Hand Dexterity Training in Degenerative Cervical Myelopathy (DCM)

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).