In vivo calcium imaging reveals disordered interictal network dynamics in epileptic stxbp1b zebrafish
Jing Liu, Kathryn A. Salvati, Scott C. Baraban
Abstract
mutants display transient periods of elevated activity among local clusters of interacting neurons. These network "cascade" events were significantly larger in size and duration in mutants. At mesoscale resolution, cascades exhibit neurodevelopmental abnormalities. At single-cell scale, we describe spontaneous hyper-synchronized neuronal ensembles. That calcium imaging reveals uniquely disordered brain states during periods between pathological ictal-like seizure events is striking and represents a potential interictal biomarker.
Topics & Concepts
ZebrafishIctalCalciumCalcium imagingIn vivoNeuroscienceDynamics (music)Network dynamicsEpilepsyBiophysicsChemistryBiologyPsychologyBiochemistryBiotechnologyMathematicsPedagogyDiscrete mathematicsGeneOrganic chemistryNeural dynamics and brain functionNeuroscience and Neuropharmacology ResearchPhotoreceptor and optogenetics research