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Literature DB >> 7254709

Distribution of responses to visual cues for movement in precentral cortex or awake primates.

H C Kwan, W A MacKay, J T Murphy, Y C Wong.

Abstract

Unit recordings were made from areas 4 and 6 monkeys after they were trained to align a cursor over a vertical target line on a video screen by control of a manipulandum with wrist flexion or extension movement. The appearance of the cursor and line on the screen was the visual cue for movement. Responses were observed 150 (+/- 40) msec after cue presentation. The responses were found only in the forelimb area of precentral cortex, which was most immediately involved in the control of the task, and the majority of them were uncorrelated with either the specific details of the visual cue, or with the direction of the subsequent wrist movement.

Mesh：

Year: 1981 PMID： 7254709 DOI： 10.1016/0304-3940(81)90234-2

Source DB: PubMed Journal: Neurosci Lett ISSN： 0304-3940 Impact factor: 3.046

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Cited

6 in total

1. Effects of hand movement path on motor cortical activity in awake, behaving rhesus monkeys.

Authors: S Hocherman; S P Wise
Journal: Exp Brain Res Date: 1991 Impact factor: 1.972

Review 2. Control of remembered reaching sequences in monkey. II. Storage and preparation before movement in motor and premotor cortex.

Authors: R E Kettner; J K Marcario; N L Port
Journal: Exp Brain Res Date: 1996-12 Impact factor: 1.972

Distribution of responses to visual cues for movement in precentral cortex or awake primates.

1. Effects of hand movement path on motor cortical activity in awake, behaving rhesus monkeys.

Review 2. Control of remembered reaching sequences in monkey. II. Storage and preparation before movement in motor and premotor cortex.

3. A Trial-by-Trial Window into Sensorimotor Transformations in the Human Motor Periphery.

4. A quantitative analysis of stimulus- and movement-related responses in the posterior parietal cortex of the monkey.

5. Effects of gaze on apparent visual responses of frontal cortex neurons.

6. Done in 100 ms: path-dependent visuomotor transformation in the human upper limb.