Cerebrovascular function response to prolonged sitting combined with a high‐glycemic index meal: A double‐blind, randomized cross‐over trial
Kathryn Burnet, Jade Blackwell, Elizabeth Kelsch, Erik D. Hanson, Keeron Stone, Simon Fryer, Daniel P. Credeur, Priya Palta, Lee Stoner
Abstract
Abstract Acute prolonged sitting leads to cerebrovascular disruptions. However, it is unclear how prolonged sitting interacts with other common behaviors, including high‐ (HGI) and low‐glycemic index (LGI) meals. Using a double‐blind randomized cross‐over design, this study evaluated the effects of prolonged (3 hr) sitting, with a high‐ (HGI; GI: 100) or low‐glycemic index (LGI; GI: 19) meal on total brain blood flow (Q Brain ) and executive function. Eighteen young, healthy, active participants (22.6 [3.1] y, 33% F, 24.3 [3.7] kg/m 2 ) sat for 3 hr after consuming an HGI or LGI meal. Using Doppler ultrasound to measure internal carotid (ICA) and vertebral (VA) artery blood flow, Q Brain was calculated: (ICA blood flow + VA blood flow) × 2. Executive function was assessed using the Stroop Test and Trail Making Test—Part B. Brain fog was measured using a modified Borg Category Scale with Ratio properties (CR10). Following 3 hr of sitting, there was a significant decrease in Q Brain with time ( p = .001, ES = −0.26), though there were nonsignificant interaction ( p = .216) and condition effects ( p = .174). Brain fog increased ( p = .024, ES = 0.27) and Stroop reaction time worsened with time ( p = .001, ES: −0.40), though there were nonsignificant condition effects for brain fog ( p = .612) and the Stroop test ( p = .445). There was a nonsignificant condition effect ( p = .729) for the Trail Making Test—Part B, but completion time improved with time ( p = .001, ES = −0.40). In conclusion, 3 hr of prolonged sitting decreases Q Brain and executive function independent of glycemic index in young, healthy adults.