NEUROVASCULAR COUPLING AND CEREBROVASCULAR HAEMODYNAIMCS ARE MODIFIED BY EXERCISE TRAINING STATUS AT DIFFERENT STAGES OF MATURATION DURING YOUTH.

Abstract

Neurovascular coupling (NVC) is mediated via nitric oxide signalling, which is independently influenced by sex hormones and exercise training. Whether exercise training differentially modifies NVC pre- vs. post-puberty, where levels of circulating sex hormones will differ greatly within- and between-sexes, remains to be determined. Therefore, we investigated the influence of exercise training-status on resting intra-cranial haemodynamics and NVC at different stages of maturation. Posterior and middle cerebral artery velocities (PCAv and MCAv) and pulsatility index (PCAPI and MCAPI) were assessed via trans-cranial Doppler ultrasound at rest and during visual NVC stimuli. N=121 exercise-trained (males: n=32, females: n=32) and untrained (males: n=28, females: n=29) participants were characterised as pre- (males: n=33, females: n=29) or post- (males: n=27, females: n=32) peak height velocity (PHV). Exercise-trained youth demonstrated higher resting MCAv (P=0.010). Maturity- and training-status did not affect the ∆PCAv and ∆MCAv during NVC. However, pre-PHV untrained males (19.4±13.5 vs. 6.8±6.0%; P≤0.001) and females (19.3±10.8 vs. 6.4±7.1%; P≤0.001) had a higher ∆PCAPI during NVC than post-PHV untrained counterparts, while the ∆PCAPI was similar in pre- and post-PHV trained youth. Pre-PHV untrained males (19.4±13.5 vs. 7.9±6.0%; P≤0.001) and females (19.3±10.8 vs 11.1±7.3%; P=0.016) also had a larger ∆PCAPI than their pre-PHV trained counterparts during NVC, but the ∆PCAPI was similar in trained and untrained post-PHV youth. Collectively, our data indicate that exercise training elevates regional cerebral blood velocities during youth, but training-mediated adaptations in NVC are only attainable during early stages of adolescence. Therefore, childhood provides a unique opportunity for exercise-mediated adaptations in NVC.