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Br J Sports Med. 2017 Mar;51(5):460-468. doi: 10.1136/bjsports-2016-096050. Epub 2016 Oct 6.

Athletic groin pain (part 2): a prospective cohort study on the biomechanical evaluation of change of direction identifies three clusters of movement patterns.

Author information

1
Sports Medicine Research Department, Sports Surgery Clinic, Santry Demesne, Dublin, Ireland.
2
Centre for Health, Exercise and Sports Medicine, University of Melbourne, Melbourne, Victoria, Australia.
3
Department of Life Sciences, Roehampton University, London, UK.
4
INSIGHT Research Centre, Dublin City University, Dublin, Ireland.
5
School of Health and Human Performance, Dublin City University, Dublin, Ireland.
6
Department of Medicine, University College Cork, Cork, Ireland.

Abstract

BACKGROUND:

Athletic groin pain (AGP) is prevalent in sports involving repeated accelerations, decelerations, kicking and change-of-direction movements. Clinical and radiological examinations lack the ability to assess pathomechanics of AGP, but three-dimensional biomechanical movement analysis may be an important innovation.

AIM:

The primary aim was to describe and analyse movements used by patients with AGP during a maximum effort change-of-direction task. The secondary aim was to determine if specific anatomical diagnoses were related to a distinct movement strategy.

METHODS:

322 athletes with a current symptom of chronic AGP participated. Structured and standardised clinical assessments and radiological examinations were performed on all participants. Additionally, each participant performed multiple repetitions of a planned maximum effort change-of-direction task during which whole body kinematics were recorded. Kinematic and kinetic data were examined using continuous waveform analysis techniques in combination with a subgroup design that used gap statistic and hierarchical clustering.

RESULTS:

Three subgroups (clusters) were identified. Kinematic and kinetic measures of the clusters differed strongly in patterns observed in thorax, pelvis, hip, knee and ankle. Cluster 1 (40%) was characterised by increased ankle eversion, external rotation and knee internal rotation and greater knee work. Cluster 2 (15%) was characterised by increased hip flexion, pelvis contralateral drop, thorax tilt and increased hip work. Cluster 3 (45%) was characterised by high ankle dorsiflexion, thorax contralateral drop, ankle work and prolonged ground contact time. No correlation was observed between movement clusters and clinically palpated location of the participant's pain.

CONCLUSIONS:

We identified three distinct movement strategies among athletes with long-standing groin pain during a maximum effort change-of-direction task These movement strategies were not related to clinical assessment findings but highlighted targets for rehabilitation in response to possible propagative mechanisms.

TRIAL REGISTRATION NUMBER:

NCT02437942, pre results.

KEYWORDS:

Biomechanics; Groin; Overuse injury; Performance

PMID:
28209597
PMCID:
PMC5566094
DOI:
10.1136/bjsports-2016-096050
[Indexed for MEDLINE]
Free PMC Article

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