发光二极管光源疗法在生物医学中的应用

崔鸿忠; 李正佳; 范晓红

发光二极管光源疗法在生物医学中的应用

1.
华中科技大学, 激光技术与工程研究院, 激光医疗实验室, 武汉, 430074

作者简介: 崔鸿忠(1981- ),男,硕士研究生,现从事激光医学、光机电一体化方面的研究工作..

通讯作者: 李正佳, zhjl@imail.hust.edu.cn ;

中图分类号: R318.51

The development of light emitting diode therapy in biology and medicine

1.
Laser Medical Laboratory, Institute of Laser Technology and Engineering, Huazhong University of Science and Technology, Wuhan 430074, China

Corresponding author: LI Zheng-jia, zhjl@imail.hust.edu.cn ;

CLC number: R318.51

摘要: 综述了国内外以发光二极管为光源的光疗法在生物医学中的应用研究,主要从动物体试验,动物细胞实验和医学临床进行了分析,对医学临床进行了重点的分析研究。并从安全性、经济性、使用性等多方面比较分析了发光二极管光源疗法与其它光源疗法的优缺点。发光二极管光源疗法将在生物医学领域有广阔的应用,在产品商业化上也会有较大的发展。
- 医用光学与生物技术 /
- 发光二极管光源疗法 /
- 发光二极管 /
- 临床 /
- 光动力治疗 /
- 生物刺激效应 /
- 动物
Abstract: The application of light emitting diode(LED) therapy in biology and medicine is summarized,which focuses on the experiments in animal model,animal cells and clinical research.The advantages and disadvantages of LED therapy are compared with those of the other light sources in the view of safety,reliability and low cast.It can be sure that LED therapy must have a wide foreground in biology,medicine and commercial products.
- medical optics and biotechnology /
- light emitting diode therapy /
- light emitting diode /
- clinical /
- photodynamic therapy /
- biostimulation /
- animal

[1]	KARU T I,PYATIBRAT L V,KALENDO G S.Cell attachment modulation by radiation from a fulsed light(λ=820 nm)and various chemicals[J].Lasers in Surgery and Medicine,2001,B28(9):227～236.
[2]	STEVE Y,PETER B,DYSON M.Macrophage responsiveness to light therapy[J].Lasers in Surgery and Medicine,1989,31 (3):497～505.
[3]	WHELAN H T,SMITI R L,BUCHMAN E V et al.Effect of NASA light-emitting diode irradiation on wound healing[J].Journal of Clinical Laser Medicine and Surgery,2001,19(6):305～341.
[4]	WHELAN H T,BUCHMANN E V,WHELAN N T et al.NASA light emitting diode medical applications from deep space to deep sea[A].Space Technology and Applications International Forum[C].Melville,New York:American Institute of Physics,2001.35～45.
[5]	WHELAN H T,SCHMIDT M H,SEGURA A D et al.The role of photodynamic therapy in posterior fossa brain tumors:a pre-clinical study in a canine glioma model[J].Journal of Neurosurgery,1993,79(4):562～568.
[6]	WHELAN H T,MARGARET T T,RILEY W et al.DARPA soldier self care:rapid healing of laser eye injuries with light emitting diode technology[A].RTO HFM Symposium[C].Northern Mariana Islands:Trauma Technology and Emergency Medical Procedures,2004.19～37.
[7]	WHELAN H T,HOULE J M,DONOHOE D L et al.Medical applications of space light-emitting diode technology-space station and beyond[A].Space Technology and Applictions International Forum[C].Melville,Yew York:American institute of Physics,1999.3～15.
[8]	LI Y,LIU T C Y,DUAN R et al.Effects of some anesthetics on wound healing:laser biomodulation mechanism[J].Lasers in Surgery and Medicine,2001,S13(7):7～15.
[9]	DUAN R,ZHU L,LIU T C Y et al.Light emitting diode irradiation protect against the amyloid beta 25-35 iduced apoptosis of PC12 cell in vitro[J].Lasers in Surgery and Medicine,2003,33 (3):199～203.
[10]	VREMAN H J,STEVENSON D K.Devices for treating circadian rhythm disorders using LED's[P].U S Patent:6350275,2002-09-15.
[11]	FRENKEL R E,FRENKEL B G.Quantifying stress reduction and medical treatment as a result of colored light therapies[P].U S Patent:6007569,1999-07-13.
[12]	VREMAN H J,SEIDMAN D S,STEVENSON D K.Phototherapy of jaundiced newborns using garments containing semiconductor lightemitting devices[P].U S Patent:6596016,2003-06-22.
[13]	ZHANG Ch M,WANG J,DU L Zh.Blue light source in phototherapy[J].Journal of Zhejiang University(Medical Sciences),2002,31 (3):222～224(in Chinese)
[14]	SCHLAGER K J.Immunophototherapy for the treatment of cancer of the larynx[J].SPIE,1993,1891:148～159.
[15]	XU Ch Sh,LEUNG W N.Study of hypericin-mediated photodynamic therapy on human nasopharyngeal carcinoma cell[J].Laser Technology,2005,29(4):395～397 (in Chinese).
[16]	MESTER E,SPIRY T,SZENDE B et al.Effect of laser rays on wound healing[J].The American Journal of Surgery,1971,22(8):532～535.
[17]	SCHMIDT M H,BAJIC D M,REICHERT K W et al.Light-emitting diodes as a light source for intra-operative photodynamic therapy[J].Neurosurgery,1996,38 (3):552～556.
[18]	FRANKA S,STEPHEN H A,KLAUS D J et al.Light-emitting diode (LED) polymerisation of dental composites:flexural properties and polymerisation potential[J].Biomaterials,2000,21 (5):1379～1385.
[19]	PERRICONE N V.Skin treatments using blue and violet light[P].U S Patent:20030009158A1,2003-07-22.
[20]	ELLA S.System and method for facial treatment[P].U S Patent:20030032900A1,2003-02-02.
[21]	ROBERT A W,DAVID H M,ROY G G et al.Clinical trial of novel non-thermal LED array for reversal of photoaging:clinical,histologic,and surface profilometric results[J].Lasers in Surgery and Medicine,2005,36(7):85～91.
[22]	STREETER J.Low level light therapy for the treatment of myocardial infarction[P].U S Patent:20030212442A1,2003-05-23.
[23]	STREETER J.Low level light therapy for the treatment of stroke[P].U S Patent:20030109906A1,2003-03-11.
[24]	SCHLAGER K J,LGNATIUS R W.An LED-array light source for medical therapy[J].SPIE,1994,2131:341～353.
[25]	LIU J,LIU T C Y.The applications and prospects of light emitting diodes in biology and medicine[J].Laser Journal,2002,23 (6):1～4(in Chinese).
[26]	LIU J,LIU T C Y,FAN G H.The light emitting diode (LED) instrument of low intensity irradiation of cellor tissue culture[J].Laser Journal,2003,24(4):78～80(in Chinese).
[27]	LIU J,FAN G H,LIU T C Y et al.The light emitting diode(LED) instrument of high intensity irradiation of cellor tissue culture[J].Acta Laser Biology Sinica,2003,12(4):308～314(in Chinese).

