论文信息 - Recovery of locomotor function in cats after localized cerebellar lesions

Recovery of locomotor function in cats after localized cerebellar lesions

Cats were trained to walk on a motorized treadmill, at speeds up to a brisk walk, for food reward. A cerebellar lesion was placed in each animal, either unilateral removal of paravermal cortex, or unilateral coagulation of n. interpositus, or bilateral coagulation of the fastigial nuclei. The effects of these lesions upon locomotor activity were measured by conventional kinematic methods, and were found to be generally in agreement with prior observations. Also in agreement with prior work was the fact that these initial deficits disappeared in a relatively short time. The kinematic data suggest that this recovery of function was genuine in the sense that compensatory alterations in limb motion could not be demonstrated. In disagreement with prior studies, we failed to elicit decompensation (e.g. reinstatement of the original deficits) by subsequent pyramidal tract sections, or ablation of the 'motor' cortex. We conclude that the corticospinal system is probably not essential to the recovery observed, and also that perhaps there are substantial differences in the mechanisms of recovery of 'spontaneous' overground locomotion, compared to walking on a treadmill as a conditioned instrumental response.

E. Eidelberg | J. Yu | E. Eidelberg | J. Yu | Jen Yu

[1] J. Yu. The pathway mediating ipsilateral limb hyperflexion after cerebellar paravermal cortical ablation or cooling in cats. , 1972, Experimental Neurology.

[2] Jen Yu. INSTRUMENTAL CONDITIONING AND PLASTICITY OF MOTOR FUNCTION , 1982 .

[3] S. Grillner. Control of Locomotion in Bipeds, Tetrapods, and Fish , 1981 .

[4] J. Konorski,et al. The effects of cerebellar lesions upon skilled movements and instrumental conditioned reflexes. , 1972, Acta neurobiologiae experimentalis.

[5] J. Konorski,et al. Mechanisms mediating ipsilateral limb hyperflexion after cerebellar paravermal cortical ablation or cooling. , 1973, Experimental neurology.

[6] W. Chambers,et al. Functional localization in the cerebellum. I. Organization in longitudinal cortico‐nuclear zones and their contribution to the control of posture, both extrapyramidal and pyramidal , 1955, The Journal of comparative neurology.

[7] M. Udo,et al. Cerebellar control of locomotion: effects of cooling cerebellar intermediate cortex in high decerebrate and awake walking cats. , 1980, Journal of neurophysiology.

[8] O. Pompeiano,et al. Chronic fastigial lesions and their compensation in the cat , 1957 .

[9] M C Wetzel,et al. OPERANT CONTROL AND CAT LOCOMOTION , 1982, American journal of physical medicine.

[10] W. Chambers,et al. Functional localization in the cerebellum. II. Somatotopic organization in cortex and nuclei. , 1955, A.M.A. archives of neurology and psychiatry.