EP-07 METABOLISM AND NUTRITION The Effect Of Cannabidiol (CBD) On Exercise Physiology And Bioenergetics: A Randomised Controlled Pilot Trial 838 Sahinovic, Ayshe1; Irwin, Christopher2; Kevin, Richard C.1; Cox, Amanda J.2; Lau, Namson S.3; Desbrow, Ben2; Johnson, Nathan A.1; Sabag, Angelo4; Hislop, Matthew5; Haber, Paul S.1; McGregor, Iain S.1; McCartney, Danielle1 Author Information Medicine & Science in Sports & Exercise: August 2021 - Volume 53 - Issue 8S - p 280 doi: 10.1249/01.mss.0000762344.41349.83 FREE Metrics PURPOSE: Cannabidiol (CBD) may exert physiological and psychological effects that benefit athletes (e.g. protect against neurological damage; reduce inflammation, anxiety and pain) (McCartney et al. 2020). This pilot study investigated the effects of CBD on physiological responses to exercise to determine its practical utility within the sporting context.

METHODS: On two occasions, nine endurance-trained males (VO2max: 57.4 ± 4.0 mL·min-1·kg-1) ran for 60 mins at a fixed, moderate-intensity (70% VO2max) (RUN 1) before completing an incremental run to exhaustion (RUN 2) on an indoor treadmill (21.4 ± 0.4 °C). Participants received an oral dose of CBD (300 mg) or placebo 1.5 hrs prior to exercise in a randomised, double-blind, crossover design. Respiratory gases were sampled continuously between 24-32, 37-45 and 50-58 mins of submaximal exercise; heart rate (HR), ratings of perceived exertion (RPEs), ratings of pleasure-displeasure, blood glucose (BG) and lactate (BL) concentrations were measured at 20-min intervals. Blood was drawn at baseline, pre- and post-RUN 1, post-RUN 2 and 1 hr post-RUN 2.

RESULTS: CBD tended to increase submaximal oxygen consumption (+24 ± 13 mL·min-1, p = 0.094). No differences in HR, RPE, BG, BL, or respiratory exchange ratio were observed during submaximal exercise (p’s > 0.10); VO2max (CBD: 3987 ± 462; Placebo: 3868 ± 577 mL·min-1; p = 0.121) and time to exhaustion (CBD: 1286 ± 150; Placebo: 1246 ± 197 sec; p = 0.204) were also similar during the incremental run. CBD tended to increase ratings of pleasure at 20- (p = 0.050) and 40-mins (p = 0.065) of submaximal exercise. Serum interleukin (IL)-6, IL-1β, tumor necrosis factor-α, lipopolysaccharide and myoglobin concentrations increased from baseline with exercise (i.e., post-RUN 1, post-RUN 2 and/or 1 hr post-RUN 2, p’s < 0.05); however, the change was too small to reliably evaluate the effect of CBD. Plasma CBD concentrations were 0 ± 0, 3 ± 2, 77 ± 18, 164 ± 35 and 99 ± 26 ng.mL-1 at each respective time point.

CONCLUSIONS: These preliminary findings suggest that CBD has potential to alter physiological responses during exercise. Further research involving a larger participant sample is required to confirm and better understand these effects. McCartney, D. Benson, M. Desbrow, B. Irwin, C. Suraev, A. McGregor, I. (2020) Sports Medicine Open 6, 27.