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Personalized dynamic network models of the human brain as a future tool for planning and optimizing epilepsy therapy

Isa Dallmer‐Zerbe, Přemysl Jiruška, Jaroslav Hlinka

2023Epilepsia24 citationsDOIOpen Access PDF

Abstract

Epilepsy is a common neurological disorder, with one third of patients not responding to currently available antiepileptic drugs. The proportion of pharmacoresistant epilepsies has remained unchanged for many decades. To cure epilepsy and control seizures requires a paradigm shift in the development of new approaches to epilepsy diagnosis and treatment. Contemporary medicine has benefited from the exponential growth of computational modeling, and the application of network dynamics theory to understanding and treating human brain disorders. In epilepsy, the introduction of these approaches has led to personalized epileptic network modeling that can explore the patient's seizure genesis and predict the functional impact of resection on its individual network's propensity to seize. The application of the dynamic systems approach to neurostimulation therapy of epilepsy allows designing stimulation strategies that consider the patient's seizure dynamics and long-term fluctuations in the stability of their epileptic networks. In this article, we review, in a nontechnical fashion suitable for a broad neuroscientific audience, recent progress in personalized dynamic brain network modeling that is shaping the future approach to the diagnosis and treatment of epilepsy.

Topics & Concepts

EpilepsyNeurostimulationNeuroscienceDeep brain stimulationBrain stimulationPsychologyComputer scienceMedicineDiseaseParkinson's diseaseStimulationPathologyFunctional Brain Connectivity StudiesNeural dynamics and brain functionEEG and Brain-Computer Interfaces
Personalized dynamic network models of the human brain as a future tool for planning and optimizing epilepsy therapy | Litcius