Sleep Deprivation Clinical Trial
Official title:
Olfactory Contributions to Sleep-dependent Food Craving and Calorie Intake
This within-subject experiment uses one night of acute sleep restriction (4h) vs normal sleep (8h) to study state-dependent changes in olfactory processing. Odor-evoked blood oxygen level dependent (BOLD) responses will be measured in olfactory brain regions using functional magnetic resonance imaging (fMRI). Food intake will be measured at a buffet.
This randomized within-subject sleep-deprivation protocol is designed to examine the effects
of reduced sleep on neural processing of food odors in olfactory brain areas. Subjects will
be healthy, normal-weight subjects (N=30) with comparable regular sleep patterns. They will
be pseudorandomly assigned to first participate in either the sleep deprived (SD) or the
non-deprived (ND) session, and then undergo a 7-day sleep stabilization phase during which
subjects will maintain a regular sleep schedule of 8 h (within pre-determined range of 10:30
pm to 7:30 am). After sleep stabilization, subjects will either sleep normally (ND, 8h
between 11pm and 7am), or sleep for only for 4h (SD, between 1am and 5am), at home. During
the sleep stabilization phase and the night of sleep deprivation, sleep duration, as well as
sleep and wakeup time will be recorded using actigraphy (ActiGraph, LLC, Pensacola, Florida).
All subjects will participate in both sessions (SD and ND) with the two sessions being
separated by 4 weeks. In the evening of the next day, olfactory fMRI will be conducted after
dinner. Isocaloric meals will be provided during the 24h before fMRI and no beverages other
than water will be permitted. After fMRI, subjects will have ad libitum access to
high-caloric snacks in the form of an all-you-can-eat buffet.
During initial screening, subjects will rate the pleasantness of six food odors, including
three high-caloric sweet odors (caramel, yellow cake, ginger bread) and three high-caloric
savory odors (potato chips, pot roast, garlic butter). Based on each participant's ratings,
two sweet and two savory odors that are matched in pleasantness will be selected. In
addition, two non-food control odors (fir needle and celery seed) will be used. On the
evening after the sleep manipulation, subjects will arrive at the imaging center at 5:15pm,
and will consume an isocaloric dinner at 6pm before entering the scanner at 7pm. Neuroimaging
will be performed on a Siemens PRISMA system with a 64 channel head/neck coil, using imaging
sequences optimized for signal recovery in olfactory and orbitofrontal cortices. Subjects
will participate in 4 runs of olfactory stimulation inside the scanner and BOLD responses
will be acquired with high spatial (2 mm isotopic) and temporal resolution (2000 ms). On each
trial, subjects will be visually cued to sniff, and an odor (food or non-food) or
non-odorized air will be delivered. Subsequently, subjects will rate the pleasantness or the
intensity of the odor (pseudo-randomized). Sniffing will be measured using an fMRI-compatible
breathing belt and spirometer. A high-resolution anatomical image will be acquired for the
purpose of spatial normalization and anatomical localization of the fMRI responses.
Upon arrival at the imaging center, a study study nurse will insert an intravenous sterile
heparin-lock catheter in the left forearm vein and initiate blood sampling. Blood will be
drawn every 30 min after arrival, resulting in 5 samples: before dinner, after dinner, before
fMRI, during fMRI, and after fMRI.
At the completion of fMRI, participants will be provided with a buffet where they have ad
libitum access to high-caloric food items (sweet [mini muffins, cinnamon buns, chocolate chip
cookies, and doughnut holes] and savory high-calorie snacks [pizza bites, potato chips, hash
browns, garlic bread]). Subjects will be instructed to consume as much food as they like. All
food items will be weighed pre- and post-consumption, and the consumed calories will be
calculated.
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