Abstract
ObjectiveThe objectives of this study were to evaluate functional outcomes of cervical motor control, strength and endurance following active transcranial direct current stimulation (tDCS) with exercise therapy (ET) compared to sham tDCS/+ET in patient with cervicogenic headache (CGH),DesignThis was a pilot sham-controlled, participant and assessor blinded, randomized controlled trial.MethodsThirty-two participants with CGH were randomized to active tDCS/+ET or sham tDCS/+ET. Participants completed 6-weeks of daily ET concurrently combined with 3 sessions per week of tDCS. Assessments included: craniocervical flexion test (mmHg), cervical isometric strength (N), cervical flexor and extensor endurance (seconds), and range of motion (degrees) pre-treatment, post-treatment, 6-weeks and 12-weeks post treatment. Linear mixed effect models evaluated group-time interactions at each follow-up while accounting for exercise program adherence and sex.ResultsThere were significant group-time interactions for activation scores on the craniocervical flexion test from pre-treatment to post-treatment (β = 1.571; 95%CI[0.155, 2.988]; p = 0.030), 6-weeks (β = 1.571; 95%CI[0.155, 2.988]; p = 0.030), and 12-weeks (β = 1.954; 95%CI[0.465, 3.443]; p = 0.011) favoring the active tDCS/+ET group.ConclusionsActive tDCS/+ET demonstrated significant benefits in deep cervical flexor motor control compared to sham tDCS/+ET that remained improved up to 12 weeks post-treatment. This suggests tDCS/+ET may improve of functional outcomes for patients with CGH.