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基于光声光谱法的无创血糖检测原理研究 被引量:4

Study on the principle of noninvasive blood glucose measurement based on photo-acoustic spectroscopy method
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摘要 利用光声光谱法无创血糖检测原理,以葡萄糖粉末和葡萄糖水溶液为样品、用调制激光作为信号激发源进行试验研究。可得到各个调制频率对应的光声信号幅值,进而得到光声信号幅值大小和调制频率的关系,最终找到葡萄糖粉末对应的最佳调制频率。在最佳调制频率下,测试葡萄糖水溶液,得到声信号随葡萄糖浓度增加的变化关系。实验不但找到葡萄糖对应的最佳调制频率,而且得到光声信号随葡萄糖浓度增加的线性关系,验证了光声光谱法在无创血糖检测中的可行性,为光声光谱法应用于无创血糖检测提供了一定参考价值。 Based on photo-acoustic theory, the principle of none-invasive blood glucose measurement is reserched. The experiment is carried out with glucose powder and glucose solution as samples and with laser as signal stimulate source. The amplitude of each frequency of the acoustical signal is obtained through the experiment, in order to get the relationship between acoustical signal and modulation frequency, in this way to find the glucose powerrs optimum modulation frequency. The optimum frequency is then used to test different aqueous glucose solutions concentration and the corresponding amplitude of acoustical signal is obtained. The relationship between the change of acoustical signal along with the change of glucose concentration is found. The experiment finds out the optimum frequency of glucose, and gets the linear relationship between glucose great significance. The measurement of glucose photo-acoustic method in noninvasive blood solution and photo-acoustic signal, which is of solution concentration verifies the feasibility of glucose measurement. The result of this experiment provides a good reference for the application of the photo-acoustic theory in none- invasive blood glucose measurement.
作者 高丽丽 陶卫 赵辉
机构地区 上海交通大学电子信息与电气工程学院
出处 《光学仪器》 2012年第6期1-4,共4页 Optical Instruments
关键词 无创血糖检测 葡萄糖浓度 调制频率 光声光谱法 noninvasive blood glucose measurement glucoe concentration modulationfrequency photo-acoustic spectroscopy method
分类号 O657 [理学—分析化学]
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参考文献12

  • 1陈文亮,徐可欣,杜振辉,刘蓉,范世福.人体无创血糖检测技术[J].仪器仪表学报,2003,24(z1):258-261. 被引量:18
  • 2李枝萍,刘军,徐婷婷,张知文,肖建,肖金全.我国2型糖尿病的流行病学及危险因素研究现状[J].西南军医,2010,12(4):754-756. 被引量:130
  • 3李明菊,沙宪政,王秀章.无创性血糖的光谱检测及临床研究状况[J].国外医学(生物医学工程分册),2000,23(5):291-299. 被引量:17
  • 4凌明胜,钱志余.人体血糖光学无损检测实用技术研究[D].南京:南京航空航天大学,2000:46.
  • 5张清悦,冯继宏.无创血糖检测研究进展概述[D].北京:北京工业大学生物医学工程中心,2006;1.
  • 6DUNCAN A, HANNIGAN J, FREEBORN S S, et al. A portable non-invasive blood glucose monitor[C] // TRANSDUCERS' 95. EUROSENSORS IX. Heriot-Watt University. Edinburgh, 1995:456.
  • 7王桂芬,马根源,陈国平,徐正德,张光寅.光声室低频特性的研究[J].中国激光,1992,19(6):419-425. 被引量:1
  • 8ROSENCWAIGA.光声学和光声谱学[M].王耀俊等译.北京:科学出版社,1986:115.
  • 9ZHAO Z M. Pulsed photoacoustic techniques and glucose determination in human blood and tissue[D]. University of Oulu, Oulu of Finland, 2002 :30.
  • 10HUGH A M, HELEN S A, STEPHEN S,et al. Advances in photoacoustic noninvasive glucose testing[J]. Clinical Chemistry, 1999 45(9) :1587-1595.

二级参考文献52

  • 1苏庆德,杨跃涛,张靖,赵贵文.MTEC 100型光声池在FTIR-PAS中的应用[J].分析仪器,1996(2):61-64. 被引量:2
  • 2明长江,刘耀田,陈传文,王文韵.差动式光声检测及其应用[J].激光杂志,1984,5(1):31-35. 被引量:1
  • 3全国糖尿病研究协作组调查研究组.全国14省市30万人口中糖尿病调查报告[J].中华内科杂志,1981,20(11):678-678.
  • 4[1]D. Someya, Y. Nikawa M. Yamamoto. measurement of Blood Sugar Level Using Millimeter Waves. Korea-Japan Microwave Workshop(KJMW2000)Proceeding, Korea, 2000, 32~35.
  • 5[2]Y. Nikawa, D. Someya. Application of Millimeter Wave to Measure Blood Sugar Level. Proceeding of APMC2001, Taibei, Taiwan, 2001, 1303~1306.
  • 6[3]Cameron B D, Gorde H, Cote G L. Development of an optical polarimeter for in vivo glucose monitoring. Proceedings of SPIE, 1999,3599:43~49.
  • 7[4]Cameron B D, Cote G L. Polarimetric detection of chiral chemicals in biological fluids. Proceedings of SPIE, 1997,2982:308~313.
  • 8[5]Duncan Arlene, Hannigan John, Freeborn Scott S, et al.. Portable non-invasive blood glucose monitor. International Conference on Solid-State Sensors and Actuators, and Eurosensors IX,Proceedings 2,1995,455~458.
  • 9[6]Zhao Z M, Myllyla R. Photoacoustic determination of glucose concentration in whole blood by a near-infrared laser diode. Proceedings of SPIE,2001,4256:77~83.
  • 10[7]Zhao Z M, Myllyl R. The effect of optical scattering on pulsed photoacoustic measurement in weakly absorbing liquid, Measurement Science and Technology,2001,12:2172~2177.

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光学仪器
2012年 第6期

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