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Literature DB >> 30132759

Conservation of preparatory neural events in monkey motor cortex regardless of how movement is initiated.

Antonio H Lara¹, Gamaleldin F Elsayed^1,2, Andrew J Zimnik¹, John P Cunningham^2,3,4, Mark M Churchland^1,3,5,6.

Abstract

A time-consuming preparatory stage is hypothesized to precede voluntary movement. A putative neural substrate of motor preparation occurs when a delay separates instruction and execution cues. When readiness is sustained during the delay, sustained neural activity is observed in motor and premotor areas. Yet whether delay-period activity reflects an essential preparatory stage is controversial. In particular, it has remained ambiguous whether delay-period-like activity appears before non-delayed movements. To overcome that ambiguity, we leveraged a recently developed analysis method that parses population responses into putatively preparatory and movement-related components. We examined cortical responses when reaches were initiated after an imposed delay, at a self-chosen time, or reactively with low latency and no delay. Putatively preparatory events were conserved across all contexts. Our findings support the hypothesis that an appropriate preparatory state is consistently achieved before movement onset. However, our results reveal that this process can consume surprisingly little time.

Entities: Chemical Disease Gene Species

Keywords: motor cortex; movement preparation; neuroscience; reaching; rhesus macaque

Mesh：

Year: 2018 PMID： 30132759 PMCID： PMC6112854 DOI： 10.7554/eLife.31826

Source DB: PubMed Journal: Elife ISSN： 2050-084X Impact factor: 8.140

50 in total

1. Prior information in motor and premotor cortex: activity during the delay period and effect on pre-movement activity.

Authors: D J Crammond; J F Kalaska
Journal: J Neurophysiol Date: 2000-08 Impact factor: 2.714

2. Preshaping and continuous evolution of motor cortical representations during movement preparation.

Authors: Annette Bastian; Gregor Schöner; Alexa Riehle
Journal: Eur J Neurosci Date: 2003-10 Impact factor: 3.386

3. Neural variability in premotor cortex provides a signature of motor preparation.

Authors: Mark M Churchland; Byron M Yu; Stephen I Ryu; Gopal Santhanam; Krishna V Shenoy
Journal: J Neurosci Date: 2006-04-05 Impact factor: 6.167

4. Cortical preparatory activity: representation of movement or first cog in a dynamical machine?

Authors: Mark M Churchland; John P Cunningham; Matthew T Kaufman; Stephen I Ryu; Krishna V Shenoy
Journal: Neuron Date: 2010-11-04 Impact factor: 17.173

5. Dynamic encoding of movement direction in motor cortical neurons.

Authors: Jörn Rickert; Alexa Riehle; Ad Aertsen; Stefan Rotter; Martin P Nawrot
Journal: J Neurosci Date: 2009-11-04 Impact factor: 6.167

Review 6. A Dynamical Basis Set for Generating Reaches.

Authors: Mark M Churchland; John P Cunningham
Journal: Cold Spring Harb Symp Quant Biol Date: 2015-04-07

7. Neural antecedents of self-initiated actions in secondary motor cortex.

Authors: Masayoshi Murakami; M Inês Vicente; Gil M Costa; Zachary F Mainen
Journal: Nat Neurosci Date: 2014-09-28 Impact factor: 24.884

8. The predictive value for performance speed of preparatory changes in neuronal activity of the monkey motor and premotor cortex.

Authors: A Riehle; J Requin
Journal: Behav Brain Res Date: 1993-02-26 Impact factor: 3.332

9. The involvement of monkey premotor cortex neurones in preparation of visually cued arm movements.

Authors: M Godschalk; R N Lemon; H G Kuypers; J van der Steen
Journal: Behav Brain Res Date: 1985 Nov-Dec Impact factor: 3.332

10. A common structure underlies low-frequency cortical dynamics in movement, sleep, and sedation.

Authors: Thomas M Hall; Felipe de Carvalho; Andrew Jackson
Journal: Neuron Date: 2014-08-14 Impact factor: 17.173

24 in total

1. Perturbation of Macaque Supplementary Motor Area Produces Context-Independent Changes in the Probability of Movement Initiation.

Authors: Andrew J Zimnik; Antonio H Lara; Mark M Churchland
Journal: J Neurosci Date: 2019-02-12 Impact factor: 6.167

Review 2. Computation Through Neural Population Dynamics.

Authors: Saurabh Vyas; Matthew D Golub; David Sussillo; Krishna V Shenoy
Journal: Annu Rev Neurosci Date: 2020-07-08 Impact factor: 12.449

3. Maintained Representations of the Ipsilateral and Contralateral Limbs during Bimanual Control in Primary Motor Cortex.

Authors: Kevin P Cross; Ethan A Heming; Douglas J Cook; Stephen H Scott
Journal: J Neurosci Date: 2020-07-23 Impact factor: 6.167

4. Motor cortex signals for each arm are mixed across hemispheres and neurons yet partitioned within the population response.

Authors: Katherine Cora Ames; Mark M Churchland
Journal: Elife Date: 2019-10-09 Impact factor: 8.140