论文信息 - Effects of voltage trajectory on action potential voltage threshold in simulations of cat spinal motoneurons

Effects of voltage trajectory on action potential voltage threshold in simulations of cat spinal motoneurons

Abstract A single-cell neuronal model was used to investigate the effect of membrane trajectory on voltage threshold (Vth) for action potential generation. Previous results suggested that hyperpolarization of Vth could be produced by a rapid membrane depolarization, but this effect is limited to the first spike in a train. This study shows rapid current injections hyperpolarize Vth because they are more effective in activating the sodium current underlying spiking. The hyperpolarization of Vth induced by rapid membrane depolarization becomes less effective in altering Vth when other mechanisms of enhancing the fast sodium current underlying action potentials are activated.

Kelvin E. Jones | Yue Dai | Larry M. Jordan | Brent Fedirchuk

[1] Jordan Lm. Factors determining motoneuron rhythmicity during fictive locomotion. , 1983 .

[2] D A McCrea,et al. State‐dependent hyperpolarization of voltage threshold enhances motoneurone excitability during fictive locomotion in the cat , 2001, The Journal of physiology.

[3] L. Jordan. Factors determining motoneuron rhythmicity during fictive locomotion. , 1983, Symposia of the Society for Experimental Biology.

[4] Kelvin E Jones,et al. A modelling study of locomotion‐induced hyperpolarization of voltage threshold in cat lumbar motoneurones , 2002, The Journal of physiology.

[5] R. R. Sturrock,et al. Neural Origin of Rhythmic Movements , 1984 .