Abstract
Growing evidence suggests that internal factors influence how we perceive the world. However, it remains unclear whether and how motivational states, such as hunger and satiety, regulate perceptual decision-making in the olfactory domain. Here, we developed a novel behavioral task involving mixtures of food and nonfood odors (i.e., cinnamon bun and cedar; pizza and pine) to assess olfactory perceptual decision-making in humans. Participants completed the task before and after eating a meal that matched one of the food odors, allowing us to compare perception of meal-matched and non-matched odors across fasted and sated states. We found that participants were less likely to perceive meal-matched, but not non-matched, odors as food dominant in the sated state. Moreover, functional magnetic resonance imaging (fMRI) data revealed neural changes that paralleled these behavioral effects. Namely, odor-evoked fMRI responses in olfactory/limbic brain regions were altered after the meal, such that neural patterns for meal-matched odor pairs were less discriminable and less food-like than their non-matched counterparts. Our findings demonstrate that olfactory perceptual decision-making is biased by motivational state in an odor-specific manner and highlight a potential brain mechanism underlying this adaptive behavior.
Highlights
Sensory perception is typically thought to reflect physical reality, but closer examination often thwarts this notion
Participants were presented with an odor mixture, and they had to decide whether the food or nonfood component was dominant in the mixture (Fig 1B)
In line with our hypothesis, we found that the support vector machine (SVM) classifier was less likely to identify postmeal odor mixture patterns as food-like for the meal-matched odor pair compared to the nonmatched odor pair in left and right olfactory/limbic region of interest (ROI) (left: t(29) = 2.57, p = 0.02; right: t(29) = 3.78, p < 0.001; Figs 5B, 5C and S6)
Summary
Sensory perception is typically thought to reflect physical reality, but closer examination often thwarts this notion. The way we perceive the world can depend on various motivational factors. Evidence for such “motivated perception” has been shown in the visual domain, where human participants are more likely to perceive cues that are motivationally salient [1,2,3,4]. The olfactory system shares substantial anatomical overlap with the limbic system [5], and prior work suggests that odor perception and its neural correlates are remarkably flexible [6,7]. Odor percepts can be shaped by associative learning [8,9,10], expectations [11], and selective attention [12,13]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
