A Unified Frequency Domain Model to Study the Effect of Demyelination on Axonal Conduction

机译：研究脱髓鞘对轴突传导影响的统一频域模型

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Multiple sclerosis is a disease caused by demyelination of nerve fibers. In order to determine the loss of signal with the percentage of demyelination, we need to develop models that can simulate this effect. Existing time-based models does not provide a method to determine the influences of demyelination based on simulation results. Our goal is to develop a system identification approach to generate a transfer function in the frequency domain. The idea is to create a unified modeling approach for neural action potential propagation along the length of an axon containing number of Nodes of Ranvier (N). A system identification approach has been used to identify a transfer function of the classical Hodgkin–Huxley equations for membrane voltage potential. Using this approach, we model cable properties and signal propagation along the length of the axon with N node myelination. MATLAB/Simulink platform is used to analyze an N node-myelinated neuronal axon. The ability to transfer function in the frequency domain will help reduce effort and will give a much more realistic feel when compared to the classical time-based approach. Once a transfer function is identified, the conduction as a cascade of each linear time invariant system-based transfer function can be modeled. Using this approach, future studies can model the loss of myelin in various parts of nervous system.

机译：多发性硬化症是由神经纤维脱髓鞘引起的疾病。为了确定具有脱髓鞘百分比的信号损失，我们需要开发可以模拟这种效应的模型。现有的基于时间的模型没有提供基于仿真结果确定脱髓鞘影响的方法。我们的目标是开发一种系统识别方法，以在频域中生成传递函数。这个想法是为神经动作电位沿着包含Ranvier（N）个节点的轴突的长度传播创建统一的建模方法。系统识别方法已被用来识别经典的霍奇金-赫克斯利方程的膜电压电位传递函数。使用这种方法，我们对具有N节点髓鞘化的电缆特性和沿着轴突长度的信号传播进行建模。 MATLAB / Simulink平台用于分析N节点有髓神经元轴突。与传统的基于时间的方法相比，在频域中传递函数的能力将有助于减少工作量，并提供更加逼真的感觉。一旦确定了传递函数，就可以对作为每个线性时不变系统传递函数的级联的传导进行建模。使用这种方法，未来的研究可以模拟神经系统各个部位髓磷脂的损失。

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期刊名称 Biomedical Engineering and Computational Biology
作者
Saurabh Chaubey; Shikha J. Goodwin;
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作者单位

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年(卷),期 2016(7),-1
年度 2016
页码 19–24
总页数 6
原文格式 PDF
正文语种
中图分类生物学;
关键词
axonal conduction myelination Node of Ranvier transfer function cascading system identification;

机译：轴突传导;髓鞘形成;Ranvier结;传递函数;级联;系统识别;

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专利

1. A Unified Frequency Domain Model to Study the Effect of Demyelination on Axonal Conduction: [J] . Saurabh Chaubey, Shikha J. Goodwin Biomedical Engineering and Computational Biology . 2016,第6期

机译：研究脱髓鞘对轴突传导的影响的统一频域模型：
2. Differential changes in axonal conduction following CNS demyelination in two mouse models. [J] . Bando Y, Takakusaki K, Ito S, The European Journal of Neuroscience . 2008,第9期

机译：在两个小鼠模型中，中枢神经系统脱髓鞘后，轴突传导的差异性变化。
3. Experimental validation of a frequency domain BEM model to study 2D and 3D heat transfer by conduction [J] . I. Simoes, N. Simoes, A. Tadeu, Engineering analysis with boundary elements . 2012,第11期

机译：频域BEM模型用于通过传导研究2D和3D传热的实验验证
4. Towards Unifying the Statistical Modeling of Charge Trapping in Time and Frequency Domain [C] . Gilson Wirth, Mauricio B. da Silva, Thiago H. Both Latin America Electron Devices Conference . 2021

机译：为了统一时间和频域的电荷捕获的统计建模
5. A generalized residuals model for the unified matrix polynomial approach to frequency domain modal parameter estimation. [D] . Fladung, William Austin. 2001

机译：用于频域模态参数估计的统一矩阵多项式方法的广义残差模型。
6. Focal axonal swellings and associated ultrastructural changes attenuate conduction velocity in central nervous system axons: a computer modeling study [O] . Katarina V Kolaric, Gemma Thomson, Julia M Edgar, 2013

机译：局灶性轴突肿胀及相关的超微结构改变减弱中枢神经系统轴突的传导速度：计算机模拟研究
7. A Unified Frequency Domain Model to Study the Effect of Demyelination on Axonal Conduction [O] . Saurabh Chaubey, Shikha J. Goodwin 2016

机译：统一频域模型研究脱髓鞘对轴突传导的影响

A Unified Frequency Domain Model to Study the Effect of Demyelination on Axonal Conduction

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