Add to ORKGPurpose: The aim of this study was to compare asynchronous (ASY) arm cranking (cranks at 180° relative to each other) with synchronous (SYN) arm cranking (parallel crank setting) during the 30 s Wingate anaerobic test. Methods: Thirty-two physically active men (aged 22.1 ± 2.4 y) completed two Wingate tests (one ASY and one SYN) separated by 4 d in a randomized counterbalanced order. The Wingate tests were completed on a modified electromagnetically braked cycle ergometer. Performance measures assessed during the two tests include peak power, mean power, minimum power, time to peak power, rate to fatigue and maximum cadence (RPMmax). Blood lactate concentration was also measured before and 5 min after the tests. Results: Peak and mean power...
The Wingate Anaerobic Test is the most common method used to evaluate explosive power and anaerobic ...
PURPOSE: To determine if differences in power output exist between the seated versus standing positi...
The outcome of the Wingate test will be investigated for both power and endurance athletes in regard...
The purpose of this study was to compare submaximal physiological responses (oxygen uptake, ventilat...
We examined the effects of concomitant increases in crank rate and power output on incremental arm c...
This study aimed to compare performance measures acquired by two different Wingate Anaerobic Test sy...
This study investigated the effect of crank configuration on muscle activity and torque production d...
Purpose: To verify the hypothesis that the peak power (PP) of a Wingate test (WT) is an underestimat...
BACKGROUND: Originally, the cranks of a handcycle were mounted with a 180° phase shift (asynchronous...
WOS: 000267950800010The Wingate Anaerobic Test is the most common method used to evaluate explosive ...
PubMed ID: 21904246The 30-second, all-out Wingate test evaluates anaerobic performance using an uppe...
Introduction: Anaerobic power and capacity have been predominantly determined via the 30-second Wing...
Purpose To examine the effects of stage duration on power output (PO), oxygen uptake (VO2), and hear...
This pilot study compared oxygen consumption during arm crank and cycle ergometer tests in 15 women....
The Wingate Anaerobic Test is the most common method used to evaluate explosive power and anaerobic ...
PURPOSE: To determine if differences in power output exist between the seated versus standing positi...
The outcome of the Wingate test will be investigated for both power and endurance athletes in regard...
The purpose of this study was to compare submaximal physiological responses (oxygen uptake, ventilat...
We examined the effects of concomitant increases in crank rate and power output on incremental arm c...
This study aimed to compare performance measures acquired by two different Wingate Anaerobic Test sy...
This study investigated the effect of crank configuration on muscle activity and torque production d...
Purpose: To verify the hypothesis that the peak power (PP) of a Wingate test (WT) is an underestimat...
BACKGROUND: Originally, the cranks of a handcycle were mounted with a 180° phase shift (asynchronous...
WOS: 000267950800010The Wingate Anaerobic Test is the most common method used to evaluate explosive ...
PubMed ID: 21904246The 30-second, all-out Wingate test evaluates anaerobic performance using an uppe...
Introduction: Anaerobic power and capacity have been predominantly determined via the 30-second Wing...
Purpose To examine the effects of stage duration on power output (PO), oxygen uptake (VO2), and hear...
This pilot study compared oxygen consumption during arm crank and cycle ergometer tests in 15 women....
The Wingate Anaerobic Test is the most common method used to evaluate explosive power and anaerobic ...
PURPOSE: To determine if differences in power output exist between the seated versus standing positi...
The outcome of the Wingate test will be investigated for both power and endurance athletes in regard...