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Robert W Sallberg

Showing results (1-10 of 7) with videos related to

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Sports Medicine (Auckland, N.Z.)|December 11, 2025
Non-Specific Strength Changes Between High- and Low-Load Isotonic Resistance Training: A Systematic Review and Meta-AnalysisWilliam B Hammert, Ryo Kataoka, Yujiro Yamada, et al.
Journal of Sports Sciences|May 17, 2026
Inter-individual variability in pain perception and sensitivity responses to low-load exercise with an absolute or relative blood flow restriction pressureYujiro Yamada, Anna Kang, William B Hammert, et al.
Applied Physiology, Nutrition, and Metabolism = Physiologie Appliquee, Nutrition Et Metabolisme|December 4, 2025
High-pressure blood flow restriction acutely reduces maximal torque and powerRobert W Sallberg, Yujiro Yamada, William B Hammert, et al.
Medicine and Science in Sports and Exercise|June 19, 2026
High- and Low-Load Resistance Training Produce Distinct Skeletal Muscle Growth but Similar Changes in Tendon MorphologyWilliam B Hammert, Yujiro Yamada, Robert W Sallberg, et al.
European Journal of Applied Physiology|September 4, 2025
Submaximal low-load resistance exercise with blood flow restriction produces similar results to low-load exercise to failure for muscle size and strength, but not enduranceRyo Kataoka, William B Hammert, Yujiro Yamada, et al.
European Journal of Applied Physiology|January 24, 2026
Rethinking task failure in resistance training research: a framework for submaximal exercise prescriptionWilliam B Hammert, Enrique N Moreno, Robert W Sallberg, et al.
Journal of Sports Sciences|September 15, 2025
Using historical controls to evaluate resistance training-induced strength adaptations: Does history repeat itself?William B Hammert, Yujiro Yamada, Robert W Sallberg, et al.
Pageof 1

Showing results (1-10 of 7) with videos related to

Sort By:
Pageof 1
Sports Medicine (Auckland, N.Z.)|December 11, 2025
Non-Specific Strength Changes Between High- and Low-Load Isotonic Resistance Training: A Systematic Review and Meta-AnalysisWilliam B Hammert, Ryo Kataoka, Yujiro Yamada, et al.
Journal of Sports Sciences|May 17, 2026
Inter-individual variability in pain perception and sensitivity responses to low-load exercise with an absolute or relative blood flow restriction pressureYujiro Yamada, Anna Kang, William B Hammert, et al.
Applied Physiology, Nutrition, and Metabolism = Physiologie Appliquee, Nutrition Et Metabolisme|December 4, 2025
High-pressure blood flow restriction acutely reduces maximal torque and powerRobert W Sallberg, Yujiro Yamada, William B Hammert, et al.
Medicine and Science in Sports and Exercise|June 19, 2026
High- and Low-Load Resistance Training Produce Distinct Skeletal Muscle Growth but Similar Changes in Tendon MorphologyWilliam B Hammert, Yujiro Yamada, Robert W Sallberg, et al.
European Journal of Applied Physiology|September 4, 2025
Submaximal low-load resistance exercise with blood flow restriction produces similar results to low-load exercise to failure for muscle size and strength, but not enduranceRyo Kataoka, William B Hammert, Yujiro Yamada, et al.
European Journal of Applied Physiology|January 24, 2026
Rethinking task failure in resistance training research: a framework for submaximal exercise prescriptionWilliam B Hammert, Enrique N Moreno, Robert W Sallberg, et al.
Journal of Sports Sciences|September 15, 2025
Using historical controls to evaluate resistance training-induced strength adaptations: Does history repeat itself?William B Hammert, Yujiro Yamada, Robert W Sallberg, et al.
Pageof 1