Trials / Recruiting

RecruitingNCT05947279

Examining Lateralized Aspects of Motor Control Using Non-invasive Neural Stimulation

Status: Recruiting
Phase: N/A
Study type: Interventional
Enrollment: 60 (estimated)

Sponsor: Virginia Commonwealth University · Academic / Other
Sex: All
Age: 18 Years – 40 Years
Healthy volunteers: Accepted

Summary

Motor adaptation and generalization are believed to occur via the integration of various forms of sensory feedback for a congruent representation of the body's position in space along with estimation of inertial properties of the limb segments for accurate specification of movement. Thus, motor adaptation is often studied within curated environments incorporating a "mis-match" between different sensory systems (i.e. a visual field shift via prism googles or a visuomotor rotation via virtual reality environment) and observing how motor plans change based on this mis-match. However, these adaptations are environment-specific and show little generalization outside of their restricted experimental setup. There remains a need for motor adaptation research that demonstrates motor learning that generalizes to other environments and movement types. This work could then inform physical and occupational therapy neurorehabilitation interventions targeted at addressing motor deficits.

Detailed description

Voluntary movement and sensory perception are fundamental aspects of the human experience. Senses such as visual and proprioceptive feedback inform movement by continuously providing the central nervous system with information on limb location, movement error, and task performance. However, the specific mechanisms behind how different forms of sensory information are used to adapt and generalize movement remain poorly understood. Motor adaptation, or the modification of movement based on error feedback (Martin et al., 1996), is often elicited during rehabilitation but must be generalized to functional performance, such as activities of daily living, in order to successfully rehabilitate motor deficits following stroke. Motor adaptation and generalization are believed to occur via the integration of various forms of sensory feedback for a congruent representation of the body's position in space along with estimation of inertial properties of the limb segments for accurate specification of movement. Thus, motor adaptation is often studied within curated environments incorporating a "mis-match" between different sensory systems (i.e. a visual field shift via prism googles or a visuomotor rotation via virtual reality environment) and observing how motor plans change based on this mis-match. However, these adaptations are environment-specific and show little generalization outside of their restricted experimental setup. There remains a need for motor adaptation research that demonstrates motor learning that generalizes to other environments and movement types. This work could then inform physical and occupational therapy neurorehabilitation interventions targeted at addressing motor deficits.

Conditions

Interventions

Type	Name	Description
BEHAVIORAL	Comparing motor adaptation reaching performance	By comparing motor adaptation reaching performance between these three groups, the investigators can examine how stimulation to each specific area of the brain modulates different aspects of motor adaptation

Timeline

Start date: 2024-04-03
Primary completion: 2026-08-15
Completion: 2026-08-15
First posted: 2023-07-17
Last updated: 2026-03-13

Locations

1 site across 1 country: United States

Source: ClinicalTrials.gov record NCT05947279. Inclusion in this directory is not an endorsement.