AI Article Synopsis
- Patients with focal temporal lobe seizures often lose consciousness, showing brain activity similar to deep sleep.
- Previous studies in rats suggest that reduced arousal in the brain leads to decreased brain function during these seizures, but they didn't connect this to conscious behavior.
- In this study using awake mice, researchers found that seizures affect behavior, particularly responses to sounds, by altering acetylcholine levels in the brain, highlighting the link between reduced brain activity and loss of consciousness during these episodes.
Article Abstract
Patients with focal temporal lobe seizures often experience loss of consciousness associated with cortical slow waves, like those in deep sleep. Previous work in rat models suggests that decreased subcortical arousal causes depressed cortical function during focal seizures. However, these studies were performed under light anesthesia, making it impossible to correlate conscious behavior with physiology. We show in an awake mouse model that electrically induced focal seizures in the hippocampus cause impaired behavioral responses to auditory stimuli, cortical slow waves, and reduced mean cortical high-frequency activity. Behavioral responses are related to cortical cholinergic release at two different timescales. Slow state-related decreases in acetylcholine correlate with overall impaired behavior during seizures. Fast phasic acetylcholine release is related to variable spared or impaired behavioral responses with each auditory stimulus. These findings establish a strong relationship between decreased cortical arousal and impaired consciousness in focal seizures, which may help guide future treatment.
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| http://dx.doi.org/10.1016/j.celrep.2024.115012 | DOI Listing |
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