Clinical Takeaway
Athletes using broad-spectrum CBD supplements risk testing positive for WADA-prohibited cannabinoids such as CBG and CBDV, even when the product contains only trace amounts of those compounds. Ten weeks of daily use at 150 mg per day produced detectable urinary concentrations of prohibited cannabinoids, with exercise further amplifying this effect. Athletes subject to anti-doping rules should be aware that “broad-spectrum” does not mean free of prohibited substances.
#20 Daily Use of a Broad-Spectrum Cannabidiol Supplement Produces Detectable Concentrations of Cannabinoids in Urine Prohibited by the World Anti-Doping Agency: An Effect Amplified by Exercise.
Citation: Gillham Scott H et al.. Daily Use of a Broad-Spectrum Cannabidiol Supplement Produces Detectable Concentrations of Cannabinoids in Urine Prohibited by the World Anti-Doping Agency: An Effect Amplified by Exercise.. Medicine and science in sports and exercise. 2026. PMID: 40920736.
Design: 5 Journal: 0 N: 1 Recency: 3 Pop: 2 Human: 1 Risk: -2
Quality Gate Alerts:
- Preclinical only
Methodological Considerations:
- Small sample โ underpowered for subgroup analysis
Abstract: BACKGROUND: Cannabidiol (CBD), a non-intoxicating phytocannabinoid, is used by athletes to enhance recovery and manage other conditions (e.g., poor sleep, anxiety). Although CBD is not prohibited by the World Anti-Doping Agency (WADA), other cannabinoids found in “broad-spectrum” CBD products (e.g., cannabigerol (CBG), cannabidivarin (CBDV)), remain prohibited. OBJECTIVES: This study aimed to determine whether 10-wk use of a broad-spectrum CBD product (150 mgยทday -1 (containing trace concentrations of CBG)) could lead to detectable concentrations of prohibited cannabinoids in urine and plasma. The influence of moderate-intensity exercise was also assessed. METHODS: Thirty-six healthy individuals (47% male) self-administered either a broad-spectrum CBD product ( n = 31, CBD) or a visually identical placebo ( n = 5, PLA) for 10 wk. After 10 wk, participants completed a fasted, 90-min bout of moderate-intensity exercise (55% VฬO 2peak ). Blood and urine samples were collected at baseline (presupplementation) and pre- and postexercise. RESULTS: No cannabinoids or metabolites were detected at baseline in either the PLA or CBD group. Following 10 wk of supplementation, urinary concentrations of CBD and its metabolites (6-OH-CBD, 7-COOH-CBD, 7-OH-CBD) were present. CBG and CBDV were also detected in 42% and 68% of preexercise samples, respectively. Urinary concentrations of 6-OH-CBD ( P = 0.006), 7-OH-CBD ( P = 0.009), CBD ( P = 0.043), CBG ( P = 0.0023), and CBDV ( P = 0.033) also increased from pre- to postexercise. CBG and CBDV were detected in 74% and 84% of postexercise samples, respectively. Concentrations of โ 9 -THC or its metabolites (11-OH-THC, 11-COOH-THC) were not present at any timepoint. CONCLUSIONS: Daily use of a broad-spectrum CBD supplement resulted in detectable urinary concentrations of WADA-prohibited cannabinoids in urine. Exercise appeared to increase concentrations of these cannabinoids. Therefore, athletes should avoid consuming broad-spectrum CBD
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