Brain activation areas of sexual arousal with olfactory stimulation in men: A preliminary study using functional MRI
J Huh, K Park, IS Hwang, SI Jung… - The Journal of …, 2008 - academic.oup.com
J Huh, K Park, IS Hwang, SI Jung, HJ Kim, TW Chung, GW Jeong
The Journal of Sexual Medicine, 2008•academic.oup.comIntroduction There have been extensive studies evaluating the functional neuroanatomy of
the brain during visual sexual stimulation. However, little data exist concerning the role of
olfactory stimulation in human sexuality. Aim This preliminary study intended to elucidate the
brain areas responding to an olfactory sexual stimulus using functional magnetic resonance
imaging (fMRI). Methods Eight healthy right-handed heterosexual male volunteers (20–35
years of age), having normal olfaction and no brain diseases, were recruited. During fMRI, a …
the brain during visual sexual stimulation. However, little data exist concerning the role of
olfactory stimulation in human sexuality. Aim This preliminary study intended to elucidate the
brain areas responding to an olfactory sexual stimulus using functional magnetic resonance
imaging (fMRI). Methods Eight healthy right-handed heterosexual male volunteers (20–35
years of age), having normal olfaction and no brain diseases, were recruited. During fMRI, a …
Introduction
There have been extensive studies evaluating the functional neuroanatomy of the brain during visual sexual stimulation. However, little data exist concerning the role of olfactory stimulation in human sexuality.
Aim
This preliminary study intended to elucidate the brain areas responding to an olfactory sexual stimulus using functional magnetic resonance imaging (fMRI).
Methods
Eight healthy right-handed heterosexual male volunteers (20–35 years of age), having normal olfaction and no brain diseases, were recruited. During fMRI, a women's perfume was given as an olfactory sexual stimulant in an alternating block design with a 30-second stimulation period followed by a 30-second rest. After the fMRI sessions, the participants provided ratings for both the odorant's intensity and perceived arousal.
Main Outcome Measures
The study subjects rated the odorant stimulation and perceived sexual arousal response by Likert-type rating scales. Brain activation maps were made by blood oxygenation level-dependent (BOLD)-based fMRI with an echo-planar imaging pulse sequence.
Results
Two out of eight subjects experienced “strong” sexual arousal, and three subjects experienced “moderate” arousal during olfactory stimulation, resulting in a mean score of 2.25 on a 4-point scale. The common brain areas activated in response to the odor stimulus in all eight subjects included the insula, the inferior and middle frontal gyrus, and the hypothalamus. The median cingulate gyrus, thalamus, angular gyrus, lingual gyrus, and cerebellar cortex were activated in subjects who had moderate or strong sexual arousal response.
Conclusion
Olfactory stimulation with women's perfume produces the activation of specific brain areas in men. The brain areas activated differed according to the degree of perceived sexual arousal response. Further studies are needed to elucidate brain activation response according to the different kinds and intensities of olfactory stimulation.
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