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- Title
Mixed-Method Precooling Enhances Self-Paced 20-km Cycling Time-Trial Performance When Apparent Temperature Is >46 °C but May Not Be a Priority in <46 °C.
- Authors
Ramos, Julian Andro P.; Ducker, Kagan J.; Riddell, Hugh; Girard, Olivier; Landers, Grant J.; Brade, Carly J.
- Abstract
Purpose: Precooling (PreC) may only benefit performance when thermal strain experienced by an individual is sufficiently high. We explored the effect of mixed-method PreC on 20-km cycling time-trial (CTT) performance under 3 different apparent temperatures (AT). Methods: On separate days, 12 trained or highly trained male cyclists/triathletes completed six 20-km CTTs in 3 different ATs: hot-dry (35 °C AT), moderately hot-humid (40 °C AT), and hot-humid (46 °C AT). All trials were preceded by 30 minutes of mixed-method PreC or no PreC (control [CON]). Results: Faster 2.5-km-split completion times occurred in PreC compared with CON in 46 °C AT (P =.02), but not in 40 °C AT (P =.62) or 35 °C AT (P =.57). PreC did not affect rectal and body temperature during the 20-km CTT. Skin temperature was lower throughout the CTT in PreC compared with CON in 46 °C AT (P =.01), but not in 40 °C AT (P = 1.00) and 35 °C AT (P = 1.00). Heart rate had a greater rate of increase during the CTT for PreC compared with CON in 46 °C AT (P =.01), but not in 40 °C AT (P =.57) and 35 °C AT (P = 1.00). Ratings of perceived exertion (P <.001) and thermal comfort (P =.04) were lower for PreC compared with CON in 46 °C AT only, while thermal sensation was not different between PreC and CON. Conclusion: Mixed-method PreC should be applied prior to 20-km CTTs conducted in hot-humid conditions (≥46 °C AT). Alternatively, mixed-method PreC may be a priority in moderately hot-humid (∼40 °C AT) conditions but should not be in hot-dry (∼35 °C AT) conditions for 20-km CTT.
- Subjects
SKIN temperature; STATISTICAL models; BODY temperature regulation; DATA analysis; ENVIRONMENTAL monitoring; RESEARCH funding; ENDURANCE sports; PERSPIRATION; DESCRIPTIVE statistics; EXERCISE intensity; CYCLING; ATHLETES; HUMIDITY; BODY temperature; HYDRATION; PHYSICAL fitness; RESEARCH methodology; INTRACLASS correlation; STATISTICS; ATHLETIC ability; TEMPERATURE; ANTHROPOMETRY; HUMAN comfort; CONFIDENCE intervals; WARMUP; REGRESSION analysis; TIME
- Publication
International Journal of Sports Physiology & Performance, 2024, Vol 19, Issue 5, p435
- ISSN
1555-0265
- Publication type
Article
- DOI
10.1123/ijspp.2023-0331