Abstract
Music-induced brain activity modulations in areas involved in emotion regulation may be useful in achieving therapeutic outcomes. Clinical applications of music may involve prolonged or repeated exposures to music. However, the variability of the observed brain activity patterns in repeated exposures to music is not well understood. We hypothesized that multiple exposures to the same music would elicit more consistent activity patterns than exposure to different music. In this study, the temporal and spatial variability of cerebral prefrontal hemodynamic response was investigated across multiple exposures to self-selected musical excerpts in 10 healthy adults. The hemodynamic changes were measured using prefrontal cortex near infrared spectroscopy and represented by instantaneous phase values. Based on spatial and temporal characteristics of these observed hemodynamic changes, we defined a consistency index to represent variability across these domains. The consistency index across repeated exposures to the same piece of music was compared to the consistency index corresponding to prefrontal activity from randomly matched non-identical musical excerpts. Consistency indexes were significantly different for identical versus non-identical musical excerpts when comparing a subset of repetitions. When all four exposures were compared, no significant difference was observed between the consistency indexes of randomly matched non-identical musical excerpts and the consistency index corresponding to repetitions of the same musical excerpts. This observation suggests the existence of only partial consistency between repeated exposures to the same musical excerpt, which may stem from the role of the prefrontal cortex in regulating other cognitive and emotional processes.
Highlights
Music is capable of modulating brain activity in regions involved in emotional processing [1] in addition to brain areas associated with auditory perception
The current results were obtained using near-infrared spectroscopy (NIRS) which is suited for prolonged monitoring of prefrontal cortex hemodynamics in naturalistic studies
The hemodynamic response variability were significantly different for identical versus non-identical musical excerpts when comparing a subset of repetitions
Summary
Music is capable of modulating brain activity in regions involved in emotional processing [1] (e.g. amygdale, frontal and prefrontal cortex) in addition to brain areas associated with auditory perception. Music-induced activity modulations, observed in areas associated with emotional processing (e.g. amygdale, frontal and prefrontal cortex), has motivated the use of music as an intervention for individuals experiencing anxiety or depression symptoms [5,6]. In a randomized control trial, Chan et al reported a significant decrease in self-reported depression level due to exposure to music in older adults [7]. In a study by Vachiramon et al, exposure to music during surgery resulted in reduced anxiety levels [8]. The results of this study indicated a significant decrease in anxiety score levels and a significant reduction in the intensity and frequency of sedation in the group exposed to music compared to the group receiving usual care
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