A CMOS circuit implementation of retrograde signaling in astrocyte-neuron networks

机译：Astroyte-Neuron网络中逆行信号的CMOS电路实现

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Astrocytes, a type of glial cell, have been shown to actively modulate neural activity in the central nervous system. One way in which astrocytes can be stimulated is through receptors of retrograde messengers that are located on the astrocyte processes. Retrograde messengers are released by a neuron's postsynaptic dendrite in response to neural activity, and retrograde signaling can potentiate heteroneuronal synapses by communicating through astrocytes. Retrograde messengers can also depress homoneuronal synapses by activating receptors on the presynaptic axon terminal. Here we present a CMOS neuro-morphic circuit that models the first-order effects of retrograde signaling between neurons and astrocytes and shows their use in self-repair of damaged neural circuits.

机译：已经显示出一类胶质细胞，一种神经胶质细胞在中枢神经系统中激活神经活性。可以刺激星形胶质细胞的一种方式是通过位于星形胶质细胞过程中的逆行信使的受体。逆行信使由神经元的突触后枝曲氏响应神经活动，并且逆行信号传导可以通过通过星形胶质细胞沟通来增强异丙瘤突触。逆行信使还可以通过激活突触前轴突终端上的受体来压制均匀突触。在这里，我们提出了一个CMOS神经形变电路，可以模拟逆行信号在神经元和星形胶质细胞之间的一级效应，并显示它们在损坏的神经电路的自修复中使用。

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《IEEE biomedical circuits and systems conference》|2016年|1 v.|共4页
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Rebecca K. Lee; Alice C. Parker;
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中图分类基本电子电路;
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Integrated circuit modeling; Calcium; Circuit faults; Axons; Neurotransmitters; Transistors;

机译：集成电路建模;钙;电路故障;轴突;神经递质;晶体管;

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专利

1. Circuit-specific signaling in astrocyte-neuron networks in basal ganglia pathways [J] . Martin R., Bajo-Graneras R., Moratalla R., Science . 2015,第6249期

机译：基底神经节通路中星形胶质细胞-神经元网络中的电路特异性信号传导
2. Low-power analog circuits for large-scale CMOS implementation of oscillatory neural networks [J] . Tetsuya Asai, Hiromu Kato, Yoshihito Amemiya 電子情報通信学会技術研究報告. ニュ-ロコンピュ-ティング. Neurocomputing . 2000,第687期

机译：用于大型CMOS实现振荡神经网络的低功耗模拟电路
3. Low-power analog circuits for large-scale CMOS implementation of oscillatory neural networks [J] . Tetsuya Asai, Hiromu Kato, Yoshihito Amemiya 電子情報通信学会技術研究報告. ニュ-ロコンピュ-ティング. Neurocomputing . 2000,第687期

机译：用于大型CMOS实现振荡神经网络的低功耗模拟电路
4. A CMOS circuit implementation of retrograde signaling in astrocyte-neuron networks [C] . Rebecca K. Lee, Alice C. Parker IEEE biomedical circuits and systems conference . 2016

机译：星形胶质细胞-神经元网络中逆行信号的CMOS电路实现
5. Design and Assembly of High-Temperature Signal Conditioning System on LTCC with Silicon Carbide CMOS Circuits [D] . Roy, Sajib. 2021

机译：用碳化硅CMOS电路LTCC高温信号调理系统的设计与组装
6. Self-repair in a bidirectionally coupled astrocyte-neuron (AN) system based on retrograde signaling [O] . John Wade, Liam McDaid, Jim Harkin, 2012

机译：基于逆向信号的双向耦合星形胶质细胞-神经元（AN）系统中的自我修复
7. Effective Interconnect Networks Design in CMOS 45 nm Circuits to Joint Reductions of XT and Delay for Transmission of Very High Speed Signals [O] . De Rivaz, Sébastien, Farcy, Alexis, Deschacht, Denis, 2010

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8. Thermal Radiometer Signal Processing Using Radiation Hard CMOS Application Specific Integrated Circuits for Use in Harsh Planetary Environments. [R] . Quilligan, G., DuMonthier, J., Aslam, S., 2015

机译：使用辐射硬CmOs专用集成电路的热辐射计信号处理用于恶劣的行星环境。

A CMOS circuit implementation of retrograde signaling in astrocyte-neuron networks

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