Abstract
Disruption of neural tracts descending from the brain to the spinal cord after brain trauma and stroke causes postural and sensorimotor deficits. We previously showed that unilateral lesion to the sensorimotor cortex in rats with completely transected thoracic spinal cord produced asymmetry in hindlimb posture and withdrawal reflexes. Supraspinal signals to hindlimb muscles may be transmitted through the paravertebral chain of sympathetic ganglia that remain intact after the transection. We here demonstrated that prior transection of the spinal cord at the cervical level that was rostrally to segments with preganglionic sympathetic neurons, did not abolish formation of asymmetry in hindlimb posture and musculo-articular resistance to stretch after unilateral brain injury. Thus not the sympathetic system but humoral signals may mediate the effects of brain injury on the lumbar spinal circuits. The asymmetric responses in rats with transected spinal cords were eliminated by bilateral lumbar dorsal rhizotomy after the left-side brain injury, but resistant to deafferentation after the right-side brain lesion. Two mechanisms, one dependent on and one independent of afferent input may account for asymmetric hindlimb motor responses. Resistance to deafferentation may be due to sustained stretch- and effort-unrelated muscle contractions that is often observed in patients with central lesions. Left-right asymmetry is unusual feature of these mechanisms that both are activated by humoral signals.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
↵‡ Co-senior authors