Sarah S Farabi1, Bharati Prasad2, Lauretta Quinn3, David W Carley4. 1. Center for Narcolepsy, Sleep and Health Research. 2. Center for Narcolepsy, Sleep and Health Research ; Department of Medicine. 3. Department of Biobehavioral Health Science. 4. Center for Narcolepsy, Sleep and Health Research ; Department of Medicine ; Department of Biobehavioral Health Science ; Department of Bioengineering, University of Illinois at Chicago, Chicago, IL.
Abstract
STUDY OBJECTIVES: To determine the effects of dronabinol on quantitative electroencephalogram (EEG) markers of the sleep process, including power distribution and ultradian cycling in 15 patients with obstructive sleep apnea (OSA). METHODS: EEG (C4-A1) relative power (% total) in the delta, theta, alpha, and sigma bands was quantified by fast Fourier transformation (FFT) over 28-second intervals. An activation ratio (AR = [alpha + sigma] / [delta + theta]) also was computed for each interval. To assess ultradian rhythms, the best-fitting cosine wave was determined for AR and each frequency band in each polysomnogram (PSG). RESULTS: Fifteen subjects were included in the analysis. Dronabinol was associated with significantly increased theta power (p = 0.002). During the first half of the night, dronabinol decreased sigma power (p = 0.03) and AR (p = 0.03), and increased theta power (p = 0.0006). At increasing dronabinol doses, ultradian rhythms accounted for a greater fraction of EEG power variance in the delta band (p = 0.04) and AR (p = 0.03). Females had higher amplitude ultradian rhythms than males (theta: p = 0.01; sigma: p = 0.01). Decreasing AHI was associated with increasing ultradian rhythm amplitudes (sigma: p < 0.001; AR: p = 0.02). At the end of treatment, lower relative power in the theta band (p = 0.02) and lower AHI (p = 0.05) correlated with a greater decrease in sleepiness from baseline. CONCLUSIONS: This exploratory study demonstrates that in individuals with OSA, dronabinol treatment may yield a shift in EEG power toward delta and theta frequencies and a strengthening of ultradian rhythms in the sleep EEG.
STUDY OBJECTIVES: To determine the effects of dronabinol on quantitative electroencephalogram (EEG) markers of the sleep process, including power distribution and ultradian cycling in 15 patients with obstructive sleep apnea (OSA). METHODS: EEG (C4-A1) relative power (% total) in the delta, theta, alpha, and sigma bands was quantified by fast Fourier transformation (FFT) over 28-second intervals. An activation ratio (AR = [alpha + sigma] / [delta + theta]) also was computed for each interval. To assess ultradian rhythms, the best-fitting cosine wave was determined for AR and each frequency band in each polysomnogram (PSG). RESULTS: Fifteen subjects were included in the analysis. Dronabinol was associated with significantly increased theta power (p = 0.002). During the first half of the night, dronabinol decreased sigma power (p = 0.03) and AR (p = 0.03), and increased theta power (p = 0.0006). At increasing dronabinol doses, ultradian rhythms accounted for a greater fraction of EEG power variance in the delta band (p = 0.04) and AR (p = 0.03). Females had higher amplitude ultradian rhythms than males (theta: p = 0.01; sigma: p = 0.01). Decreasing AHI was associated with increasing ultradian rhythm amplitudes (sigma: p < 0.001; AR: p = 0.02). At the end of treatment, lower relative power in the theta band (p = 0.02) and lower AHI (p = 0.05) correlated with a greater decrease in sleepiness from baseline. CONCLUSIONS: This exploratory study demonstrates that in individuals with OSA, dronabinol treatment may yield a shift in EEG power toward delta and theta frequencies and a strengthening of ultradian rhythms in the sleep EEG.
Authors: Matt T Bianchi; Nathaniel A Eiseman; Sydney S Cash; Joseph Mietus; Chung-Kang Peng; Robert J Thomas Journal: J Sleep Res Date: 2011-09-28 Impact factor: 3.981
Authors: Eugene W Schwilke; David M Schwope; Erin L Karschner; Ross H Lowe; William D Darwin; Deanna L Kelly; Robert S Goodwin; David A Gorelick; Marilyn A Huestis Journal: Clin Chem Date: 2009-10-15 Impact factor: 8.327
Authors: Terri E Weaver; Michael W Calik; Sarah S Farabi; Anne M Fink; Maria T Galang-Boquiren; Mary C Kapella; Bharati Prasad; David W Carley Journal: Nat Sci Sleep Date: 2014-11-18