Journal Article Neural correlates of mirth and laughter: a direct electrical cortical stimulation study.

Yamao, Yukihiro  ,  Matsumoto, Riki  ,  Kunieda, Takeharu  ,  Shibata, Sumiya  ,  Shimotake, Akihiro  ,  Kikuchi, Takayuki  ,  Satow, Takeshi  ,  Mikuni, Nobuhiro  ,  Fukuyama, Hidenao  ,  Ikeda, Akio  ,  Miyamoto, Susumu

66pp.134 - 140 , 2015-05 , Elsevier Ltd.
ISSN:0010-9452
NCID:AA00619737
Description
Laughter consists of both motor and emotional aspects. The emotional component, known as mirth, is usually associated with the motor component, namely, bilateral facial movements. Previous electrical cortical stimulation (ES) studies revealed that mirth was associated with the basal temporal cortex, inferior frontal cortex, and medial frontal cortex. Functional neuroimaging implicated a role for the left inferior frontal and bilateral temporal cortices in humor processing. However, the neural origins and pathways linking mirth with facial movements are still unclear. We hereby report two cases with temporal lobe epilepsy undergoing subdural electrode implantation in whom ES of the left basal temporal cortex elicited both mirth and laughter-related facial muscle movements. In one case with normal hippocampus, high-frequency ES consistently caused contralateral facial movement, followed by bilateral facial movements with mirth. In contrast, in another case with hippocampal sclerosis (HS), ES elicited only mirth at low intensity and short duration, and eventually laughter at higher intensity and longer duration. In both cases, the basal temporal language area (BTLA) was located within or adjacent to the cortex where ES produced mirth. In conclusion, the present direct ES study demonstrated that 1) mirth had a close relationship with language function, 2) intact mesial temporal structures were actively engaged in the beginning of facial movements associated with mirth, and 3) these emotion-related facial movements had contralateral dominance.
Full-Text

http://repository.kulib.kyoto-u.ac.jp/dspace/bitstream/2433/210373/1/j.cortex.2014.11.008.pdf

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