Brigitte Bogert scite author profile

Musical emotions, such as happiness and sadness, have been investigated using instrumental music devoid of linguistic content. However, pop and rock, the most common musical genres, utilize lyrics for conveying emotions. Using participants’ self-selected musical excerpts, we studied their behavior and brain responses to elucidate how lyrics interact with musical emotion processing, as reflected by emotion recognition and activation of limbic areas involved in affective experience. We extracted samples from subjects’ selections of sad and happy pieces and sorted them according to the presence of lyrics. Acoustic feature analysis showed that music with lyrics differed from music without lyrics in spectral centroid, a feature related to perceptual brightness, whereas sad music with lyrics did not diverge from happy music without lyrics, indicating the role of other factors in emotion classification. Behavioral ratings revealed that happy music without lyrics induced stronger positive emotions than happy music with lyrics. We also acquired functional magnetic resonance imaging data while subjects performed affective tasks regarding the music. First, using ecological and acoustically variable stimuli, we broadened previous findings about the brain processing of musical emotions and of songs versus instrumental music. Additionally, contrasts between sad music with versus without lyrics recruited the parahippocampal gyrus, the amygdala, the claustrum, the putamen, the precentral gyrus, the medial and inferior frontal gyri (including Broca’s area), and the auditory cortex, while the reverse contrast produced no activations. Happy music without lyrics activated structures of the limbic system and the right pars opercularis of the inferior frontal gyrus, whereas auditory regions alone responded to happy music with lyrics. These findings point to the role of acoustic cues for the experience of happiness in music and to the importance of lyrics for sad musical emotions.

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Maladaptive and adaptive emotion regulation through music: a behavioral and neuroimaging study of males and females

Carlson

Saarikallio

Toiviainen

et al. 2015

Front. Hum. Neurosci.

121

129

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Music therapists use guided affect regulation in the treatment of mood disorders. However, self-directed uses of music in affect regulation are not fully understood. Some uses of music may have negative effects on mental health, as can non-music regulation strategies, such as rumination. Psychological testing and functional magnetic resonance imaging (fMRI) were used explore music listening strategies in relation to mental health. Participants (n = 123) were assessed for depression, anxiety and Neuroticism, and uses of Music in Mood Regulation (MMR). Neural responses to music were measured in the medial prefrontal cortex (mPFC) in a subset of participants (n = 56). Discharge, using music to express negative emotions, related to increased anxiety and Neuroticism in all participants and particularly in males. Males high in Discharge showed decreased activity of mPFC during music listening compared with those using less Discharge. Females high in Diversion, using music to distract from negative emotions, showed more mPFC activity than females using less Diversion. These results suggest that the use of Discharge strategy can be associated with maladaptive patterns of emotional regulation, and may even have long-term negative effects on mental health. This finding has real-world applications in psychotherapy and particularly in clinical music therapy.

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It's Sad but I Like It: The Neural Dissociation Between Musical Emotions and Liking in Experts and Laypersons

Brattico

Bogert

Alluri

et al. 2016

Front. Hum. Neurosci.

131

118

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Emotion-related areas of the brain, such as the medial frontal cortices, amygdala, and striatum, are activated during listening to sad or happy music as well as during listening to pleasurable music. Indeed, in music, like in other arts, sad and happy emotions might co-exist and be distinct from emotions of pleasure or enjoyment. Here we aimed at discerning the neural correlates of sadness or happiness in music as opposed those related to musical enjoyment. We further investigated whether musical expertise modulates the neural activity during affective listening of music. To these aims, 13 musicians and 16 non-musicians brought to the lab their most liked and disliked musical pieces with a happy and sad connotation. Based on a listening test, we selected the most representative 18 sec excerpts of the emotions of interest for each individual participant. Functional magnetic resonance imaging (fMRI) recordings were obtained while subjects listened to and rated the excerpts. The cortico-thalamo-striatal reward circuit and motor areas were more active during liked than disliked music, whereas only the auditory cortex and the right amygdala were more active for disliked over liked music. These results discern the brain structures responsible for the perception of sad and happy emotions in music from those related to musical enjoyment. We also obtained novel evidence for functional differences in the limbic system associated with musical expertise, by showing enhanced liking-related activity in fronto-insular and cingulate areas in musicians.

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The reliability of continuous brain responses during naturalistic listening to music

et al. 2016

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Musical expertise modulates functional connectivity of limbic regions during continuous music listening.

Alluri

Brattico

Toiviainen

et al. 2015

Psychomusicology: Music, Mind, and Brain

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Recent neural studies have established 3 limbic regions, namely the amygdala, the hippocampus, and the nucleus accumbens (NAc), as the fundamental nodes of the neural circuit responsible for experiencing musical emotions. Here we investigate how musical expertise modulates this circuit during continuous music listening. Eighteen nonmusicians and 21 musicians were measured with functional MRI (fMRI) while they listened to three 8-min long musical pieces representing different musical styles (tango nuevo, modern classical, and progressive rock). Functional connectivity maps of seeds belonging to the amygdala, hippocampus, and NAc were obtained for each participant. Group-level t tests revealed that, overall, musicians exhibited enhanced connectivity with the supplementary motor area (SMA), and with ventromedial and ventrolateral cerebral and cerebellar affective regions. On the contrary, nonmusicians displayed greater connectivity with subcortical regions only. We found the amygdala network previously associated with perceiving negative valence in music to be more tightly coupled in musicians than nonmusicians. Similarly, the hippocampal network previously related to tracking repeating musical motifs during continuous music listening was more coupled in musicians. The lack of group differences observed for right NAc connectivity reinforce the notion that the mesocorticolimbic reward network is not modulated by musical expertise, whereas left NAc connectivity results suggest that musical expertise intensifies the rewarding aspect of music selectively in the left hemisphere. In sum, during music listening musicians' deep perceptual and motoric knowledge of music increases the coupling between areas that process musical emotions with areas that process motor commands and pleasure.

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Brigitte Bogert

A Functional MRI Study of Happy and Sad Emotions in Music with and without Lyrics

Maladaptive and adaptive emotion regulation through music: a behavioral and neuroimaging study of males and females

It's Sad but I Like It: The Neural Dissociation Between Musical Emotions and Liking in Experts and Laypersons

The reliability of continuous brain responses during naturalistic listening to music

Musical expertise modulates functional connectivity of limbic regions during continuous music listening.

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