Functional Changes in Brain Activity Using Hypnosis: A Systematic Review.
Thomas Gerhard WolfKarin Anna FaerberChristian RummelUlrike HalsbandGuglielmo Giuseppe CampusPublished in: Brain sciences (2022)
Hypnosis has proven a powerful method in indications such as pain control and anxiety reduction. As recently discussed, it has been yielding increased attention from medical/dental perspectives. This systematic review (PROSPERO-registration-ID-CRD42021259187) aimed to critically evaluate and discuss functional changes in brain activity using hypnosis by means of different imaging techniques. Randomized controlled trials, cohort, comparative, cross-sectional, evaluation and validation studies from three databases-Cochrane, Embase and Medline via PubMed from January 1979 to August 2021-were reviewed using an ad hoc prepared search string and following the Preferred Reporting Items for Systematic Review and Meta-Analyses (PRISMA) guidelines. A total of 10,404 articles were identified, 1194 duplicates were removed and 9190 papers were discarded after consulting article titles/abstracts. Ultimately, 20 papers were assessed for eligibility, and 20 papers were included after a hand search ( n total = 40). Despite a broad heterogenicity of included studies, evidence of functional changes in brain activity using hypnosis was identified. Electromyography (EMG) startle amplitudes result in greater activity in the frontal brain area; amplitudes using Somatosensory Event-Related Potentials (SERPs) showed similar results. Electroencephalography (EEG) oscillations of θ activity are positively associated with response to hypnosis. EEG results showed greater amplitudes for highly hypnotizable subjects over the left hemisphere. Less activity during hypnosis was observed in the insula and anterior cingulate cortex (ACC).
Keyphrases
- meta analyses
- functional connectivity
- systematic review
- resting state
- working memory
- randomized controlled trial
- cross sectional
- chronic pain
- high resolution
- healthcare
- white matter
- neuropathic pain
- spinal cord injury
- multiple sclerosis
- clinical practice
- case control
- mass spectrometry
- adverse drug
- subarachnoid hemorrhage
- artificial intelligence