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Paul J. Read
Researcher at Qatar Airways
Publications - 122
Citations - 3104
Paul J. Read is an academic researcher from Qatar Airways. The author has contributed to research in topics: Jumping & Medicine. The author has an hindex of 27, co-authored 111 publications receiving 1944 citations. Previous affiliations of Paul J. Read include University of London & Thomas Jefferson University.
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Journal ArticleDOI
A Process for Error Correction for Strength and Conditioning Coaches
TL;DR: In this article, a logical evidence-based procedure to assist coaches in correcting a movement error is presented. But it is not always clear which strategies should be used for a given situation and in what order.
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Repetitions in Reserve Is a Reliable Tool for Prescribing Resistance Training Load
Simon Lovegrove,Liam J. Hughes,Sean K. Mansfield,Paul J. Read,Phil D. B. Price,Stephen D. Patterson +5 more
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Physiological responses to linear and nonlinear soccer-specific match simulations and their effects on lower-limb muscle fatigue
TL;DR: Hamstring function was not an effective indicator of fatigue, but the results highlight the greater demands placed on this muscle group when higher-speed running is performed.
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The use of wearable technology as an assessment tool to identify between-limb differences during functional tasks following ACL reconstruction. A scoping review.
Joao B. Marques,Sean Mc Auliffe,AT Thompson,Vasileios Sideris,Paulo Roberto Pereira Santiago,Paul J. Read +5 more
TL;DR: Wearable sensors consistently identified between-limb and group deficits following ACL reconstruction as mentioned in this paper , but further research is needed including, validation against criterion measures, and the methods used can affect the accuracy of the outcome.
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Angle specific analysis of hamstrings and quadriceps isokinetic torque identify residual deficits in soccer players following ACL reconstruction: a longitudinal investigation
Paul J. Read,Robin Trama,Sebastien Racinais,Sean McAuliffe,Jasenko Klauznicer,Marine Alhammoud +5 more
TL;DR: There were significant involved limb increases in extension peak torque at each assessment; however, asymmetry favouring the un-involved limb was observed (p<0.001), and involved limb angle-specific reductions in extension torque across the full range of motion were revealed.