Does Altitude of Birth Influence the Performance of National- to Elite-Level Colombian Cyclists?

in International Journal of Sports Physiology and Performance

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Mauricio Garzon School of Kinesiology and Physical Activity Sciences (EKSAP), Faculty of Medicine, Université de Montréal, Montréal, QC, Canada

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Jenaro Leguizamo Jenaro Sport Group & SaldaTraining, Sogamoso, Colombia

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Fernando Saldarriaga Jenaro Sport Group & SaldaTraining, Sogamoso, Colombia

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Edgar Galeano Sports Science Center, Colombian Ministry of Sports, Bogota, Colombia

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Grégoire P. Millet Institute of Sport Sciences, University of Lausanne, Lausanne, Switzerland

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DOI:
https://doi.org/10.1123/ijspp.2022-0245
Keywords:
hypoxia; cycling; power output; maximal oxygen consumption
First Published Online:
12 Nov 2022
In Print:
Volume 17: Issue 12
Page Range:
1756–1759
Restricted access

Objective: To determine whether the altitude of birth/childhood influences the values in peak power output (PPO) and estimated maximum oxygen uptake (estVO2max) in male Colombian road cyclists of different performance levels. This study also aimed to determine whether cyclists born at high altitudes tend to be more successful. Methods: Eighty riders aged between 17 and 22 years of 3 performance levels (U23 world-class level, WC, n = 8; U23 national level, N23, n = 41; junior national level, J, n = 31) and 3 altitude levels (<800 m, low; 800–2000 m, moderate; >2000 m, high) performed an ergocycle maximal incremental test to exhaustion at an altitude of 2570 m. Results: Altogether, while cyclists born at an altitude >2000 m represented ∼50% of the analyzed sample, there was a significantly higher proportion (84%) of these cyclists who had participated as professionals in a Grand Tour (χ2[1, N = 80] = 4.58, P < .05). Riders of the low group had lower values of PPO and estVO2max than cyclists of moderate and high altitudes, while no differences were noted between moderate- and high-altitude groups. In N23, PPO and estVO2max were lower in the low- than in the moderate-altitude group, while in the J cyclists, PPO and estVO2max were lower in the low-altitude compared with both moderate- and high-altitude groups. Discussion: Among the cyclists tested at altitude in junior and U23, there is an overrepresentation of individuals who reached an elite level and were born at a high altitude (>2000 m). As no clear differences were observed between moderate- and high-altitude cyclists, the higher prevalence of elite cyclists in the latter group may originate from various—still unclear—mechanisms.

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