A preliminary study into the effect of jumping–landing training and strength training on frontal plane projection angle

Herrington, Lee; Munro, Allan; Comfort, Paul

doi:10.1016/j.math.2015.04.009

Cited by 20 publications

(23 citation statements)

References 9 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Previous research suggests that jump training is an integral feature of training programs for the reduction of ACL injury risk (Herrington, 2010;Herrington et al, 2015;Hewett et al, 1999;Hewett et al, 1996;Myer, Ford, Brent, & Hewett, 2012;Myer et al, 2005). Training interventions that incorporate a jump element and focus on knee alignment during landing may induce neuromuscular adaptations in female athletes and prepare them for functional jumping tasks during sporting activities (Hewett et al, 2010;Myer et al, 2012).…”

Section: Discussionmentioning

confidence: 99%

“…Jump training programs have been reported to improve dynamic knee valgus, FPPA and decrease ground reaction forces during landings, by prompting athletes to focus on knee alignment and technique improvement during exercises (Aerts, Cumps, Verhagen, & Meeusen, 2010;Bien, 2011;Herrington, 2010;Herrington, Munro, & Comfort, 2015;Hewett, Lindenfeld, Riccobene, & Noyes, 1999). The approaches to the reported jump training programs in the literature have been varied.…”

Section: Introductionmentioning

confidence: 99%

“…The approaches to the reported jump training programs in the literature have been varied. The majority of the reported training programs have been 4-8 weeks in duration and have involved 3 sessions per week of around 10-20 minutes (Herrington, 2010;Herrington et al, 2015;Kato, Urabe, & Kawamura, 2008).…”

Section: Introductionmentioning

confidence: 99%

“…Some programs may last up to 6 months; involve 6 days per week, for a duration of 90 minutes per day (Chappell & Limpisvasti, 2008;Myer, Ford, Palumbo, & Hewett, 2005;Otsuki et al, 2014), although these are less likely to be implemented successfully in most sports due to the constraints of training time. More recently, warm-up style jump training programs of 10-15 minutes have become popular among sports practitioners for their practicality and minimal time commitments (Herrington, 2010;Herrington et al, 2015;Herrington, Myer, & Horsley, 2013;Kato et al, 2008).…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

The effects of a four week jump-training program on frontal plane projection angle in female gymnasts

Colclough

Munro

Herrington

et al. 2018

Physical Therapy in Sport

View full text Add to dashboard Cite

show abstract

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

The effects of a four week jump-training program on frontal plane projection angle in female gymnasts

Colclough

Munro

Herrington

et al. 2018

Physical Therapy in Sport

View full text Add to dashboard Cite

show abstract

“…Three trials of the tuck jump without time duration were performed. 60 The researchers explained and demonstrated the procedures of the tuck jump test.…”

Section: Overhead Squatmentioning

confidence: 99%

Association between lower extremity movement compensations in the presence of PFPS among female collegiate football athletes: a cross sectional study

Suarez¹,

Sibayan²,

Regino³

et al. 2020

PJAHS

View full text Add to dashboard Cite

Introduction: Fifteen to fifty percent of all sports injuries commonly occur in the knee joint. Active women are more susceptible to Patellofemoral Pain Syndrome (PFPS) than men. Aims: This study aims to associate the presentation of different movement compensations at the different body segments such as the hip, knee, and foot with the presence of PFPS among female collegiate football players at the University of Santo Tomas. Methods: In this descriptive observational cross-sectional study, purposive sampling was used to recruit participants. A total of 11 participants were included. PFPS has a strong association with Anterior Knee Pain (AKP), and it was diagnosed using the Physical Examination questionnaire. With the use of dynamic and transitional assessments, namely overhead squat test (OST) and tuck jump test (TJT), movement patterns were observed using standardized data sheets and video analysis. Results: Among those 11 female participants (mean age 19 ± 1.7 years old), 8 were diagnosed with PFPS and 3 were negative of PFPS. An association between different compensations and PFPS was sought using Fisher's exact statistical tool. In the OST, compensations such as the foot turning out, foot flattening, knee directing inward and outward, lumbo-pelvic-hip complex patterns. In the TJT, PFPS was associated with three general compensations: foot placement, landing contact noise, and lower extremity valgus. Conclusion: There was no direct association found between movement compensations and PFPS in dynamic and transitional assessments among female collegiate football players in this study. Although there are a few associations between different lower extremity movement compensations with PFPS. The majority of those with PFPS had knee out and LPHC compensations with the OST. With the TST, those with PFPS have positive foot placement compensations as compared to the majority of those without PFPS.

show abstract

The Effect of Angle and Velocity on Change of Direction Biomechanics: An Angle-Velocity Trade-Off

et al. 2018

Self Cite

View full text Add to dashboard Cite

Changes of direction (CODs) are key manoeuvres linked to decisive moments in sport and are also key actions associated with lower limb injuries. During sport athletes perform a diverse range of CODs, from various approach velocities and angles, thus the ability to change direction safely and quickly is of great interest. To our knowledge, a comprehensive review examining the influence of angle and velocity on change of direction (COD) biomechanics does not exist. Findings of previous research indicate the biomechanical demands of CODs are ‘angle’ and ‘velocity’ dependent and are both critical factors that affect the technical execution of directional changes, deceleration and reacceleration requirements, knee joint loading, and lower limb muscle activity. Thus, these two factors regulate the progression and regression in COD intensity. Specifically, faster and sharper CODs elevate the relative risk of injury due to the greater associative knee joint loading; however, faster and sharper directional changes are key manoeuvres for successful performance in multidirectional sport, which subsequently creates a ‘performance-injury conflict’ for practitioners and athletes. This conflict, however, may be mediated by an athlete’s physical capacity (i.e. ability to rapidly produce force and neuromuscular control). Furthermore, an ‘angle-velocity trade-off’ exists during CODs, whereby faster approaches compromise the execution of the intended COD; this is influenced by an athlete’s physical capacity. Therefore, practitioners and researchers should acknowledge and understand the implications of angle and velocity on COD biomechanics when: (1) interpreting biomechanical research; (2) coaching COD technique; (3) designing and prescribing COD training and injury reduction programs; (4) conditioning athletes to tolerate the physical demands of directional changes; (5) screening COD technique; and (6) progressing and regressing COD intensity, specifically when working with novice or previously injured athletes rehabilitating from an injury.

show abstract

A preliminary study into the effect of jumping–landing training and strength training on frontal plane projection angle

Cited by 20 publications

References 9 publications

The effects of a four week jump-training program on frontal plane projection angle in female gymnasts

The effects of a four week jump-training program on frontal plane projection angle in female gymnasts

Association between lower extremity movement compensations in the presence of PFPS among female collegiate football athletes: a cross sectional study

The Effect of Angle and Velocity on Change of Direction Biomechanics: An Angle-Velocity Trade-Off

Contact Info

Product

Resources

About