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[12]	于祖兰译 , 巩马理校 . 光纤发光二极管. 激光技术, 1992, 16(5): 320-320.
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[17]	马东阁 , 石家纬 . 超辐射发光二极管的结构特性及其应用. 激光技术, 1994, 18(4): 214-219.
[18]	蒋锐 , 叶大华 . 利用纳米粒子设计硅基发光二极管. 激光技术, 2003, 27(4): 361-361.
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发光二极管光源疗法在生物医学中的应用

作者简介: 崔鸿忠(1981- ),男,硕士研究生,现从事激光医学、光机电一体化方面的研究工作..

通讯作者: 李正佳, zhjl@imail.hust.edu.cn ;

The development of light emitting diode therapy in biology and medicine

Corresponding author: LI Zheng-jia, zhjl@imail.hust.edu.cn ;

计量

发光二极管光源疗法在生物医学中的应用

通讯作者: 李正佳, zhjl@imail.hust.edu.cn;

作者简介: 崔鸿忠(1981- ),男,硕士研究生,现从事激光医学、光机电一体化方面的研究工作.

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The development of light emitting diode therapy in biology and medicine

Corresponding author: LI Zheng-jia, zhjl@imail.hust.edu.cn

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留言板

发光二极管光源疗法在生物医学中的应用

作者简介: 崔鸿忠(1981- ),男,硕士研究生,现从事激光医学、光机电一体化方面的研究工作..

通讯作者: 李正佳, zhjl@imail.hust.edu.cn ;

The development of light emitting diode therapy in biology and medicine

Corresponding author: LI Zheng-jia, zhjl@imail.hust.edu.cn ;

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出版历程

发光二极管光源疗法在生物医学中的应用

通讯作者: 李正佳, zhjl@imail.hust.edu.cn;

作者简介: 崔鸿忠(1981- ),男,硕士研究生,现从事激光医学、光机电一体化方面的研究工作.

English Abstract

The development of light emitting diode therapy in biology and medicine

Corresponding author: LI Zheng-jia, zhjl@imail.hust.edu.cn

全文HTML

目录