Effects of inertial setting on power, force, work and eccentric overload during flywheel resistance exercise in women and men

Effects of inertial setting on power, force, work and eccentric overload during flywheel resistance exercise in women and men

ABSTRACTExercise load is a key component in determining end-point adaptations to resistance exercise. Yet, there is no information regarding the use of different inertia (i.e. loads) during iso-inertial flywheel resistance exercise, a very popular high-intensity training model. Thus, this study exam...

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Bibliographic Details
Published in:Journal of strength and conditioning research Vol. 31; no. 6; pp. 1653 - 1661
Main Authors: Martinez-Aranda, Luis Manuel, Fernandez-Gonzalo, Rodrigo
Format: Journal Article
Language:English
Published: United States Copyright by the National Strength & Conditioning Association 01-06-2017
Lippincott Williams & Wilkins Ovid Technologies
Subjects:
Adaptation
Athletes
Exercise
Knee
Medical personnel
Medicin och hälsovetenskap
Skeletal muscle
Strength training
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Summary:ABSTRACTExercise load is a key component in determining end-point adaptations to resistance exercise. Yet, there is no information regarding the use of different inertia (i.e. loads) during iso-inertial flywheel resistance exercise, a very popular high-intensity training model. Thus, this study examined power, work, force and eccentric-overload produced during flywheel resistance exercise with different inertial settings in men and women. Twenty-two women (n=11) and men (n=11) performed unilateral (in both legs) isolated concentric (CON) and coupled CON and eccentric (ECC) exercise in a flywheel knee extension device employing six inertias (0.0125, 0.025, 0.0375, 0.05, 0.075, 0.1 kg*m). Power decreased as higher inertias were used, with men showing greater (P< 0.05) decrements than women (-36% vs. -29% from lowest to highest inertia). In contrast, work increased as higher inertias were employed, independent of sex (P<0.05; ∼48% from lowest to highest inertia). Women increased CON and ECC mean force (46-55%, respectively) more (P<0.05) than men (34-50%, respectively) from the lowest to the highest inertia evaluated, although the opposite was found for peak force data (i.e. peak force increased more in men than in women as inertia was increased). Men, but not women, increased ECC overload from inertia 0.0125 to 0.0375 kg*m. While estimated stretch-shorting cycle use during flywheel exercise was higher (P<0.05) in men (6.6%) than women (4.9%), values were greater for both sexes when using low to -medium inertias. The information gained in this study could help athletes and sport and health professionals to better understand the impact of different inertial settings on skeletal muscle responses to flywheel resistance exercise.
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ISSN:1064-8011
1533-4287
1533-4287
DOI:10.1519/JSC.0000000000001635