key: cord-0687420-20uivmjx authors: Adams, William M.; Périard, Julien D. title: Returning to Sport Following COVID-19: Considerations for Heat Acclimatization in Secondary School Athletics date: 2020-06-13 journal: Sports Med DOI: 10.1007/s40279-020-01301-z sha: 73c1c1c17a8820474f8fe1aee7b06399947c705b doc_id: 687420 cord_uid: 20uivmjx nan The cataclysmic events that have taken place across the globe as a result of the COVID-19 pandemic have infiltrated every aspect of society, including sport. As many places around the world are either beginning to observe or are on a downward descent of "flattening of the curve", local, regional/state and national leaders have initiated steps to lift various stay-at-home orders and resume normal activities. With the recommencement of sanctioned athletic events over the upcoming summer months within the Northern Hemisphere, increased caution must be taken by clinicians, administrators, coaches and other stakeholders to ensure that proper procedures are in place to reduce the risk of injury, particularly at the secondary school level. The prolonged dormancy of secondary school student-athletes as a result of the current global pandemic, in combination with extreme heat observed during the summer months, also places these individuals at increased risk of exertional heat stroke (EHS), thus necessitating increased scrutiny toward optimizing EHS-related risk-reduction strategies. Heat acclimatization, repeated bouts of exercise in a hot environment eliciting an increase of whole-body body temperature and profuse sweating, permits a series of thermoregulatory and cardiovascular adaptations that improve one's tolerance to exercise in the heat [1] . Within team-based sports (e.g. soccer, cross country, and American Football), current recommendations [2, 3] encourage a 10-14 day gradual progression to full activity in outoor environments that takes into consideration the duration and volume of activity, as well as protective equipment that is worn in respective sports to mitigate the risk of EHS. Recent evidence shows that when these recommendations are mandated at the state/ organizational level for secondary school athletics, a risk reduction rate of 55% is observed for exertional heat illness [4] . Of particular concern surrounding the resumption of secondary school athletics is the overall risk profile for student-athletes returning to sport. It can be presumed that the extensive societal restrictions placed on individuals to aid in controlling the COVID-19 pandemic will result in an extended period time of potential inactivity and limited passive heat exposure amongst a large number of secondary school student-athletes. Prior literature has found that low physical fitness and being overweight was prevalent in 77% and 64% of EHS cases, respectively [5] . Evidence also suggests that the initial 2-3 days of training in a hot environment poses the greatest risk of exertional heat illness [6] , hence the early season gradual progression to full activity heat acclimatization recommendation [2, 3] . However, adopting an alternative approach to heat acclimatization within secondary school athletics following the COVID-19 pandemic may be necessary to account for the aforementioned concerns related to the student-athlete EHS risk profile. Endurance training to enhance cardiovascular fitness provides partial physiological benefits in the realm of heat acclimatization, as evidenced by studies showing that 4-8 weeks of aerobic-based training in temperate conditions improved physiological (i.e., lower heart rate) and thermoregulatory (i.e., increased sweat rate and decreased rate of rise of internal body temperature) responses, when exposed to a thermally stressful environment [7, 8] . Prolonging the heat acclimatization period from 10-14 to 17-24 days, with the first 7-10 days focused specifically on improving cardiovascular fitness (i.e., exercise acclimatization), may provide an environment that is conducive to improving the health and safety of student-athletes. Although 7-10 days of endurance and circuit training might only initiate the adaptive process relative to 4-8 weeks of training, it may allow for an easier transition to training in the heat and reduce the risk of exertional heat illness. Furthermore, to avoid or minimize the added thermal strain imposed by exposure to a hot environment during the initial 7-10 days of exercise acclimatization, considerations should be made to conducting these training sessions in a cool environment (e.g., indoors). Progressively increasing the total length of training permitted during this period should also be considered (e.g., from 45 to 90 min of training instead of the recommended maximum of 3 h [2]) (Fig. 1) . Given the variability which health and safety policies are implemented within secondary school athletics [9] , it is imperative that the sports medicine clinician assumes the position of providing oversight for the education and implementation of the heat acclimatization procedures at the secondary school level. Furthermore, taking a more conservative approach to heat acclimatization by extending the duration of this period to focus on improving cardiovascular fitness prior to full heat exposure would allow for a safer transition back to sport for the secondary school student-athlete. Author Contributions WMA and JDP contributed to the conception, writing, critical revision, and approval of the submitted work. Conflict of interest William Adams has a potential conflict of interest as a recipient of royalties from Springer Nature for a text on exertional Fig. 1 Modified heat acclimatization guidelines for secondary school sports. Days 1-10 are dedicated to improving aerobic fitness through endurance (e.g. cycling and/or running) and circuit training activities in cool conditions. The volume of training should gradually increase from 45 to 90 min over this period with intensity kept at low to moderate levels. Days 11-24 are dedicated to heat acclimatization. During days 11-15, athletes may not participate in more than 1 practice per day and total practice time may not exceed 3 h. During days 11-12 of heat-acclimatization, in sports requiring helmets or shoulder pads, a helmet should be the only protective equipment permitted. During days 13-15, only helmets and shoulder pads should be worn. Beginning on day 16, all protective equipment may be worn and full con-tact may begin. For American Football, contact with blocking sleds and tackling dummies may be initiated on days 13-15, whereas 100% live contact drills should begin no earlier than day 16 for full-contact sports. Beginning no earlier than day 16 and continuing through day 24, double-practice days must be followed by a single-practice day. On a double-practice day, neither practice should exceed 3 h and a daily maximum of no more than 5 h of total practice time. The 2 practices should be separated by at least 3 continuous hours in a cool environment. Warm-up, stretching, cool-down, walk-through, conditioning and resistance training are considered practice time. HR max maximum heart rate, RPE rating of perceived exertion heat illness for which he is the editor. Julien Périard has no potential conflicts of interest relevant to the content of this article. Funding No sources of funding were used to assist in the preparation of this article. Adaptations and mechanisms of human heat acclimation: applications for competitive athletes and sports Inter-Association Task Force for Preseason Secondary School Athletics Participants, et al. 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