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Publication
Air ventilation effects during the stationary roller bicycle test
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Advisor(s)
Abstract(s)
Problem Statement: The aim of our study was to analyse the influence of body cooling through fan
airflow, in acute physiological responses of elite cyclists during a maximal progressive exercise with four stages.
Approach: Nine male cyclists, from the sub-23 and elite category (average age, 26.11 ± 5.11 years-old; average
weight, 68.69 ± 7.28 kg; average height, 172.87 ± 3.53 cm) performed, in random order, two discontinued
maximum cycling tests with progressive increments: one with fan airflow ~10km/h-1 (~3m.s-1), and the other
without it, with an initial load of 150 Watts (W), and an increase of 50 Wevery 6-minute long stage, until
exhaustion. In both test conditions, the heart rate (HR), oxygen consumption (VO2), blood lactate concentration
[La], tympanic temperature (TT), and rating of perceived exertion (RPE), were measured. Results: When the test
conditions were compared, no significant differences were found between the stages for HR and RPE.
Significant differences were noted for La, only at the 4th stage of the test (p=0.008). The VO2max was
significantly different between the protocols (p=0.004), with significant variations at stage 2 (p=0.033), and 3
(p=0.028). TT was significantly lower (p<0.05) during all the four stages of the protocol. With the exception of
HR, all the registered maximum values were significantly different (p>0.05) between the two test conditions and
were achieved in the stage in which each subject reached VO2max. Conclusions: The speed of airflow at ~10
km.h-1 does seem to induce significant variations in the acute physiological responses of elite cyclists, as seen
during a discontinued maximal progressive cycling test.
Description
Keywords
cycling performance body temperature oxygen consumption
Citation
Brito,J.; Costa,A,; Bento,P.; Garrido,N.; Reis,V.; Conceição,A. & Louro, H. (2017). Air ventilation effects during the stationary roller bicycle test. Journal of Physical Education and Sport, 17(1), 361-366.