Peak Eccentric Cycling Exercise and Cardiorespiratory Responses to Normobaric Hypoxia Versus Normobaric Normoxia in Healthy Adults: A Randomized, Controlled Crossover Trial
Carmen Wick, Esther Constam, Simon R. Schneider, Anna Titz, Michael Furian, Mona Lichtblau, Silvia Ulrich, Julian Müller

TL;DR
The study compares how the body responds to different types of cycling exercises in normal and low-oxygen conditions, finding that eccentric cycling has a lower metabolic cost than concentric cycling.
Contribution
The study identifies optimal submaximal eccentric cycling intensities and confirms the lower metabolic cost of ECC compared to CON in normoxia.
Findings
V’O2 and cardiopulmonary parameters remain unchanged during ECC in hypoxia compared to normoxia.
Participants achieved higher workloads and greater V’O2 consumption during concentric cycling compared to eccentric cycling at comparable watts.
Optimal submaximal ECC intensities are around 40% of peak V’O2.
Abstract
Background/Objectives: Pulmonary rehabilitation clinics are traditionally located at higher altitudes (HAs), where lower PO2 reduces exercise capacity and blood oxygenation. Eccentric cycling exercise (ECC), with its lower cardiorespiratory demand compared to concentric cycling (CON), might therefore be a potential advantageous training modality at HAs, particularly for individuals with reduced exercise capacity. This study aimed to compare the cardiorespiratory responses of ECC while breathing normoxic versus hypoxic gas in healthy participants. Methods: This randomized, controlled crossover trial involved healthy participants performing CON in normoxia (FiO2 = 0.21), followed by two incremental ECC tests until 70–100% of peak exercise, one with normoxia and one with normobaric hypoxia (FiO2 = 0.15), in a randomized order. Oxygen uptake (V’O2) and additional outcomes were measured…
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Taxonomy
TopicsHigh Altitude and Hypoxia · Cardiovascular and exercise physiology · Heart Rate Variability and Autonomic Control
