The effects of pre- and per-cooling interventions used in isolation and combination on subsequent 15-minute time-trial cycling performance in the heat

Objectives: To investigate the effects of pre-and per-cooling interventions on subsequent 15-min time-trial (TT) cycling performance in the heat.Design: Randomized cross-over design.Methods: Nine male athletes completed four experimental trials in the heat (40 degrees C, 50% rh): no-cooling (CON); warm-up per-cooling (PER: neck-cooling collar applied during the preload); pre-cooling (PRE: 30 min of cold water (22 degrees C) immersion [CWI]); and pre-and per-cooling combined (PRE + PER). In each trial, participants completed a 45-min preload exercise (50% VO2peak), followed by a 15-min TT. Physiological (rectal [T-re], skin [T-sk], and neck [T-neck] temperature, and heart rate [HR]) and perceptual data (ratings of perceived exertion [RPE], thermal comfort [TC] and thermal sensation [TS]) were measured throughout.Results: T-re and T-sk were lower in PRE and PRE + PER at the start of the preload (p < 0.001). T-re remained lower throughout the preload following CWI although these differences were no longer present at the start of the TT (p = 0.22). T-neck was lowered throughout in PER and PRE + PER (p < 0.001). No other physiological or perceptual differences were observed at the start or end of the preload or TT. Participants covered a similar TT distance in all trials (15.7-15.9 km, p = 0.77).Conclusions: Pre-cooling induced thermoregulatory benefits for similar to 45 min and perceptual benefits for the same duration when supplemented with per-cooling. Neck per-cooling offered no such benefits when used in isolation. Neither pre-nor per-cooling, in isolation or combination, improved subsequent 15-min cycling time-trial performance in well-trained participants in the heat (40 degrees C). (C) 2021 Sports Medicine Australia. Published by Elsevier Ltd. All rights reserved.