This clinical study aimed to evaluate the effectiveness of a virtual reality-based training intervention for improving hand dexterity and promoting neuroplasticity in individuals with Degenerative Cervical Myelopathy (DCM) after surgical decompression. Participants completed a 4-week training program using the Virtual Keyboard (VK) system, which facilitated repetitive, individualized finger movements in a virtual environment. Outcomes were measured pre- and post-training to quantify improvements in hand dexterity, quality of life, and cortical motor activity.
Degenerative Cervical Myelopathy (DCM) is a leading cause of non-traumatic spinal cord injury, often resulting in impaired hand dexterity and diminished quality of life. Despite surgical decompression being the primary treatment, over 30% of individuals experience persistent functional disability due to a lack of targeted post-surgical rehabilitative interventions. This study sought to address this clinical gap by implementing and evaluating a virtual reality-based hand training intervention. The central hypothesis was that an intensive, individualized training program using the Virtual Keyboard (VK) system would improve hand dexterity in individuals with DCM and that these functional gains would be supported by measurable changes in cortical motor activity. Study Design This single-arm interventional study recruited participants who had undergone cervical spine surgery within six months. A total of 25 participants were enrolled, each completing: A 4-week training program consisting of 12 one-hour sessions using the VK system. The system provided engaging, interactive tasks designed to promote finger individuation and precise motor control through real-time visual and auditory feedback. Pre- and post-training evaluations assessing functional, neurophysiological, and quality-of-life outcomes. Specific Aims- Aim 1: Quantify improvements in hand dexterity after the training intervention. Hypothesis: Training with the VK system would significantly improve hand function as measured by the Jebsen-Taylor Hand Function Test (JTHFT) and other clinical metrics. Approach: Baseline, post-training, and follow-up evaluations measured outcomes including JTHFT scores, pinch strength, and sensorimotor tests. Aim 2: Assess neuroplastic changes associated with training. Hypothesis: The training program would enhance cortical motor activation and connectivity, reflected in changes in beta-band event-related desynchronization (ERD) and coherence measured via quantitative EEG (qEEG). Approach: Participants underwent qEEG during finger-tapping tasks at each evaluation, and EEG data were analyzed for changes in cortical activation patterns. Outcomes and Measures- Primary outcomes included: Improvement in hand function as measured by JTHFT scores and related clinical tests. Changes in cortical motor activity and connectivity, including event-related desynchronization and coherence, derived from qEEG data. Secondary outcomes included quality-of-life measures (SF-36 physical component score and EuroQol 5D).
Participants underwent a 4-week training program comprising 12 one-hour sessions to enhance finger individuation and motor control using a virtual reality platform.
Marquette University
Milwaukee, Wisconsin, United States
Jebsen-Taylor Hand Function Test
The Jebsen-Taylor Hand Function Test (JTHFT) is a standardized test used to assess hand function during everyday activities. It consists of seven timed subtests, such as writing, card turning, and object manipulation. The outcome is recorded as the time taken to complete each task in seconds, where lower times indicate better hand function.
Time frame: Baseline, post-training and follow-up.
Quantitative Electroencephalograms (qEEG)
Beta-band event-related desynchronization (ERD) and cortical coherence are key neural markers often analyzed during finger-tapping tasks to study motor control and cortical connectivity. These measures are often used in clinical studies (e.g., DCM, stroke) to evaluate motor system integrity and changes due to interventions or disease progression.
Time frame: Baseline, post-training and follow-up.
Nine-Hole Peg Test (9HPT)
The Nine-Hole Peg Test (9HPT) is a standardized test used to measure finger dexterity. It involves placing and removing pegs from nine holes as quickly as possible. The outcome is recorded as the time taken in seconds, where lower times indicate better dexterity.
Time frame: Baseline, post-training and follow-up.
Box and Blocks Test (BBT)
The Box and Blocks Test is a measure of gross manual dexterity. It involves moving as many blocks as possible from one compartment of a box to another in 60 seconds. The score is the total number of blocks moved, where higher scores indicate better manual dexterity.
Time frame: Baseline, post-training and follow-up.
QuickDASH
The QuickDASH is a subset of 11 items from the 30-item DASH (Disabilities of the Arm, Shoulder, and Hand) and is a self-reported questionnaire in which the response options are presented as 5-point Likert scales. Lower scores indicate better outcomes.
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Study Type
INTERVENTIONAL
Allocation
NA
Purpose
TREATMENT
Masking
NONE
Enrollment
25
Time frame: Baseline, post-training and follow-up.
Three-point pinch strength
Sensorimotor hand function 3-point pinch strength using a pinch gauge (PG-60, B\&L Engineering) measured in pounds (lbs.).
Time frame: Baseline, post-training and follow-up.
Touch sensitivity
Touch sensitivity of the palmar and dorsal hand using von Frey filaments (Aesthesio®), scored out of 12 (12 indicates full sensation)
Time frame: Baseline, post-training (1 week after VK training), and 4-week follow-up ( 4 weeks after VK training).
EuroQol 5-Dimension score
The EuroQol 5-Dimension (EQ-5D) is a standardized measure of health-related quality of life. The minimum level sum score (LSS) is derived by summing the responses across the five dimensions (mobility, self-care, usual activities, pain/discomfort, anxiety/depression), each scored from 1 (no problems) to 3 (extreme problems) score is 5, and the maximum score is 15, where higher scores indicate worse health status. It also includes a Visual Analog Scale (VAS) scored from 0 to 100, where higher scores indicate better health.
Time frame: Baseline, post-training and follow-up.
Short Form-36 Health Survey version 2
The Short Form-36 Health Survey version 2 (SF-36v2) is a validated, comprehensive measure of health-related quality of life. It includes eight domains (e.g., physical functioning-physical component score (PCS), and mental health-mental component score (MCS)) with scores ranging from 0 to 100, where higher scores indicate better health and functioning. An overall summary score for physical and mental health can also be derived.
Time frame: Baseline, post-training and follow-up.
Modified Japanese Orthopedic Association scale
The Modified Japanese Orthopaedic Association (mJOA) Score is a clinical scale used to evaluate the severity of cervical myelopathy. It assesses motor function in the upper and lower extremities, sensation, and bladder function. The total score ranges from 0 to 18, where higher scores indicate better neurological function and less severe disability.
Time frame: Baseline, post-training and follow-up.
Myelopathy Disability Index
The Myelopathy Disability Index (MDI) is a validated measure used to assess disability in individuals with cervical myelopathy. It consists of 10 items, each scored from 0 (no disability) to 10 (severe disability). The total score ranges from 0 to 100, where higher scores indicate greater disability.
Time frame: Baseline, post-training and follow-up.