红外神经刺激加热时间效应的建模。

Modeling of the temporal effects of heating 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. 2013 Mar;18(3):035004. doi: 10.1117/1.JBO.18.3.035004.

DOI:10.1117/1.JBO.18.3.035004

PMID:23471490

Abstract

A model of infrared neural stimulation (INS) has been developed to allow the temporal characteristics of different stimulation parameters and geometries to be better understood. The model uses a finite element approach to solve the heat equation and allow detailed analysis of heat during INS with both microsecond and millisecond laser pulses. When compared with experimental data, the model provides insight into the mechanisms behind INS. In particular, the analysis suggests that there may be two broad regimes of INS: the process tends to be limited by the total pulse energy for pulse lengths below 100 μs, while the temperature gradient with respect to time becomes more important above 100 μs.

摘要

已经开发出一种红外神经刺激 (INS) 模型，以更好地了解不同刺激参数和几何形状的时间特性。该模型使用有限元方法来求解热方程，并允许使用微秒和毫秒激光脉冲对 INS 期间的热进行详细分析。与实验数据相比，该模型提供了对 INS 背后机制的深入了解。特别是，分析表明 INS 可能存在两种广泛的模式：对于 100μs 以下的脉冲长度，该过程往往受总脉冲能量限制，而对于 100μs 以上的脉冲，相对于时间的温度梯度变得更加重要。

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红外神经刺激加热时间效应的建模。

Modeling of the temporal effects of heating during infrared neural stimulation.

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