Abstract
An increasing amount of studies suggest that brain dynamics measured with resting-state functional magnetic resonance imaging (fMRI) are related to the state of consciousness. However, the challenge of investigating neuronal correlates of consciousness is the confounding interference between (recovery of) consciousness and behavioral responsiveness. To address this issue, and validate the interpretation of prior work linking brain dynamics and consciousness, we performed a longitudinal fMRI study in patients recovering from coma. Patients were assessed twice, 6 months apart, and assigned to one of two groups. One group included patients who were unconscious at the first assessment but regained consciousness and improved behavioral responsiveness by the second assessment. The other group included patients who were already conscious and improved only behavioral responsiveness. While the two groups were matched in terms of the average increase in behavioral responsiveness, only one group experienced a categorical change in their state of consciousness allowing us to partially dissociate consciousness and behavioral responsiveness. We find the variance in network metrics to be systematically different across states of consciousness, both within and across groups. Specifically, at the first assessment, conscious patients exhibited significantly greater variance in network metrics than unconscious patients, a difference that disappeared once all patients had recovered consciousness. Furthermore, we find a significant increase in dynamics for patients who regained consciousness over time, but not for patients who only improved responsiveness. These findings suggest that changes in brain dynamics are indeed linked to the state of consciousness and not just to a general level of behavioral responsiveness.
Highlights
The embodiment of the brains’ billions of neurons creates a complex entity across space and time that allows the human mind to be conscious of itself and its environment
An increasing amount of studies suggest that brain dynamics measured with resting-state functional magnetic resonance imaging are related to the state of consciousness
The ANOVA testing the effects on general behavioral responsiveness as measured by the total score revealed a significant effect for group (F 1⁄4 4.398, P 1⁄4 0.044), for session (F 1⁄4 69.123, P < 0.001), and no interaction effect (F 1⁄4 0.629, P 1⁄4 0.434)
Summary
The embodiment of the brains’ billions of neurons creates a complex entity across space and time that allows the human mind to be conscious of itself and its environment. Despite major efforts in the past decades to understand neuronal mechanisms underlying processes of consciousness, our understanding of these complex relationships is still elusive. A large body of work demonstrates that the functional organization of brain regions including frontal and medial posterior areas, the thalamus, and the globus pallidus are altered in impaired states of consciousness in patients
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