DOI: 10.1227/neu.0000000000004146 ISSN: 0148-396X

Sensorimotor Network Alterations and Compensation in Cervical Spondylotic Myelopathy: A 7 T Task-Based and Resting-State Functional MRI Study

Koichiro Shima, Naoya Oishi, Tomohisa Okada, Dinh Ha Duy Thuy, Shunsuke Fujibayashi, Takayoshi Shimizu, Koichi Murata, Takashi Sono, Bungo Otsuki, Shuichi Matsuda, Tadashi Isa

BACKGROUND AND OBJECTIVES:

Cervical spondylotic myelopathy (CSM) is a leading cause of spinal cord dysfunction, yet the central neural mechanisms underlying motor impairment and recovery remain unclear.

METHODS:

This study used the first 7 T functional MRI (fMRI) study in patients with CSM to investigate sensorimotor network alterations. Sixteen patients with CSM and age-matched healthy controls underwent task-based fMRI during hand grasping and resting-state fMRI. Ten patients completed 3-month postoperative follow-up imaging. Clinical severity was assessed using Japanese Orthopaedic Association (JOA) scores.

RESULTS:

Task-based fMRI during hand movements revealed compensatory bilateral recruitment in patients with CSM compared with controls, with significantly increased activation in the ipsilateral primary motor cortex (M1; peak: 45, −21, 56; T = 7.93, P < .001) and contralateral cerebellum (peak: −21, −52, −28; T = 7.23, P < .001). Cerebellar hyperactivation correlated negatively with JOA total scores (peak: −26, −56, −24; T = 10.74, P < .001) and dexterity subscales (T = 9.05, P < .001), indicating severity-dependent compensation. Resting-state analysis revealed widespread increases in sensorimotor network connectivity. The strongest alterations were observed in bilateral M1 connectivity (T = 14.65, P < .001), bilateral primary sensory cortex connectivity (T = 14.53, P < .001), and M1-supplementary motor area (SMA) connections (right M1 to left SMA: T = 13.21, P < .001; bilateral SMA: T = 13.89, P < .001). Intracerebellar networks showed marked hyperconnectivity (bilateral cerebellar lobule VI: T = 15.35, P < .001; bilateral cerebellar lobule IV-V: T = 14.25, P < .001). Resting-state connectivity strength was negatively correlated with both JOA total scores and dexterity subscales.

CONCLUSION:

This 7T fMRI study reveals that CSM induces compensatory reorganization involving the contralateral cerebellum and ipsilateral motor cortex, with severity-dependent hyperconnectivity. These findings clarify mechanisms of motor compensation and suggest cerebellar-focused rehabilitation as a potential therapeutic strategy.

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