Human hedonic experience during thermal alliesthesia: A functional magnetic resonance imaging study

• Main Author: Dunn, Brian J.
• Format: Others
• Published: 2010
• Online Access: http://spectrum.library.concordia.ca/7035/1/DUNN_MA_S011.pdf; Dunn, Brian J. <http://spectrum.library.concordia.ca/view/creators/Dunn=3ABrian_J=2E=3A=3A.html> (2010) Human hedonic experience during thermal alliesthesia: A functional magnetic resonance imaging study. Masters thesis, Concordia University.

The primary aim of the present experiment was to distinguish and map the hemodynamic correlates of hedonic experience using functional magnetic resonance imaging (fMRI). To accomplish this, we exploited a functional distinction between thermosensory perception and hedonic valuation. We used a water-perfused suit, both to deviate core temperature and to deliver thermal stimulation to the skin. We acquired two fMRI scans of each participant, under opposite core temperature deviations, in a single experimental session. During each scan we alternated the temperature of the circulating water in the suit from hot to cold every 2.25 minutes, for 18 minutes. Participants rated their thermal comfort and the suit temperature on 11-point Likert scales during alternating nine-second epochs. The critical feature of our design is that the hedonic sequence was the same in the two scans whereas the sequence of peripheral thermal stimuli and the core temperature deviations were opposite. We present behavioral evidence that the opposite sequences of thermal stimuli induced a common pattern of hedonic experience. Concurrent hedonic ratings tracked the blood oxygenation level dependent (BOLD) signal recorded from spatially conjoint volume elements in pairs of scans from the same individuals. In cross subject mixed effects analyses, we grouped the functional scans acquired under each core temperature deviation. We then used a conjunction analysis of the group statistical maps to identify common hemodynamic correlates of the pattern of hedonic experience in bothscans. Spatially conjoint (i.e., co-localized) BOLD signal correlates of the hedonic ratings were observed in bilateral subregions of the orbitomedial prefrontal cortex (OMPFC). A second analysis, based on a normative model of hedonic response, yielded spatially conjoint BOLD signal correlates in a more broadly distributed area of the OMPFC,including the subgenual cingulate and bilateral temporal poles.