about
Measurement error in estimates of sprint velocity from a laser displacement measurement device.The efficacy of a movement control exercise programme to reduce injuries in youth rugby: a cluster randomised controlled trial.A meta-analysis of injuries in senior men's professional Rugby Union.Injury and biomechanical perspectives on the rugby scrum: a review of the literature.Professional Rugby Union players have a 60% greater risk of time loss injury after concussion: a 2-season prospective study of clinical outcomes.An investigation into axial impacts of the cervical spine using digital image correlation.Could intra-tendinous hyperthermia during running explain chronic injury of the human Achilles tendon?The Influence of In-Season Training Loads on Injury Risk in Professional Rugby Union.Shoulder Injuries in English Community Rugby Union.Understanding the effect of touchdown distance and ankle joint kinematics on sprint acceleration performance through computer simulation.Effects of carbohydrate and caffeine ingestion on performance during a rugby union simulation protocol.Lower limb joint kinetics during the first stance phase in athletics sprinting: three elite athlete case studies.Scrum injury risk in English professional rugby union.Epidemiology of time-loss injuries in English community-level rugby union.The influence of playing level on the biomechanical demands experienced by rugby union forwards during machine scrummaging.A kinematic analysis of rugby lineout throwing.The physical demands of elite English rugby union.Choice of sprint start performance measure affects the performance-based ranking within a group of sprinters: which is the most appropriate measure?Available evidence on risk of injury in youth rugby.Collapsed scrums and collision tackles: what is the injury risk?Engagement techniques and playing level impact the biomechanical demands on rugby forwards during machine-based scrummaging.Spinal muscle activity in simulated rugby union scrummaging is affected by different engagement conditions.A modified prebind engagement process reduces biomechanical loading on front row players during scrummaging: a cross-sectional study of 11 elite teams.Match injuries in English youth academy and schools rugby union: an epidemiological study.Differential strain patterns of the human Achilles tendon determined in vivo with freehand three-dimensional ultrasound imaging.Bend sprinting performance: new insights into the effect of running lane.Assessing rugby place kick performance from initial ball flight kinematics: development, validation and application of a new measure.The effect of the bend on technique and performance during maximal effort sprinting.The influence of an artificial playing surface on injury risk and perceptions of muscle soreness in elite Rugby Union.Effect of combined carbohydrate-protein ingestion on markers of recovery after simulated rugby union match-play.The effects of a 30-min run on the mechanics of the human Achilles tendonScience and rugby unionThe role of arm movement in early trip recovery in younger and older adultsContributions of the non-kicking-side arm to rugby place-kicking techniqueThe role of strategy selection, limb force capacity and limb positioning in successful trip recoveryStrength and Power Development in Professional Rugby Union Players Over a Training and Playing SeasonForce production during maximal effort bend sprinting: Theory vs realityRelationships between lower-limb kinematics and block phase performance in a cross section of sprintersAssociation of the Functional Movement Screen™ with match-injury burden in men's community rugby unionKicking foot swing planes and support leg kinematics in rugby place kicking: Differences between accurate and inaccurate kickers
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Q34208522-8E08E70B-CAE9-448A-B44D-5D3833BF7F3BQ37425583-28E57C8B-3F7C-45A5-A92C-5D956C96BECFQ38120500-F91AEA2B-ADEA-4B11-8677-A2640B75D5CDQ38176480-25BA6676-BBEA-4080-B565-FB0846AD5786Q40253487-59C583C4-BC23-4FB2-B6D7-2F1FDDD10EE3Q40271263-7B12E8EA-F010-4438-BBA6-635FB4465467Q40335918-77C0F797-8CCD-46D3-A578-A28999B4817DQ40605352-6F6BE447-FEC7-430C-A18E-A10222E6589AQ40755724-E7B5628F-6788-4AAD-BBF4-2A2529727ED9Q40808620-141F02CB-1630-4DD2-9CEB-BD571699D336Q43045587-85507538-CA45-47F6-A5CE-EFB6CE35BC51Q43520866-B3261C75-FD5C-4A66-A312-75C48E58B333Q43535373-617B7565-1995-4B57-AA0B-355FE849DD58Q43705319-3CDA5071-9410-4194-889A-D467257DB0C1Q43829455-DCBA8BAE-6221-4C26-B936-4EE8C72DCE03Q43981164-58B1FB7B-C46C-448C-94CA-F30807063483Q44264317-30580A6F-A5E9-49A9-9944-523A3762CA3AQ45032220-D1FBD3F0-4B92-4BF5-92C1-66C857DE839AQ45069259-739DE4C1-1482-464D-8951-4F27E202ED9BQ45767455-A3014EF0-0016-4ADE-9FA6-CD6382EC1ED1Q47184217-1F12360A-001C-449A-AF70-4C942693C516Q48210255-34E92E34-ACB6-4AE7-9E8B-452F1D6749B3Q48332756-9DCEEBE1-9012-43A5-8EF5-AC10738C3650Q50874434-18C1707D-A8DF-48F4-93CD-D3F48BDAD51FQ51298637-9B9C3844-CD97-408E-9911-3AA214A1DDCAQ51737017-16D1DB3D-3730-49F2-8718-839BA41B7530Q52598272-6D4BA1C8-48B0-4FE7-8D2E-F5FE93A57ADAQ53533940-07A251E7-279E-4545-8FD4-6BFFB3326080Q53621634-78F5FD16-9397-4B65-9A83-82FF5ED4EE11Q54570982-D633F474-F260-48CF-B8CF-B9667755B5F9Q57432626-F603AB35-2E86-4C7A-879D-C93A819A06AEQ58196682-116B296C-5940-4427-BD21-A4F47EA4146CQ80462318-0B4FC5E4-08CE-444B-A153-6E8B8D67D87EQ81345370-1E5122A5-251E-4851-BDFA-F09A12D264B5Q84609706-F5944830-E87A-4D83-8D30-82A7AE7B7A2CQ85984707-EB166968-2B16-42A1-AA94-279A5C66DE86Q86271812-7FA42A0E-83D2-491B-AC80-60937A1A8BF4Q88151832-D898ACF4-80EE-47A4-8DCB-ECE1ED8E7891Q90742851-AE8FFC8C-3B08-416A-9CAC-DC1262D8283BQ91476993-3D20FE23-210A-4FEA-995B-A1F863AC4569
P50
description
hulumtues
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researcher
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wetenschapper
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հետազոտող
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name
Grant Trewartha
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Grant Trewartha
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Grant Trewartha
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Grant Trewartha
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Grant Trewartha
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type
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Grant Trewartha
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Grant Trewartha
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Grant Trewartha
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Grant Trewartha
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Grant Trewartha
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prefLabel
Grant Trewartha
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Grant Trewartha
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Grant Trewartha
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Grant Trewartha
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Grant Trewartha
@sl
P106
P1153
22956376300
P21
P31
P496
0000-0002-9021-8956