Abstract
BackgroundPrevious work performed by our group demonstrated that intermittent reductions in bispectral index (BIS) values were found during neurofeedback following mindfulness instructions. Hypnosis was induced to enhance reductions in BIS values.ObjectiveThis study aims to assess physiologic relaxation and explore its associations with BIS values using autonomic monitoring.MethodsEach session consisted of reading a 4-minute baseline neutral script and playing an 18-minute hypnosis tape to 3 researchers involved in the BIS neurofeedback study. In addition to BIS monitoring, autonomic monitoring was performed, and this included measures of electromyography (EMG), skin temperature, skin conductance, respiratory rate, expired carbon dioxide, and heart rate variability. The resulting data were analyzed using two-tailed t tests, correlation analyses, and multivariate linear regression analyses.ResultsWe found that hypnosis was associated with reductions in BIS (P<.001), EMG (P<.001), respiratory rate (P<.001), skin conductance (P=.006), and very low frequency power (P=.04); it was also associated with increases in expired carbon dioxide (P<.001), skin temperature (P=.04), high frequency power (P<.001), and successive heart interbeat interval difference (P=.04) values. Decreased BIS values were associated with reduced EMG measures (R=0.76; P<.001), respiratory rate (R=0.35; P=.004), skin conductance (R=0.57; P<.001), and low frequency power (R=0.32; P=.01) and with increased high frequency power (R=−0.53; P<.001), successive heart interbeat interval difference (R=−0.32; P=.009), and heart interbeat interval SD (R=−0.26; P=.04) values.ConclusionsHypnosis appeared to induce mental and physical relaxation, enhance parasympathetic neural activation, and attenuate sympathetic nervous system activity, changes that were associated with BIS values. Findings from this preliminary formative evaluation suggest that the current hypnosis model may be useful for assessing autonomic physiological associations with changes in BIS values, thus motivating us to proceed with a larger investigation in trauma center nurses and physicians.
Highlights
Effects of Hypnosis on Brainwave PhysiologyMultiple investigations have shown that a hypnotic state can influence alterations in brainwave activity
The first 4-minute interparticipant variances were substantial for the following variables: expired carbon dioxide, respiratory rate, skin temperature, skin conductance, low frequency (LF) power, high frequency (HF) power, very low frequency (VLF) power, total power, RMSSD, and SDNN
These findings suggest that hypnosis may manifest as a state of mental and physical relaxation, enhance parasympathetic nervous system activation, and attenuate sympathetic nervous system activation, observations that were associated with reductions in bispectral index (BIS) values
Summary
Effects of Hypnosis on Brainwave PhysiologyMultiple investigations have shown that a hypnotic state can influence alterations in brainwave activity. Multiple studies have shown that hypnosis is associated with increased theta brainwave power [4,5,6] and enhanced alpha brainwave power [1,6] These brainwave alterations are indicative of a state of mental relaxation. Results: We found that hypnosis was associated with reductions in BIS (P
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