Dynamics of changes in operant reflexes in rats after transection of the corticospinal tract and removal of the sensorimotor region of the cerebral cortex.

Prior unilateral transection of the bulbar pyramid facilitated recovery of operant reflexes and compensatory processes occurring after removal of the ipsilateral sensorimotor cortex in rats. This increase in corticofugal plasticity was absent when only the sensorimotor cortex was removed. This phenomenon is explained by switching of descending influences to the corticorubrospinal system via the following loop: corticobulbar projection--red nucleus--lower olive--cerebellum--thalamus--cortex. A general property of this phenomenon is that prior lesioning of the peripheral part of the descending spinal projection acquires anticipatory signal value for mobilizing the compensatory abilities of the brain with the aim of recovering from the deficit of the central branch of the system.

[Effects of pyramidotomy on instrumental reflexes in rats depend on the duration of its execution]. / Effekty piramidotomii na instrumental'nye refleksy u krys v zavisimosti ot vremeni ee provedeniia

The effects of unilateral transection of bulbar pyramids on instrumental conditioned reflexes in rats were shown to be in direct relationship with the time of its execution. In rats with stable conditioned reflexes, pyramidotomy impaired conditioned performance, on the average, for 3.9 days. However, preliminary transection of the pyramid delayed operant conditioning and its stabilization, on the average, by 16.5 day. The findings are discussed in terms of the mechanisms of switching over descending influences of the cortico-spinal and cortico-rubrospinal systems.

Time-dependent effects of pyramidotomy in the operantly conditioned rats.

The effect of unilateral transection of bulbar pyramid on operantly conditioning in rats, have been shown to be in direct relationship with the time of its execution. Stable instrumental reflexes reappeared on average 3.9 days after the transection of the bulbar pyramid. However, preliminary transection of the pyramid led to the prolongation of stabilization of operant conditioning after an average of 16.5 days. These findings are considered to be in view of the mechanisms of switching of descending influences of corticospinal and cortico--rubrospinal systems.

[Dynamics of instrumental reflex changes following transection of the corticospinal tract and ablation of the cerebral cortex sensorimotor region in rats]. / Dinamika izmenenii instrumental'nykh refleksov u krys posle pererezki kortikospinal'nogo trakta i udaleniia sensomotornoi oblasti kory mozga.

Unilateral transection of bulbar pyramid performed prior to ablation of the ipsilateral sensomotor cortex was shown to facilitate recovery of operant conditioning and compensatory processes in rats. There was no such corticofugal plasticity in ablation of the sensomotor cortex alone. The phenomenon may be explained by switching of descending influences on the cortico-rubrospinal system through participation of the loop: corticorubral projection--red nucleus--inferior olive--cerebellum--thalamus--cerebral cortex.

Enhanced behavioral recovery from sensorimotor cortex lesions after pyramidotomy in adult rats.

Unilateral transection of the bulbar pyramid, performed before the ablation of the ipsilateral sensorimotor cortex, has been shown to facilitate the recovery of operantly conditioned reflexes and compensatory processes in rats. Such enhanced behavioral recovery was absent when only the sensorimotor cortex was ablated. This phenomenon is explained by the switching of motor activity under the control of the cortico-rubrospinal system. Switching of the descending influences is accomplished through the following loop: cortico-rubral projection-red nucleus-inferior olive-cerebellum-thalamus-cerebral cortex. This suggests that a preliminary lesion of the peripheral part of the system, represented by a descending spinal projection, facilitates the recovery processes to develop during the subsequent destruction of its central part.