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Neural correlates of isometric force in the “motor” thalamus (1986)

Anner-Baratti, R. ; Allum, J. H. J. ; Hepp-Reymond, M. -C.

Springer

Experimental brain research 63 (1986), S. 567-580

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ISSN: 1432-1106

Keywords: Monkey ; Isometric force ; Finger ; Neuronal activity ; Thalamus ; Precentral cortex

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The relationship between single cell activity in the “motor” thalamus and the generation of isometric force between the fingers has been investigated in 2 monkeys. Neurons related to the task were found in the thalamic motor regions VLo, VPLo, and VA where microstimulation occasionally elicited motor reactions in hand and fingers. 58% of these 55 neurons, designated “typical”, showed modulation of their discharge patterns with force similar to neurons in precentral cortex and could be assigned to one of 5 discharge patterns described for the motor cortex. Only a small percentage of the thalamic neurons were found to have phasic activity. The other “atypical” neurons (42%) had discharge patterns with complex sequences of phasic and tonic activation with respect to force. For 18 typical and atypical neurons with tonic and phasic-tonic modulation of their firing rate with force significant regression coefficients between firing rate and static force were observed. The mean index of force sensitivity (rateforce slope) was 54.5 Hz/N for the neurons increasing their discharge rate with force, i.e. approximately that of precentral cells. Neurons tested for their sensory properties had receptive fields located on hand and/or fingers and were activated mainly by stimulation of muscle and joint receptors. The characteristics of these thalamic neurons are compared to those of precentral cells recorded under identical experimental conditions and are discussed in relation to the known input-output relationships of the motor thalamic nuclei. The data strongly support the hypothesis that parameters of movement, in particular force, are represented by the activity of neurons in the “motor” thalamus.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237479

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Context-dependent force coding in motor and premotor cortical areas (1999)

Hepp-Reymond, M.-C. ; Kirkpatrick-Tanner, M. ; Gabernet, L. ; [et al.]

Springer

Experimental brain research 128 (1999), S. 123-133

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ISSN: 1432-1106

Keywords: Key words Precision grip ; Context-dependency ; Force ; Finger representation ; Motor cortex ; Premotor cortex

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In three monkeys trained to finely grade grip force in a visuomotor step-tracking task, the effect of the context on neuronal force correlates was quantitatively assessed. Three trial types, which differed in force range, number, and direction of the force steps, were presented pseudo-randomly and cued with the color of the cursor serving as feedback of the exerted force. Quantitative analyses were made on 85 neurons with similar discharge patterns in the three trial types and significant linear positive (54 cells) or negative (31 cells) correlation coefficients between firing rate and force. An analysis of covariance (ANCOVA) showed that the population slopes for 2-step were steeper than for 3-step trials. Another ANCOVA at the population level, computed on the differences in firing rate and force between force steps, persistently disclosed a significant effect of trial type. For the first two force steps, the differences in firing rate were significantly larger in the 2-step than in the 3-step increase trials. Further analyses revealed that neither the force range nor the number of steps was a unique factor. A small group of neurons was tested in an additional trial series with a uniform cue for all three trials, leading to either a loss of context-dependency or to unexpected changes in firing rate. This demonstrates that the cue color was an important instruction for task performance and neuronal activity. The most important findings are that the context-dependent changes were occurring ”on-line”, and that neurons displaying context-dependency were found in all three lateral premotor cortex hand regions and in the primary motor cortex. Finger muscle activity did not show any context dependency. The context-dependent effect leads to a normalization of the cortical activity. The advantage of normalization is discussed and mechanisms for the gain regulation are proposed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002210050827

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