Patient‐specific computational modeling of cortical spreading depression via diffusion tensor imaging

Cortical spreading depression, a depolarization wave originating in the visual cortex and traveling towards the frontal lobe, is commonly accepted as a correlate of migraine visual aura. As of today, little is known about the mechanisms that can trigger or stop such phenomenon. However, the complex...

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Veröffentlicht in:International journal for numerical methods in biomedical engineering Jg. 33; H. 11
Hauptverfasser: Kroos, Julia M., Marinelli, Isabella, Diez, Ibai, Cortes, Jesus M., Stramaglia, Sebastiano, Gerardo‐Giorda, Luca
Format: Journal Article
Sprache:Englisch
Veröffentlicht: England Wiley Subscription Services, Inc 01.11.2017
Schlagworte:
Brain
Computation
Computational neuroscience
Conduction
Cortical Spreading Depression
Depolarization
Diffusion
Diffusion Tensor Imaging
finite element simulation
Frontal lobe
Headache
Humans
Magnetic resonance imaging
Migraine
Neuroimaging
Patient-Specific Modeling
patient‐specific cortical geometry
Potassium
reaction‐diffusion systems
Spreading
Substantia grisea
Tensors
Visual cortex
Visual Cortex - diagnostic imaging
Visual Cortex - physiology
diffusion tensor imaging
finite element simulation
cortical spreading depression
patient-specific cortical geometry
reaction-diffusion systems
ISSN:2040-7939, 2040-7947, 2040-7947
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Zusammenfassung:Cortical spreading depression, a depolarization wave originating in the visual cortex and traveling towards the frontal lobe, is commonly accepted as a correlate of migraine visual aura. As of today, little is known about the mechanisms that can trigger or stop such phenomenon. However, the complex and highly individual characteristics of the brain cortex suggest that the geometry might have a significant impact in supporting or contrasting the propagation of cortical spreading depression. Accurate patient‐specific computational models are fundamental to cope with the high variability in cortical geometries among individuals, but also with the conduction anisotropy induced in a given cortex by the complex neuronal organisation in the grey matter. In this paper, we integrate a distributed model for extracellular potassium concentration with patient‐specific diffusivity tensors derived locally from diffusion tensor imaging data. Cortical spreading depression, a depolarisation wave propagating from the visual cortex to the frontal lobe, is commonly accepted as a correlate of migraine aura. Although CSD is not fully understood yet, the highly individual geometry of the cortex is expected to have an impact on its propagation. We introduce a patient‐specific model that combines individual geometries, obtained from MRI imaging, with personalized coefficients, derived from diffusion tensor imaging to account for the anisotropy of the cortical tissue.
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ISSN:2040-7939
2040-7947
2040-7947
DOI:10.1002/cnm.2874