Austin Fagerberg scite author profile

Austin Fagerberg

2Publications

17Citation Statements Received

79Citation Statements Given

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Affiliations

The University of Texas Health Science Center

Publications

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Relative age effect: beyond the youth phenomenon

Joyner

Lewis

Mallon

et al. 2020

BMJ Open Sport Exerc Med

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IntroductionInitially described in a sports context in ice hockey in 1985, the relative age effect (RAE) refers to the performance advantages of youth born in the first quarter of the birth year when trying-out for select, age-restricted sports. The competitive advantage bestowed to the relatively older athlete in their age band is the result of the older athlete being more physically and emotionally mature. These more mature players will likely go on to be exposed to better coaching, competition, teammates and facilities in their respective sport.ObjectivesOur study sought to characterise the ubiquity of this effect by examining the birth distribution of some of the world’s most elite athletes, Olympians.MethodsWe extended the exploration of the RAE beyond specific sports by examining the birth quarter of over 44 000 Olympic athlete’s birthdates, born between 1964 and 1996. Our hypothesis was that the RAE would be prominent in both Olympic athletes as a whole and in selected subcategories of athletes.Results and ConclusionThe fractions of births in the first versus the fourth quarter were significantly different (p<0.001) from each other for the summer and winter Olympians, ball and non-ball sports, and team as well as individual sports. This significant difference was not gender specific. We found the general existence of the RAE in Olympic athletes regardless of global classification. Our findings suggest that coaching staff should be cognisant of the RAE when working with young athletes and should take relative age into consideration when evaluating a burgeoning athlete’s abilities.

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Stop the leak!: Mitigating potential exposure of aerosolized COVID-19 during laparoscopic surgery

Uecker

Fagerberg²,

Ahmad³

et al. 2020

Surg Endosc

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Background Viral particles have been shown to aerosolize into insufflated gas during laparoscopic surgery. In the operating room, this potentially exposes personnel to aerosolized viruses as well as carcinogens. In light of circumstances surrounding COVID-19 and a concern for the safety of healthcare professionals, our study seeks to quantify the volumes of gas leaked from dynamic interactions between laparoscopic instruments and the trocar port to better understand potential exposure to surgically aerosolized particles. Methods A custom setup was constructed to simulate an insufflated laparoscopic surgical cavity. Two surgical instrument use scenarios were examined to observe and quantify opportunities for insufflation gas leakage. Both scenarios considered multiple configurations of instrument and trocar port sizes/dimensions: (1) the full insertion and full removal of a laparoscopic instrument from the port and (2) the movement of the scope within the port, recognized as "dynamic interaction", which occurs nearly 100% of the time over the course of any procedure. Results For a 5 mm instrument in a 5 mm trocar, the average volume of gas leaked during dynamic interaction and full insertion/removal scenarios were 43.67 and 25.97 mL of gas, respectively. Volume of gas leaked for a 5 mm instrument in a 12 mm port averaged 41.32 mL and 29.47 for dynamic interaction vs. instrument insertion and removal. Similar patterns were shown with a 10 mm instrument in 12 mm port, with 55.68 mL for the dynamic interaction and 58.59 for the instrument insertion/removal. Conclusions Dynamic interactions and insertion/removal events between laparoscopic instruments and ports appear to contribute to consistent leakage of insufflated gas into the OR. Any measures possible taken to reduce OR gas leakage should be considered in light of the current COVID-19 pandemic. Minimizing laparoscope and instrument removal and replacement would be one strategy to mitigate gas leakage during laparoscopic surgery.

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