Integration of sensory and motor information is one-step, among others, that underlies the successful production of goal-directed hand movements necessary for interacting with our environment. Disruption of sensorimotor integration is prevalent in many neurologic disorders, including stroke. In most stroke survivors, persistent paresis of the hand reduces function and overall quality of life. Current rehabilitative methods are based on neuroplastic principles to promote motor learning that focuses on regaining motor function lost due to paresis, but the sensory contributions to motor control and learning are often overlooked and currently understudied. There is a need to evaluate and understand the contribution of both sensory and motor function in the rehabilitation of skilled hand movements after stroke. Here, we will highlight the importance of integration of sensory and motor information to produce skilled hand movements in healthy individuals and individuals after stroke. We will then discuss how compromised sensorimotor integration influences relearning of skilled hand movements after stroke. Finally, we will propose an approach to target sensorimotor integration through manipulation of sensory input and motor output that may have therapeutic implications.
BackgroundThe level of myelin disruption in multiple sclerosis patients may impact the
capacity for training-induced neuroplasticity and the magnitude of
therapeutic response to rehabilitation interventions. Downslope walking has
been shown to increase functional mobility in individuals with multiple
sclerosis, but it is unclear if myelin status influences therapeutic
response.ObjectiveThe current study aimed to examine the relationship between baseline myelin
status and change in functional mobility after a walking intervention.MethodsThe Timed Up and Go test was used to measure functional mobility before and
after completion of a repeated, six-session slope walking intervention in 16
participants with relapsing–remitting multiple sclerosis. Multi-component
T2 relaxation imaging was used to index myelin water fraction
of overall water content in brain tissue compartments.ResultsResults demonstrated that the ratio of the myelin water fraction in lesion to
normal-appearing white matter (myelin water fraction ratio) significantly
predicted 31% of the variance in change in Timed Up and Go score after the
downslope walking intervention, where less myelin disruption was associated
with greater intervention response.ConclusionsMyelin water content fraction ratio may offer a neural biomarker of myelin to
identify potential responders to interventions targeting functional
impairments in multiple sclerosis.
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Learning to sequence movements is necessary for skillful interaction with the environment. Neuroplasticity, particularly long-term potentiation (LTP), within sensorimotor networks underlies the acquisition of motor skill. Short-term immobilization of the arm, even less than 12 hours, can reduce corticospinal excitability and increase the capacity for LTP-like plasticity within the contralateral primary motor cortex. However, it is still unclear whether short-term immobilization influences motor skill acquisition. The current study aimed to evaluate the effect of short-term arm immobilization on implicit, sequence-specific motor skill acquisition using a modified Serial Reaction Time Task (SRTT). Twenty young, neurotypical adults underwent a single SRTT training session after six hours of immobilization of the non-dominant arm or an equivalent period of no immobilization. Our results demonstrated that participants improved SRTT performance overall after training, but there was no evidence of an effect of immobilization prior to task training on performance improvement. Further, improvements on the SRTT were not sequence-specific. Taken together, motor skill acquisition for sequential, individuated finger movements improved following training but the effect of six hours of immobilization was difficult to discern.
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