Biological significance of glutathione S-transferases in human sperm cells

Objectives: Previous research describes dynamic stability and functional strength as key aetiological risk factors associated with lower limb non-contact musculoskeletal injury. Due to the multi factorial nature of injury risk, relationships between the two factors will inform injury management and training design.Methods: Fifty-nine elite academy footballers from two English premier league category 1-status academies completed the study. All players completed measures of eccentric hamstring strength and dynamic stability. Relationships between directional stability (Anteroposterior (Ant), Posteromedial (PM) and Posterolateral (PL)) and eccentric strength metrics (PkT, AvT, PkF, AvF and Ɵ) bilaterally were identified for analysis.Results: Significant correlations were identified bilaterally for functional hamstring strength metrics and PM and PL stability (P ≤. 0.05). No significant relationships were identified between anterior stability and eccentric hamstring strength parameters (P > 0.05). Conclusions:Eccentric hamstring strength has a positive influence on directional stability through two planes, PM and PL. The lack of influence of eccentric hamstring strength on Ant directional stability could be attributed to increased ACL risk. Careful consideration of the significance of the relationships between eccentric hamstring strength and directional stability must be given when quantifying injury risk in elite academy footballers.

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Quantification of Eccentric Hamstrings Strength in Elite Academy Footballers: Considerations for Assessment

Rhodes

Greig

Jeffrey

et al. 2022

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Quantification of eccentric hamstring strength within elite youth sporting populations is a contemporary issue within practice. The aim of the study was to identify the reliability of eccentric strength metrics obtained via isokinetic dynamometry (IKD) and the NordBord in an elite youth football population. Furthermore, relationships between the strength metrics exhibited by the two devices were observed, to ascertain whether level of performance on one device can indicate how athletes will perform on the other. Twenty-one elite academy footballers completed two measures of eccentric hamstring strength on each device (60°•s -1 and 180°•s -1 ). Test-retest reliability was determined through Pearson correlation analysis. Relationships between strength metrics (IKD: PT, AvT and oPT at 60°•s -1 and 180°•s -1 ; NordBord: PF, AvF, PT, AvT, Ɵ) obtained on both devices were identified for analysis. Test-retest of both devices identified significant correlations for all eccentric strength metrics (P = ≤0.05). Significant unilateral (L) relationships between PT, AvT (IKD 60°•s -1 ; 180°•s -1 ), break angle (Ɵ) (NordBord) angle peak torque (oPT) at 60°•s -1 and Ɵ were identified (P = ≤0.05). Eccentric hamstring strength analysis on both the IKD and NordBord provide reliable information for practitioners, justifying their inclusion as one factor that may inform readiness to train and injury risk, within elite youth footballers. Although, careful consideration in relation to individual metrics must be given when informing decision making processes. Practitioners require clarity on the objectives of the assessment, what the strength metrics represent and how they provide insight into performance and injury risk.

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Measures of PHV and the effect on directional dynamic stability to identify risk factors for injury in elite football

Rhodes¹,

Alexander²,

Jeffrey³

et al. 2020

J Sports Med Phys Fitness

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Josh Jeffrey

The relationship between eccentric hamstring strength and dynamic stability in elite academy footballers

Quantification of Eccentric Hamstrings Strength in Elite Academy Footballers: Considerations for Assessment

Measures of PHV and the effect on directional dynamic stability to identify risk factors for injury in elite football

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