵莹, 等. 2型糖尿病患者血清胆红素与心血管自主神经病变的相关性. 中华医学杂志, 2019, 99(40): 3132-3133.
9. Wang Jiancheng, Zhang Xianglin, Zhang Zhuxian, et al. Baseline serum bilirubin and risk of first stroke in hypertensive patients. J Am Heart Assoc, 2020, 9(12): e015799.
10. 黄世臣, 赵敏. 胆红素氧化酶的特性及应用研究综述. 延边大学农学学报, 2014, 36(1): 78-87.
11. Okada H, Kawada K, Itoh S, et al. Effects of bilirubin photoisomers on the measurement of direct bilirubin by the bilirubin oxidase method. Ann Clin Biochem, 2018, 55(2): 276-280.
12. 李建瑜, 李薇. HPLC检测新生儿血清游离未结合胆红素的方法学的建立. 国际医药卫生导报, 2019, 25(19): 3227-3231.
13. Alsaedi S. The accuracy of repeated use of bilical for transcutaneous bilirubin measurement in term newborns using bilicheck device. J Clin Neonatol, 2018, 7(4): 198-201.
14. 李孟轩, 殷婷, 肖尊宏, 等. 十元瓜环主客体比率型荧光探针对尼罗替尼的识别和检测. 分析化学, 2020, 48(12): 1681-1690.
15. Shanmugaraj K, John S A. Water-soluble MoS₂ quantum dots as effective fluorescence probe for the determination of bilirubin in human fluids. Spectrochim Acta A Mol Biomol Spectrosc, 2019, 215: 290-296.
16. 王绪美. 荧光纳米材料的合成制备、性质表征和应用研究. 长春: 吉林大学, 2012.
17. 任娟, 代雯乐, 付欣,等. 金团簇的荧光性质及其生物应用. 化学通报, 2011, 74(8): 683-687.
18. Lu Hongzhi, Xu Shoufang. Visualizing BPA by molecularly imprinted ratiometricfluorescence sensor based on dual emission nanoparticles. Biosens Bioelectron, 2017, 92: 147-153.
19. Xiao Wenxiang, Zhi Dongcan, Pan Qiaoni, et al. A ratiometric bilirubin sensor based on a fluorescent gold nanocluster film with dual emissions. Anal Methods, 2020, 12(47): 5691-5698.
20. Wang Zongqian, Wan Yingping, Zheng Xianhong, et al. Enhancing the radiative heating performance of down fibers by layer-by-layer self-assembly. J Clean Prod, 2021, 298: 126760.
21. Shaabani E, Sharifiaghdam M, De Keersmaecker H, et al. Layer by layer assembled chitosan-coated gold nanoparticles for enhanced siRNA delivery and silencing. Int J Mol Sci, 2021, 22(2): 831.
22. 张浩楠. 基于STM32F407无线视频传输的设计与实现. 电子技术与软件工程, 2019, 164(18): 111-112.
23. 周太明, 周详, 蔡伟新. 光源原理与设计第2版. 上海: 复旦大学出版社, 2016.
24. 肖泓. 免疫荧光检测仪的硬件设计与实现. 杭州: 杭州电子科技大学, 2014.
25. 曹明勤. 基于STM32的荧光分析仪的软件设计. 杭州: 杭州电子科技大学, 2014.
26. 樊平. 基于荧光光谱的高等植物光合作用实时检测技术研究. 上海: 中国科学院研究生院(上海技术物理研究所), 2016.
27. 任克强, 王传强. 基于STM32F4的多通道串口驱动TFT液晶屏显示系统设计. 液晶与显示, 2020, 35(5): 449-455.
28. 郝浙吉. 孕激素检测仪荧光检测系统研究. 长春: 长春理工大学, 2020.
29. 戴璇. 便携式免疫层析试纸条检测仪的设计与实现. 上海: 上海交通大学, 2014.
30. 刘鑫. 荧光免疫层析分析仪的设计分析. 生命科学仪器, 2015, 13(3): 23-26.

Journal of Biomedical Engineering

Design and implementation of ratiometric fluorescence detection system for serum bilirubin

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