Abstract
Several procedures have been developed to enhance the rehabilitation of stroke patients. However, most techniques struggle to promote sustained recovery in the months following the treatment. Therefore, it is essential to understand the mechanisms that can be harnessed during treatment to potentiate retention of benefits and sustained recovery. While stroke patients often suffer from thalamocortical dysrhythmia (TCD), a perturbation in alpha (8-13 Hz) rhythms caused by decreased excitation in the cortico-thalamic projections, the functional relevance of TCD in stroke patients is not yet clear. We propose that TCD can be counteracted by combining focal stimulation of the motor cortex with virtual-reality (VR) based rehabilitation, which engages distributed networks associated with goal-oriented behavior. Critically, we investigate whether this can be the key to promoting sustained recovery in stroke patients. We compare thalamocortical rhythms and behavioral recovery in patients receiving Sham and bilateral tDCS stimulation of the motor cortex during therapy with the Rehabilitation Gaming System (RGS). Our results reveal that patients in the tDCS group show a sustained recovery in all clinical scales up to three months post-treatment, as opposed to the Sham group. Furthermore, we demonstrate that the slowing down of alpha rhythms can be counteracted by transcranial direct-current stimulation (tDCS), with a particular role for enhancing the excitability of parietal areas. That said, we found no correlation between changes in alpha rhythms and motor recovery. On one hand, our findings suggest that sustained recovery can be potentiated by tDCS-enhanced VR-based rehabilitation. On the other hand, enhancing the excitability of parietal areas while recruiting brain networks associated with goal-oriented behavior can successfully counteract TCD, even though this is likely not the main driver of sustained motor recovery.