期刊
EXPERIMENTAL NEUROLOGY
卷 227, 期 1, 页码 203-209出版社
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.expneurol.2010.11.001
关键词
Absence seizures; Co-culture; Thalamocortical network; Epilepsy; Rapid Ca2+ imaging
资金
- Australian Government
- ARC
- MRS PhD studentship
The oscillatory rhythms underlying many physiological and pathological states, including absence seizures, require both the thalamus and cortices for full expression. A co-culture preparation combining cortical and thalamic explants provides a unique model for investigating how such oscillations initiate and spread. Here we investigated the dynamics of synchronized thalamocortical activity by simultaneous measurement of field-potential recordings and rapid imaging of Ca2+ transients by fluorescence methods. Spontaneous sustained hypersynchronized seizure-like oscillations required reciprocal cortico-thalamocortical connections. Isolated cortical explants can independently develop brief discharges, while thalamic explants alone were unable to do so. Rapid imaging of Ca2+ transients demonstrated deep-layer cortical initiation of oscillatory network activity in both connected and isolated explants. Further, cortical explants derived from a rat model of genetic absence epilepsy showed increased bursting duration consistent with an excitable cortex. We propose that thalamocortical oscillatory network activity initiates in deep layers of the cortex with reciprocal thalamic interconnections enabling sustained hyper-synchronization. Crown Copyright (C) 2010 Published by Elsevier Inc. All rights reserved.
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