Abstract
Cortical spreading depression (CSD), a depolarization wave which originates in the visual cortex and travels toward the frontal lobe, has been suggested to be one neural correlate of aura migraine. To the date, little is known about the mechanisms which can trigger or stop aura migraine. Here, to shed some light on this problem and, under the hypothesis that CSD might mediate aura migraine, we aim to study different aspects favoring or disfavoring the propagation of CSD. In particular, by using a computational neuronal model distributed throughout a realistic cortical mesh, we study the role that the geometry has in shaping CSD. Our results are two-fold: first, we found significant differences in the propagation traveling patterns of CSD, both intra and inter-hemispherically, revealing important asymmetries in the propagation profile. Second, we developed methods able to identify brain regions featuring a peculiar behavior during CSD propagation. Our study reveals dynamical aspects of CSD, which, if applied to subject-specific cortical geometry, might shed some light on how to differentiate between healthy subjects and those suffering migraine.
Highlights
Migraine is a prevailing disease within a 15% of the world’s population suffering from severe unilateral headache and nausea (Vos et al, 2012)
We have presented a computational model of cortical spreading depression (CSD) and studied how cortex geometry shapes propagation of CSD
The realistic geometry is provided by an individual subjectspecific mesh reconstructed from high-resolution structural magnetic resonance imaging (MRI)
Summary
Migraine is a prevailing disease within a 15% of the world’s population suffering from severe unilateral headache and nausea (Vos et al, 2012). About one third of migraine patients experience a migraine aura preceding the typical headache (Hadjikhani et al, 2001; Richter and Lehmenkühler, 2008) During this aura, patients undergo transitory perceptual, visual and/or auditory, disturbances. Several studies and experiments suggest that a propagating depolarization wave on the cortex underlays migraine (see de Tommaso et al, 2014 and references therein). This wave of intense excitation, named cortical spreading depression (CSD), causes a drastic failure of the brain homeostasis and is followed by a wave of inhibition. The cortex geometry is highly individual and, to our knowledge, studies of CSD based on realistic (subject-specific) cortical geometries together with realistic neural modeling have not been addressed so far
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