Perception of Exercise-Induced Bronchoconstriction in College Athletes

Discussion

The purpose of this study was to evaluate the prevalence and perceived impact of EIB in college athletes by a self-report questionnaire administered during routine team meetings. This study demonstrated that we could collect data from a majority (84%) of questionnaires distributed to athletes on 8 different sports teams. Results of our study indicate that we may improve the burden of EIB in college athletes by: (1) educating athletes, trainers, coaches, and parents about EIB; (2) helping in the development of accurate EIB screening programs, and (3) assuring the proper treatment of EIB-positive athletes to mitigate associated morbidity and mortality.

The result of this study suggests that about 29% of college athletes report a past history of EIB or asthma. This is on the high end of the range (10–31%) recorded in past studies, including self-reports on prevalence of EIB in athlete populations.^11,12,15,16 In addition, 47% of the athletes in this study perceived symptoms of EIB. These data raise concern that some athletes may not be appropriately screened and may potentially be experiencing silent episodes of EIB, resulting in possible long-term respiratory health complications and a potential fatal event.

Many athletes may fail to report symptoms suggestive of EIB and do not seek medical care to undergo a formal diagnosis. This may be attributed to athletes' lack of awareness of symptoms and their association with EIB. Rather than recognizing the potential of having EIB, athletes may consider their symptoms to be indicative of poor conditioning or a bad training day. As a result, athletes may continue to experience silent episodes of EIB. A previous study demonstrated that only 14% (6 of 42) of the college athletes who tested positive for EIB reported a prior history of EIB or asthma.¹² However, 36% (15 of 42) of those same athletes who were found to be EIB-positive reported symptoms when presented a questionnaire on EIB. Similarly, our findings support the theory that athletes may not seek medical attention when symptoms occur, since 33% of the athletes reporting symptoms of EIB in our study did not report a positive history of asthma or EIB. This supports the idea that athletes may attribute EIB symptoms to a cause other than respiratory issues. These findings suggest that specialists in respiratory care need to do a better job at teaching awareness of EIB to athletes, coaches, trainers, and parents. As previously mentioned, this can be critically relevant, since a vast majority (81%) of EIB deaths were in the college athlete age group or younger.¹⁰

Evidence-based guidelines recommend the prophylactic use of a short-acting bronchodilator (β₂ agonists) shortly before exercise as the main therapeutic treatment for EIB,¹⁷ when warm-up prior to intense activity does not permit a refractory period. Another practice for reducing the need to rely on pharmacologic treatment is the athletes' awareness of environmental triggers, including cold dry air, pool and turf chemicals, and poor air quality days. When pharmacologic treatment is necessary, the National Athletic Trainers Association guidelines suggest that athletic trainers in direct contact with athletes should understand the use, misuse, and abuse of β₂ agonists.¹³ A previous study showed that tachaphylaxis was associated with a β adrenergic drug when treating bronchoconstriction in EIB subjects.¹⁸ Although guidelines support the use of β₂ agonists to minimize or prevent symptoms of asthma, asthma patients may not adhere to their prescribed medication treatment.¹⁹ Our study revealed that 25% (14 of 56) of the athletes who indicated a history of asthma or EIB did not report taking any asthma medication. More work is needed to educate the sports community and determine the barriers for the adverse effects, abuse, and non-use of asthma medications in athletes.

EIB can reduce participation in sports and may have a negative effect on an athlete's quality of life. Valued life activities, including participation in sports, have been reported to be negatively impacted by asthma and associated with asthma-specific quality of life.²⁰ Our findings showed that almost 10% (19 of 196) of the athletes reported concern that asthma may be affecting their sports performance. It is possible that EIB symptoms may be affecting the college athletes' quality of life, but more qualitative work is needed to investigate such a relationship. Furthermore, it is unknown whether sports performance will improve after an EIB athlete is accurately diagnosed and properly treated.

Some athletes may continue to present with EIB symptoms although they test negative during an adequate exercise challenge test. As a result, it has been suggested that a second EIB challenge is necessary to improve the sensitivity of the challenge test.²¹ Also, consideration of a differential diagnosis should be made when an athlete continues to present with symptoms of EIB after testing negative. Symptoms that may mimic EIB include vocal cord dysfunction, overtraining syndrome, right to left shunt, and even hyperventilation syndrome.²²

The present study has some limitations. The prevalence data collected is from self-reported questionnaires while we prepared to perform standardized EIB testing on the same athletes. This study used a convenience sample of athletes from a single university. We did not test athletes from all sports, so our data may not be representative of athletes on all teams. Larger studies are needed to provide a better generalization of the college athletic population and investigate any differences between sports.