ProjectEstablishment of a human electrophysiological model to quantify the CGRP-related axon reflex of trigeminal…

Basic data

Title:
Establishment of a human electrophysiological model to quantify the CGRP-related axon reflex of trigeminal afferents and its evaluation as a clinical tool to assess and predict treatment effects of migraine prophylaxis
Duration:
01/01/2020 to 31/12/2022
Abstract / short description:
The proposed project aims at establishing a first neurophysiological biomarker for migraine. Migraine is one of the world’s most disabling diseases and its prophylactic treatment is time and cost-consuming. Since each patient responds differently and unpredictably to preventive medication, physicians are forced to try prophylactic drugs one by one. Recently, a new group of therapeutic agents targeting the neuropeptide Calcitonin gene-related peptide (CGRP) has been launched for migraine treatment. CGRP is stored in trigeminal afferents and released to meningeal blood vessels during acute migraine attacks leading to a vasodilating response. In an experimental setting, the release of CGRP from afferent nerve fibers in the skin can be induced by transdermal electrical stimulation. The subsequently evoked skin erythema, called ‘flare reaction’, can be quantified by laser Doppler imaging techniques. Never before, research studies used this experimental model in either trigeminally innervated skin or migraine patients. I therefore propose to establish this model to 1) test the specificity of an evoked ‘flare response’ in the trigeminal territory for the pathophysiology of migraine, 2) investigate the effect of CGRP-targeting anti-migraine drugs on this outcome parameter and 3) evaluate the impact of this model to predict the treatment response to drugs interfering with the CGRP-pathway. This study is a highly innovative approach towards tailored migraine treatment.
Keywords:
Migräne
CGRP

Involved staff

Managers

University Department of Neurology
Hospitals and clinical institutes, Faculty of Medicine
Faculty of Medicine
University of Tübingen
University Department of Neurology
Hospitals and clinical institutes, Faculty of Medicine

Contact persons

University Department of Neurology
Hospitals and clinical institutes, Faculty of Medicine

Other staff

Population-based medicine
Institute of Health Sciences, Faculty of Medicine

Local organizational units

Department of Neurology and Epileptology
University Department of Neurology
Hospitals and clinical institutes, Faculty of Medicine

Funders

Nürnberg, Bayern, Germany
Help

will be deleted permanently. This cannot be undone.