There is concern that wearing a face mask during COVID will affect oxygen uptake, especially during intense exercise. COVID transmission is especially prevalent in sports such as hockey, where there is close contact between players and arena ventilation is poor. This study will assess the effect of wearing a surgical face mask on simulated hockey performance and blood and muscle oxygenation during cycling exercise.
The sport of ice hockey involves close contact between players in poorly ventilated arenas. This increases susceptibility for transmission of viruses, such as COVID-19. Face masks can reduce the risk of virus transmission; however, there is concern that wearing a face mask during exercise will reduce oxygen uptake or increase carbon dioxide re-breathing, which can result in low blood oxygen levels, reduced oxygen delivery to muscle and reduced exercise capacity. The purpose of the study is to determine the effect of wearing a surgical face mask during exercise that simulates ice hockey play on exercise performance and blood and muscle oxygenation in boys and girls. Twelve boys and twelve girls (age 9-14y) who are experienced playing hockey, will take part in this randomized cross-over study that will assess exercise performance, blood oxygenation (i.e. pulse oximetry) and muscle oxygenation (with near infrared spectroscopy) during an exercise test on a cycle ergometer with workloads and work to rest intervals that simulates hockey performance. Participants will also be tested for repeated-sprint performance on ice while wearing full hockey equipment. The conditions include no mask (a "sham" mask) and a surgical mask. Outcome variables include power output during the cycle ergometer testing, skating distance during the on-ice test, rating of perceived exertion, blood oxygen saturation levels, and oxygenated, deoxygenated, and total hemoglobin at the quadriceps muscle.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
26
Power output during 2 x 20s Wingate cycle tests and total distance during an on-ice skating test while wearing a face mask
Power output during 2 x 20s Wingate cycle tests and total distance during an on-ice skating test while wearing a face mask
University of Saskatchewan
Saskatoon, Saskatchewan, Canada
Change from baseline in average power output
Average power output in Watts during two 20 second Wingate tests
Time frame: Up to 40 seconds
Change from baseline in peak power output
Peak power output in Watts during two 20 second Wingate tests
Time frame: Up to 40 seconds
Change from baseline in on-ice sprint testing distance
Distance in meters covered during a repeated 20-meter sprint test that progressively increases in speed
Time frame: Up to 12 minutes
Change from baseline in blood oxygen saturation
Blood oxygen saturation (%) determined by pulse oximetry
Time frame: Up to 40 minutes
Change from baseline in quadriceps tissue oxygenation index
Tissue oxygenation index (oxygenated hemoglobin/total hemoglobin) as measured by near infra-red spectroscopy
Time frame: Up to 40 minutes
Change from baseline in rating of perceived exertion
Rating of perceived exertion on a scale of 1-10 (Modified Borg Scale), a higher score indicates a greater perceived exertion
Time frame: Up to 40 minutes
Change from baseline in heart rate
Heart rate (beats per minute)
Time frame: Up to 40 minutes
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