电流刺激对游离神经元电活动的影响

Minori Tokuda, A. Kiyohara, Takahisa Taguch, S. Kudoh
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引用次数: 3

摘要

用64个微刨电极培养大鼠海马神经元。我们发现,在活动发生后立即出现持续1秒的沉默和再现期。此外,重复刺激在频率上抑制了自发发生的爆破活动。这些结果表明,电刺激可以触发神经元回路的不同内部状态,这些网络活动的动态可能有助于信息处理。在之前的研究中,我们开发了神经-机器人系统,其中神经元连接到机器人身体并与外部世界相互作用。通过利用一个活的神经网络的动力学,可以设计出,可以说,机器人,它的行为是根据神经网络记忆的传感器输入的历史。通过移动这样一个模型系统,我们正在验证神经网络中固有的动力学是否有助于生物的行动决定。
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The effects of the current stimulation on electrical activity in dissociated neurons
Rat hippocampal neurons were cultured on a dish with 64 micro planer electrodes. We found that the silent and reproducible period lasting for 1 sec immediately after the activity evoked in advance. In addition, the repetitive stimuli suppress the spontaneously occurring bursting activity in frequency. These results suggest that distinct internal state of the neuronal circuit was triggered by an electrical stimulation, and these dynamics of network activity may contribute to information processing. In previous study, we developed the neuro-robot system in which the neurons were connected to a robot body and interacted with external world. By utilizing the dynamics of a living neuronal network, it can be designed that, so to speak, the robot, which behaves according to the history of the sensor inputs which the neuronal network has memorized. We are verifying whether the dynamics intrinsic in a neural network can contribute to the action determination of a creature, by moving such a model system.
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