Transcranial Direct Current Stimulation Plus Monoclonal Antibodies Acting on the CGRP Pathway for Migraine

Electrophysiological changes that occur in the brains of migraine patients, lead to the activation of nociceptive centers, including a peripheral neural structure, the trigeminal ganglion (TG), which releases pain-inducing peptides and mostly calcitonin gene-related peptide (CGRP). Monoclonal antibodies acting on the CGRP pathway (CGRP-MAbs) are the first drugs specifically designed for migraine, they inhibit CGRP release from the TG without entering the brain. Not all patients experience benefit from CGRP-MAbs treatment. For this reason, associating these drugs with a non-pharmacological treatment that acts centrally, such as transcranial direct current stimulation, could be effective.

The aim of the study is investigating how the migraine preventive treatment with CGRP-MAbs in association with tDCS, is effective to reduce headache days, days of disabling headache, intensity of pain and consumption of acute treatments. Migraine-related disability, quality of life, sleep disturbance and psychological aspects will also be evaluated. Patients will be randomized into two groups, one will receive active tDCS and one sham tDCS. Both patients and investigators will be blind to the treatment administered (double-blind).

Furthermore, will be evalutated the cortical mechanisms involved in migraine by directly modulating brain physiology via repetitive tDCS in patients with migraine on treatment with CGRP-MAbs. To fulfill this aim, we will assess the EEG correlates of the actual effects of the stimulation in a sham-controlled study, providing the EEG indexes linked to the altered and potentially restored cortical dynamics in migraine.