Recovery of consciousness and cognition after general anesthesia in humans

Autor: Hannah R. Maybrier, Michael S. Avidan, Randall Hardie, Mathias Basner, Giancarlo Vanini, Duan Li, Goodarz Golmirzaie, Vijay Tarnal, Ben Ja Palanca, Kaitlyn Maier, George A. Mashour, Marlon Schwartz, Andrew R. McKinstry-Wu, Max B. Kelz, Maxwell R. Muench, Wei Wang, Rosemary Hogg, Nan Lin, E. Andrew Ochroch, Ellen Janke, Stefanie Blain-Moraes, Paul Picton
Jazyk: angličtina
Rok vydání: 2021
Předmět:
Male
cognition
Brain activity and meditation
Unconsciousness
Electroencephalography
consciousness
0302 clinical medicine
030202 anesthesiology
Medicine
Biology (General)
media_common
Isoflurane
medicine.diagnostic_test
frontal cortex
General Neuroscience
Brain
Cognition
General Medicine
Human brain
medicine.anatomical_structure
Anesthesia
Female
medicine.symptom
Research Article
Human
medicine.drug
Adult
QH301-705.5
media_common.quotation_subject
Science
Anesthesia
General
anesthesia
General Biochemistry
Genetics and Molecular Biology
Arousal
03 medical and health sciences
Humans
Coma
General Immunology and Microbiology
Working memory
business.industry
Actigraphy
Anesthesia Recovery Period
Neurocognitive Tests
Anesthetic
Delirium
Consciousness
business
030217 neurology & neurosurgery
Neuroscience
Zdroj: eLife, Vol 10 (2021)
eLife
Popis: Understanding how the brain recovers from unconsciousness can inform neurobiological theories of consciousness and guide clinical investigation. To address this question, we conducted a multicenter study of 60 healthy humans, half of whom received general anesthesia for 3 hr and half of whom served as awake controls. We administered a battery of neurocognitive tests and recorded electroencephalography to assess cortical dynamics. We hypothesized that recovery of consciousness and cognition is an extended process, with differential recovery of cognitive functions that would commence with return of responsiveness and end with return of executive function, mediated by prefrontal cortex. We found that, just prior to the recovery of consciousness, frontal-parietal dynamics returned to baseline. Consistent with our hypothesis, cognitive reconstitution after anesthesia evolved over time. Contrary to our hypothesis, executive function returned first. Early engagement of prefrontal cortex in recovery of consciousness and cognition is consistent with global neuronal workspace theory.
eLife digest Anesthesia is a state of reversable, controlled unconsciousness. It has enabled countless medical procedures. But it also serves as a tool for scientists to study how the brain regains consciousness after disruptions such as sleep, coma or medical procedures requiring general anesthesia. It is still unclear how exactly the brain regains consciousness, and less so, why some patients do not recover normally after general anesthesia or fail to recover from brain injury. To find out more, Mashour et al. studied the patterns of reemerging consciousness and cognitive function in 30 healthy adults who underwent general anesthesia for three hours. While the volunteers were under anesthesia, their brain activity was measured with an EEG; and their sleep-wake activity was measured before and after the experiment. Each participant took part in a series of cognitive tests designed to measure the reaction speed, memory and other functions before receiving anesthesia, right after the return of consciousness, and then every 30 minutes thereafter. Thirty healthy volunteers who did not have anesthesia also completed the scans and tests as a comparison group. The experiments showed that certain normal EEG patterns resumed just before a person wakes up from anesthesia. The return of thinking abilities was an extended, multistep process, but volunteers recovered their cognitive abilities to nearly the same level as the volunteers within three hours of being deeply anesthetized. Mashour et al. also unexpectedly found that abstract problem-solving resumes early in the process, while other functions such as reaction time and attention took longer to recover. This makes sense from an evolutionary perspective. Sleep leaves individuals vulnerable. Quick evaluation and decision-making skills would be key to respond to a threat upon waking. The experiments confirm that the front of the brain, which handles thinking and decision-making, was especially active around the time of recovery. This suggests that therapies targeting this part of the brain may help people who experience loss of consciousness after a brain injury or have difficulties waking up after anesthesia. Moreover, disorders of cognition, such as delirium, in the days following surgery may be caused by factors other than the lingering effects of anesthetic drugs on the brain.
Databáze: OpenAIRE
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