Items where Author is "Massey, Garry J"
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Number of items: 7.
Article
BALSHAW, Thomas G, MASSEY, Garry J, MILLER, Robert, MCDERMOTT, Emmet J, MADEN-WILKINSON, Thomas M and FOLLAND, Jonathan P
(2024).
Muscle and tendon morphology of a world strongman and deadlift champion.
Journal of applied physiology (Bethesda, Md. : 1985), 137 (4), 789-799.
[Article]
BALSHAW, Thomas G, FUNNELL, Mark P, MCDERMOTT, Emmet, MADEN-WILKINSON, Tom, MASSEY, Garry J, ABELA, Sean, QUTEISHAT, Btool, EDSEY, Max, JAMES, Lewis J and FOLLAND, Jonathan P
(2023).
The Effect of Specific Bioactive Collagen Peptides on Tendon Remodelling during 15 Weeks of Lower Body Resistance Training.
Medicine & Science in Sports & Exercise, 55 (11), 2083-2095.
[Article]
BALSHAW, Thomas G, MADEN-WILKINSON, Tom, MASSEY, Garry J and FOLLAND, Jonathan P
(2021).
The Human Muscle Size and Strength Relationship. Effects of Architecture, Muscle Force and Measurement Location.
Medicine & Science in Sports & Exercise.
[Article]
BALSHAW, Thomas G, MASSEY, Garry J, MADEN-WILKINSON, Tom, LANZA, Marcel B and FOLLAND, Jonathan P
(2018).
Neural adaptations after 4 years vs. 12 weeks of resistance training vs. untrained.
Scandinavian Journal of Medicine & Science in Sports, 29 (3), 348-359.
[Article]
BALSHAW, Thomas G, MASSEY, Garry J, MADEN-WILKINSON, Tom, MORALES-ARTACHO, Antonio J, MCKEOWN, Alexandra, APPLEBY, Clare L and FOLLAND, Jonathan P
(2017).
Changes in agonist neural drive, hypertrophy and pre-training strength all contribute to the individual strength gains after resistance training.
European Journal of Applied Physiology, 117 (4), 631-640.
[Article]
BALSHAW, Thomas G, MASSEY, Garry J, MADEN-WILKINSON, Tom, TILLIN, Neale A and FOLLAND, Jonathan P
(2016).
Training-specific functional, neural, and hypertrophic adaptations to explosive- vs. sustained-contraction strength training.
Journal of Applied Physiology, 120 (11), 1364-1373.
[Article]
BALSHAW, Thomas G, MASSEY, Garry J, MADEN-WILKINSON, Tom, TILLIN, Neale A and FOLLAND, Jonathan P
(2016).
Twelve Weeks Of Explosive Strength Training Increases Both Maximal And Explosive Voluntary Torque Production.
Medicine & Science in Sports & Exercise, 48 (5S), p. 452.
[Article]