Purpose: The purpose of the present study was to profile the aerobic and anaerobic energy system contribution during high-speed treadmill exercise that simulated 200-, 400-, 800-, and 1500-m track running events.Methods: Twenty highly trained athletes (Australian National Standard) participated in the study, specializing in either the 200-m (N = 3), 400-m (N = 6), 800-m (N = 5), or 1500-m (N = 6) event (mean O2 peak [mL·kg-1·min-1] ± SD = 56 ± 2, 59 ± 1, 67 ± 1, and 72 ± 2, respectively). The relative aerobic and anaerobic energy system contribution was calculated using the accumulated oxygen deficit (AOD) method.Results: The relative contribution of the aerobic energy system to the 200-, 400...
There are 3 distinct yet closely integrated processes that operate together to satisfy the energy re...
Purpose: to investigate: 1) the role of V'O2max, fraction of it (F) and metabolic cost of transport ...
The main aim was to investigate the impact of maximal aerobic speed (MAS), maximal anaerobic speed (...
Purpose: The purpose of the present study was to profile the aerobic and anaerobic energy system con...
AIM: The present study set out to identify the relative contribution of the laboratory determined ph...
The purpose of the present study was to examine the relationship between energy expenditure (EE) and...
AIM: This study aimed to assess the mechanical and metabolic responses of competitive runners thro...
Middle-distance running events (800 and 1500m) require a unique interplay of aerobic and anaerobic e...
Background/objective: This study aims to compare the effect of sprint distance and repetition number...
International audienceWe investigated the oxygen uptake response (V·O2) to a 1500-m test conducted u...
Introduction: To date, no study has compared anaerobic capacity (AnC) estimates computed with the ma...
Introduction: To date, no study has compared anaerobic capacity (AnC) estimates computed with the ma...
AIM: The purpose of the study was to profile the oxygen uptake of sprinters during various portions ...
The rational energy allocation, energy transfer and the effective use of physiological energy of bod...
Given the ongoing interest in ways to improve the specificity of testing elite athletes in their nat...
There are 3 distinct yet closely integrated processes that operate together to satisfy the energy re...
Purpose: to investigate: 1) the role of V'O2max, fraction of it (F) and metabolic cost of transport ...
The main aim was to investigate the impact of maximal aerobic speed (MAS), maximal anaerobic speed (...
Purpose: The purpose of the present study was to profile the aerobic and anaerobic energy system con...
AIM: The present study set out to identify the relative contribution of the laboratory determined ph...
The purpose of the present study was to examine the relationship between energy expenditure (EE) and...
AIM: This study aimed to assess the mechanical and metabolic responses of competitive runners thro...
Middle-distance running events (800 and 1500m) require a unique interplay of aerobic and anaerobic e...
Background/objective: This study aims to compare the effect of sprint distance and repetition number...
International audienceWe investigated the oxygen uptake response (V·O2) to a 1500-m test conducted u...
Introduction: To date, no study has compared anaerobic capacity (AnC) estimates computed with the ma...
Introduction: To date, no study has compared anaerobic capacity (AnC) estimates computed with the ma...
AIM: The purpose of the study was to profile the oxygen uptake of sprinters during various portions ...
The rational energy allocation, energy transfer and the effective use of physiological energy of bod...
Given the ongoing interest in ways to improve the specificity of testing elite athletes in their nat...
There are 3 distinct yet closely integrated processes that operate together to satisfy the energy re...
Purpose: to investigate: 1) the role of V'O2max, fraction of it (F) and metabolic cost of transport ...
The main aim was to investigate the impact of maximal aerobic speed (MAS), maximal anaerobic speed (...
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