TAMURA Manabu
Department Research Institutes and Facilities, Research Institutes and Facilities Position Associate Professor |
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Article types | Original article |
Language | English |
Peer review | Non peer reviewed |
Title | Corticomotoneuronal Model for Intraoperative Neurophysiological Monitoring During Direct Brain Stimulation |
Journal | Formal name:International journal of neural systems Abbreviation:Int J Neural Syst ISSN code:01290657 (Print)01290657 |
Domestic / Foregin | Foregin |
Volume, Issue, Page | 29(1),pp.1850026 |
Author and coauthor | GOMEZ-TAMES Jose†, HIRATA Akimasa, TAMURA Manabu, MURAGAKI Yoshihiro |
Publication date | 2019/02 |
Summary | Intraoperative neurophysiological monitoring during brain surgery uses direct cortical stimulation to map the motor cortex by recording muscle activity induced by the excitation of alpha motor neurons (MNs). Computational models have been used to understand local brain stimulation. However, a computational model revealing the stimulation process from the cortex to MNs has not yet been proposed. Thus, the aim of the current study was to develop a corticomotoneuronal (CMN) model to investigate intraoperative stimulation during surgery. The CMN combined the following three processes into one system for the first time: (1) induction of an electric field in the brain based on a volume conductor model; (2) activation of pyramidal neuron (PNs) with a compartment model; and (3) formation of presynaptic connections of the PNs to MNs using a conductance-based synaptic model coupled with a spiking model. The implemented volume conductor model coupled with the axon model agreed with experimental strength-duration curves. Additionally, temporal/spatial and facilitation effects of CMN synapses were implemented and verified. Finally, the integrated CMN model was verified with experimental data. The results demonstrated that our model was necessary to describe the interaction between frequency and pulses to assess the difference between low-frequency and multi-pulse high-frequency stimulation in cortical stimulation. The proposed model can be used to investigate the effect of stimulation parameters on the cortex to optimize intraoperative monitoring. |
DOI | 10.1142/s0129065718500260 |
Document No. | 30037285 |