Frontal medial cortex and angular gyrus functional connectivity is related to sex and age differences in odor sensitivity

Abstract Background and Purpose Odor preference is one of the key factors for the rehabilitation of the swallowing function. On the other hand, sensitivity to odor differs between sexes and decreases with age. These factors rely on brain neuronal circuits. However, it remains not fully clarified which neuronal circuit determines the sex and age differences in odor sensitivity. In this study, we carried out both the odor sensitivity test and functional MRI (fMRI) to find the key neuronal circuits determining sex and age differences in odor sensitivity. Methods Healthy volunteers (28 males, aged 27‐62 years, and 30 females, aged 21‐59 years) participated in this study. Some of them (seven males and seven females) underwent fMRI. We prepared five odorous test substances and presented each substance at 1 minute intervals. After 5 minutes of questioning about food intake, the subjects were asked to recall each of the test substances presented from the list. In the fMRI study, all the subjects underwent 15 minutes of the prestimulation, stimulation with peppermint odor, and poststimulation sessions. Results The odor test score was significantly higher in females than in males and showed an age‐dependent decrease. We found four functional connectivities whose degrees were significantly different between males and females. One of them, the functional connectivity between the frontal medial cortex (MedFC) and the left angular gyrus (AG. l), showed an age‐dependent change. Conclusions The functional MedFC‐AG.l connectivity is one of the important neuronal circuits that affect the sex‐ and age‐dependent odor sensitivity.