Saddle Height and Cadence Effects on the Physiological, Perceptual, and Affective Responses of Recreational Cyclists

Saddle height influences cycling performance and would be expected to influence cyclists physically, perceptually, and emotionally. We investigated how different saddle positions and cadences might affect cyclists’ torque, heart rate, rate of perceived exertion (RPE), and affective responses (Feelin...

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Bibliographic Details
Published in:Perceptual and motor skills 2018-10, Vol.125 (5), p.923-938
Main Authors: Kruschewsky, Alberto B., Dellagrana, Rodolfo A., Rossato, Mateus, Ribeiro, Luiz Fernando P., Lazzari, Caetano D., Diefenthaeler, Fernando
Format: Article
Language:English
Subjects:
Adult
Bicycling
Bicycling - physiology
Bicycling - psychology
Exercise - psychology
Exercise Test
Heart rate
Heart Rate - physiology
Humans
Male
Oxygen Consumption - physiology
Perception
Physical Endurance
Physical Exertion
Posture
Torque
Young Adult
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Summary:Saddle height influences cycling performance and would be expected to influence cyclists physically, perceptually, and emotionally. We investigated how different saddle positions and cadences might affect cyclists’ torque, heart rate, rate of perceived exertion (RPE), and affective responses (Feeling scale). Nine male recreational cyclists underwent cycling sessions on different days under different conditions with a constant load. On Day 1, the saddle was at the reference position (109% of the distance from the pubic symphysis to the ground), and on Days 2 and 3, the saddle was in the “upward position” (reference + 2.5%) and “downward position” (reference − 2.5%) in random order. Each session lasted 30 minutes and was divided into three cadence-varied 10-minute stages without interruption: (a) freely chosen cadence (FCC), (b) FCC − 20%, and (c) FCC + 20%. We assessed all dependent measures at the end of each 10 minute stage. While there was no significant interaction (Saddle × Cadence) for any of the analyzed variables, torque values were higher at lower cadences in all saddle configurations, and the FCC + 20% cadence was associated with faster heart rate, higher RPE, and lower affect compared with FCC and FCC − 20% in all saddle positions. At all cadences, the saddle at “downward position” generated a higher RPE compared with “reference position” and “upward position.” The affective response was lower in the “downward position” compared with the “reference position.” Thus, while cyclists perceived the downward (versus reference) saddle position as greater exercise effort, they also associated it with unpleasant affect.
ISSN:0031-5125
1558-688X
DOI:10.1177/0031512518786803