Influence of aging and task-related activation on descending cortical modulation of spinal sensorimotor circuitry.
Alejandro J Lopez, Terrence J Glover, Taylor M Leone, Catherine F Mason, Camille Guzman, Lena H Ting, Michael R Borich, Trisha M Kesar
Abstract
Open AccessThe objective of this study was to evaluate the effects of aging on descending modulation of spinal reflexes across different task conditions. In healthy young (YA; age 27 ± 4 years) and older (OA; age 63 ± 10 years) adults, we utilized paired subthreshold transcranial magnetic stimulation (TMS) and peripheral nerve stimulation (PNS) to elicit unconditioned (PNS only) and conditioned (TMS paired with PNS) soleus Hoffmann (H-)reflexes at 3 inter-stimulus intervals (ISIs) (-1.5, +10 ms, +40 ms) and during 3 task conditions - sit rest (SR), sit active (SA), and quiet stance (QS). Our results showed that at the + 40 ms ISI, compared to YA, the OA group showed significant differences in modulation (and reversal from facilitation to inhibition) of soleus H-reflexes during both SA and QS tasks (p < 0.0001). Correlation analysis showed a significant negative relationship between age and the magnitude of H-reflex modulation at the + 40 ms ISI, such that older individuals showed a larger magnitude of H-reflex inhibition. In conclusion, altered task-related modulation of spinal reflexes at the + 40 ms ISI may reflect specific aging-related effects on spinal sensorimotor integration, likely mediated via complex interactions between the influence of polysynaptic slower-conducting descending pathways, sensory afferents, and local spinal circuits, on spinal reflex activity during motor task performance.