Lower Boundaries of Motoneuron Desynchronization via Renshaw Interneurons

Maltenfort, Mitchell Gil; Druzinsky, Robert E.; Heckman, C. J.; Rymer, W. Zev

Lower Boundaries of Motoneuron Desynchronization via Renshaw Interneurons

Mitchell Gil Maltenfort, Robert E. Druzinsky, C. J. Heckman, W. Zev Rymer

NeurIPS 1993 pp. 535-542

/neurips/1993/maltenfort1993neurips-lower/

Abstract

Using a quasi-realistic model of the feedback inhibition ofmotoneurons (MNs) by Renshaw cells, we show that weak inhibition is sufficient to maximally desynchronize MNs, with negligible effects on total MN activity. MN synchrony can produce a 20 - 30 Hz peak in the force power spectrum, which may cause instability in feedback loops.

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Text

Maltenfort et al. "Lower Boundaries of Motoneuron Desynchronization via Renshaw Interneurons." Neural Information Processing Systems, 1993.

Markdown

[Maltenfort et al. "Lower Boundaries of Motoneuron Desynchronization via Renshaw Interneurons." Neural Information Processing Systems, 1993.](https://mlanthology.org/neurips/1993/maltenfort1993neurips-lower/)

BibTeX

@inproceedings{maltenfort1993neurips-lower,
  title     = {{Lower Boundaries of Motoneuron Desynchronization via Renshaw Interneurons}},
  author    = {Maltenfort, Mitchell Gil and Druzinsky, Robert E. and Heckman, C. J. and Rymer, W. Zev},
  booktitle = {Neural Information Processing Systems},
  year      = {1993},
  pages     = {535-542},
  url       = {https://mlanthology.org/neurips/1993/maltenfort1993neurips-lower/}
}