Thermal, physiological and perceptual strain mediate alterations in match-play tennis under heat stress

Périard, Julien D.; Racinais, Sébastien; Knez, Wade L.; Herrera, Christopher Paul; Christian, Ryan; Girard, Olivier

doi:10.1136/bjsports-2013-093063

Cited by 63 publications

(92 citation statements)

References 36 publications

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“…Compared with other field studies, this is similar to the average peak core temperature reported in footballers playing at an ambient temperature of 43°C6 and tennis players in 37°C 7. Most (85%) of the cyclists participating in the study reached a core temperature of at least 39°C and 25% reached 40°C (figure 1).…”

Section: Discussionsupporting

confidence: 83%

Core temperature up to 41.5ºC during the UCI Road Cycling World Championships in the heat

et al. 2018

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ObjectiveTo characterise the core temperature response and power output profile of elite male and female cyclists during the 2016 UCI Road World Championships. This may contribute to formulating environmental heat stress policies.MethodsCore temperature was recorded via an ingestible capsule in 10, 15 and 15 cyclists during the team time trial (TTT), individual time trial (ITT) and road race (RR), respectively. Power output and heart rate were extracted from individual cycling computers. Ambient conditions in direct sunlight were hot (37°C±3°C) but dry (25%±16% relative humidity), corresponding to a wet-bulb globe temperature of 27°C±2°C.ResultsCore temperature increased during all races (p<0.001), reaching higher peak values in TTT (39.8°C±0.9°C) and ITT (39.8°C±0.4°C), relative to RR (39.2°C±0.4°C, p<0.001). The highest temperature recorded was 41.5°C (TTT). Power output was significantly higher during TTT (4.7±0.3 W/kg) and ITT (4.9±0.5 W/kg) than RR (2.7±0.4 W/kg, p<0.001). Heart rate increased during the TTs (p<0.001) while power output decreased (p<0.001).Conclusion85% of the cyclists participating in the study (ie, 34 of 40) reached a core temperature of at least 39°C with 25% (ie, 10 of 40) exceeding 40°C. Higher core temperatures were reached during the time trials than the RR.

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Section: Discussionsupporting

confidence: 83%

Core temperature up to 41.5ºC during the UCI Road Cycling World Championships in the heat

et al. 2018

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“…Hornery et al (2007) support this theory despite converse relations between hard and clay courts and conclude that further physiological variables need to be considered, for example temperature. This assumption is in accordance with the findings of Périard et al (2014), who investigate the influence of heat on inter alia match play characteristics. The twelve participants of their study, male players of different performance levels, took on average a 9.6 second longer break between two points in hot conditions.…”

Section: Introductionsupporting

confidence: 91%

A closer look at the prevalence of time rule violations and the inter-point time in men’s Grand Slam tennis

Kolbinger

Großmann

Lames

2019

JSA

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Abstract. Paragraph 29a of the official ITF Rules of Tennis sets a limit of 20 seconds for the time players can take between points. This study investigates the prevalence of violations of this rule, the corresponding umpire's behavior and factors that influence the inter-point time in general. Regression analysis of 3475 serves of the 2016 Australian Open Men's Singles tournament showed an autonomous influence on the variance of the inter-point for the serving player, the duration of the previous rally, the service game, the current scoring streak and the importance of the point. The average time between points was 21.5 seconds and time rule violations were found for 58.5% of the serves. Only two (0.1%) of these rule violations were penalized by the umpire, with the punished incidents occurring after 23.5 and 25.6 seconds, representing the 65.9th and the 78.1th percentile respectively of the detected inter-point times. Thus, we concluded that the current rule is not just applied too lax but also capriciously. Based on the detected influences on the time between points we suggest various adaptions of the rule, e.g. a dynamic time limit based on the duration of the previous rally, as well as ways to improve the enforcement of the rule, e.g. technological officiating aids.

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“…Although the mechanisms behind this were previously not suggested, this could be 5 plausible due to the associations between increases in body temperature and water retention mechanisms (Takamata et al 1995). Increases in body temperature has also been associated with perceptual triggers that may cause behavioural changes such as timing and extent of fluid intake to alleviate the anticipated thermoregulatory onslaught (Phillips et al 1984;Johnson et al 2010;Periard et al 2014). This is similar to that which has been seen between thermal discomfort and pacing strategies in the heat (Cheung 2010;Schlader et al 2011).…”

Section: Introductionsupporting

confidence: 61%

Why do team-sport athletes drink fluid in excess when exercising in cool conditions?

Bargh

King

Gray

et al. 2017

Appl. Physiol. Nutr. Metab.

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This study assessed the potential physiological and perceptual drivers of fluid intake (FI) and thirst sensation (TS) during intermittent exercise. 10 male rugby players (17 ± 1 years, stature:179.1 ± 4.2 cm, body mass (BM): 81.9 ± 8.1 kg) participated in 6x6 min small-sided games, ∆TS and FI was observed (r = 0.085, p = 0.841). These data observed in an ambient temperature of 13.6 ± 0.9C, suggest team sport athletes drink in excess of fluid homeostasis requirements and TS in cool conditions, however this was not influence by thermal discomfort.

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Thermal, physiological and perceptual strain mediate alterations in match-play tennis under heat stress

Cited by 63 publications

References 36 publications

Core temperature up to 41.5ºC during the UCI Road Cycling World Championships in the heat

Core temperature up to 41.5ºC during the UCI Road Cycling World Championships in the heat

A closer look at the prevalence of time rule violations and the inter-point time in men’s Grand Slam tennis

Why do team-sport athletes drink fluid in excess when exercising in cool conditions?

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