Single-compartment models of retinal ganglion cells with different electrophysiologies

Qin Wei; Hadjinicolaou Alex; Grayden David B.; Meffin Hamish; Burkitt Anthony N.; Ibbotson Michael R.; Kameneva Tatiana

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Single-compartment models of retinal ganglion cells with different electrophysiologies

机译：具有不同电生理特性的视网膜神经节细胞的单室模型

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There are more than 15 different types of retinal ganglion cells (RGCs) in the mammalian retina. To model responses of RGCs to electrical stimulation, we use single-compartment Hodgkin-Huxley-type models and run simulations in the Neuron environment. We use our recently published in vitro data of different morphological cell types to constrain the model, and study the effects of electrophysiology on the cell responses separately from the effects of morphology. We find simple models that can match the spike patterns of different types of RGCs. These models, with different input-output properties, may be used in a network to study retinal network dynamics and interactions.

机译：哺乳动物视网膜中有超过15种不同类型的视网膜神经节细胞（RGC）。为了建模RGC对电刺激的响应，我们使用了单隔室的Hodgkin-Huxley型模型，并在Neuron环境中进行了模拟。我们使用我们最近发表的不同形态细胞类型的体外数据来约束模型，并研究电生理学对细胞反应的影响以及形态学的影响。我们发现简单的模型可以匹配不同类型RGC的尖峰模式。这些具有不同输入输出属性的模型可以在网络中使用，以研究视网膜网络的动力学和相互作用。

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来源
《Network》 |2017年第4期|74-93|共20页
作者
Qin Wei; Hadjinicolaou Alex; Grayden David B.; Meffin Hamish; Burkitt Anthony N.; Ibbotson Michael R.; Kameneva Tatiana;
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作者单位

Univ Melbourne, Dept Biomed Engn, Melbourne, Vic, Australia;

Harvard Med Sch, Massachusetts Gen Hosp, Dept Neurol, Boston, MA USA;

Univ Melbourne, Dept Biomed Engn, Melbourne, Vic, Australia;

Australian Coll Optometry, Natl Vis Res Inst, Melbourne, Vic, Australia|Univ Melbourne, Dept Optometry & Vis Sci, Melbourne, Vic, Australia;

Univ Melbourne, Dept Biomed Engn, Melbourne, Vic, Australia;

Australian Coll Optometry, Natl Vis Res Inst, Melbourne, Vic, Australia|Univ Melbourne, Dept Optometry & Vis Sci, Melbourne, Vic, Australia;

Univ Melbourne, Dept Biomed Engn, Melbourne, Vic, Australia|Swinburne Univ Technol, Engn & Technol, Melbourne, Vic, Australia;

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原文格式 PDF
正文语种 eng
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关键词
Computational neuroscience; mathematical modelling; retinal ganglion cells;

机译：计算神经科学;数学建模;视网膜神经节细胞;

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专利

1. Changes in Electrophysiology & Retinal Ganglion Cell Number in a Magnetic Bead-injection Rat Model of Experimental Glaucoma [J] . Sauparnika Vijay, Annegret Dahlmann-Noor, Silke Becker, Investigative ophthalmology & visual science . 2012,第14期

机译：实验性青光眼磁珠注射大鼠模型中电生理和视网膜神经节细胞数量的变化
2. Allogeneic Transplantation of Muller-Derived Retinal Ganglion Cells Improves Retinal Function in a Feline Model of Ganglion Cell Depletion [J] . Becker Silke, Eastlake Karen, Jayaram Hari, Stem cells translational medicine. . 2016,第2期

机译：Muller衍生的视网膜神经节细胞的同种异体移植可改善猫神经节细胞耗尽模型中的视网膜功能。
3. Allogeneic Transplantation of Müller-Derived Retinal Ganglion Cells Improves Retinal Function in a Feline Model of Ganglion Cell Depletion [J] . Silke Becker, Karen Eastlake, Hari Jayaram, Stem cells translational medicine. . 2016,第2期

机译：Müller衍生的视网膜神经节细胞的同种异体移植改善了神经节细胞耗尽的猫科学模型中的视网膜功能
4. Retinal ganglion cells electrophysiology: The effect of cell morphology on impulse waveform [C] . Maturana, Matias I., Wong, Raymond, Cloherty, Shaun L., Annual Conference of Japanese Society for Medical and Biological Engineering;Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2013

机译：视网膜神经节细胞电生理：细胞形态对脉冲波形的影响
5. Modeling retinal microcircuits for ganglion cells of different size. [D] . Kier, Christian K. 1995

机译：为不同大小的神经节细胞建模视网膜微电路。
6. Allogeneic Transplantation of Müller-Derived Retinal Ganglion Cells Improves Retinal Function in a Feline Model of Ganglion Cell Depletion [O] . Silke Becker, Karen Eastlake, Hari Jayaram, 2016

机译：Müller源性视网膜神经节细胞的同种异体移植改善了猫神经节细胞耗尽模型中的视网膜功能。
7. Allogeneic Transplantation of Müller-Derived Retinal Ganglion Cells Improves Retinal Function in a Feline Model of Ganglion Cell Depletion [O] . Silke Becker, Karen Eastlake, Hari Jayaram, 2015

机译：Müller衍生的视网膜神经节细胞的同种异体移植改善了神经节细胞耗尽的猫科学模型中的视网膜功能

Single-compartment models of retinal ganglion cells with different electrophysiologies

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