红外神经刺激过程中组织内光吸收的建模。

Modeling of light absorption in tissue during infrared neural stimulation.

机构信息

Swinburne University of Technology, Faculty of Engineering and Industrial Sciences, PO Box 218, Hawthorn, 3122, Australia.

出版信息

J Biomed Opt. 2012 Jul;17(7):075002. doi: 10.1117/1.JBO.17.7.075002.

DOI:10.1117/1.JBO.17.7.075002

PMID:22894474

Abstract

A Monte Carlo model has been developed to simulate light transport and absorption in neural tissue during infrared neural stimulation (INS). A range of fiber core sizes and numerical apertures are compared illustrating the advantages of using simulations when designing a light delivery system. A range of wavelengths, commonly used for INS, are also compared for stimulation of nerves in the cochlea, in terms of both the energy absorbed and the change in temperature due to a laser pulse. Modeling suggests that a fiber with core diameter of 200 μm and NA=0.22 is optimal for optical stimulation in the geometry used and that temperature rises in the spiral ganglion neurons are as low as 0.1°C. The results show a need for more careful experimentation to allow different proposed mechanisms of INS to be distinguished.

摘要

已经开发出一种蒙特卡罗模型来模拟在红外神经刺激（INS）过程中神经组织中的光传输和吸收。比较了一系列光纤芯径和数值孔径，说明了在设计光传输系统时使用模拟的优势。还比较了 INS 常用的一系列波长，就激光脉冲引起的能量吸收和温度变化而言，刺激耳蜗中的神经。建模表明，对于所使用的几何形状的光刺激，芯径为 200μm、数值孔径为 0.22 的光纤是最佳的，并且螺旋神经节神经元的温升低至 0.1°C。结果表明需要更仔细的实验来区分 INS 的不同提出的机制。

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红外神经刺激过程中组织内光吸收的建模。

Modeling of light absorption in tissue during infrared neural stimulation.

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