Your selections:
Hypoxia and resistance exercise: a comparison of localized and systemic methods
- Scott, Brendan R., Slattery, Katie M., Sculley, Dean V., Dascombe, Ben J.
- Scott, Brendan R., Dascombe, Ben J., Delaney, Jace A., Elsworthy, Nathan, Lockie, Robert G., Sculley, Dean V., Slattery, Katie M.
Blood flow restricted exercise for athletes: a review of available evidence
- Scott, Brendan R., Loenneke, Jeremy P., Slattery, Katie M., Dascombe, Ben J.
Acute physiological responses to moderate-load resistance exercise in hypoxia
- Scott, Brendan R., Slattery, Katie M., Sculley, Dean V., Lockhart, Catriona, Dascombe, Ben J.
Intermittent hypoxic resistance training: is metabolic stress the key moderator?
- Scott, Brendan R., Slattery, Katie M., Dascombe, Ben J.
Acute physiological and perceptual responses to high-load resistance exercise in hypoxia
- Scott, Brendan R., Slattery, Katie M., Sculley, Dean V., Smith, Scott M., Peiffer, Jeremiah J., Dascombe, Ben J.
- Scott, Brendan R., Loenneke, Jeremy P., Slattery, Katie M., Dascombe, Ben J.
- Scott, Brendan R., Slattery, Katie M., Sculley, Dean V., Lockie, Robert G., Dascombe, Ben J.
Intermittent hypoxic resistance training: does it provide added benefit?
- Scott, Brendan R., Slattery, Katie M., Dascombe, Ben J.
Hypoxia during resistance exercise does not affect physical performance, perceptual responses, or neuromuscular recovery
- Scott, Brendan R., Slattery, Katie M., Sculley, Dean V., Dascombe, Ben J.
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