Lumbar Bone Mineral Adaptation: The Effect of Fast Bowling Technique in Adolescent Cricketers

Keylock, Laura; Felton, Paul; Alway, Peter; Brooke‐Wavell, Katherine; Peirce, Nicholas; King, Mark A.

doi:10.1249/mss.0000000000002820

Cited by 2 publications

(7 citation statements)

References 45 publications

(88 reference statements)

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“… 9 This movement likely imparts a torsional force and high bone strain in the posterior elements of the vertebrae, 28 resulting in the osteogenic adaptation identified. Although external loads such as ground reaction forces showed no significant relationship to BMD, 9 it is possible that they contribute to the adaptation by influencing the internal loading of the lumbar spine. The unique adaptation of fast bowlers compared with other sporting and non-sporting controls was established previously in senior populations 8 29 and adolescents 9 and has been assessed longitudinally in this study for the first time.…”

Section: Discussionmentioning

confidence: 99%

“…The adaptation of the lumbar spine to fast bowling is driven by the forceful rotations of the thoracic and lumbar spine between back foot contact and ball release of the bowling action. 9 This movement likely imparts a torsional force and high bone strain in the posterior elements of the vertebrae, 28 resulting in the osteogenic adaptation identified. Although external loads such as ground reaction forces showed no significant relationship to BMD, 9 it is possible that they contribute to the adaptation by influencing the internal loading of the 8 29 and adolescents 9 and has been assessed longitudinally in this study for the first time.…”

Section: Discussionmentioning

confidence: 99%

“…Additionally, fast bowlers show substantial vertebral asymmetry with up to 15% and 18% greater BMD and BMC, respectively, found on the contralateral side to the bowling arm 8. This reflects the asymmetrical bowling action which involves extreme multi-planar trunk movements 9…”

Section: Introductionmentioning

confidence: 99%

“… 8 This reflects the asymmetrical bowling action which involves extreme multi-planar trunk movements. 9 …”

Section: Introductionmentioning

confidence: 99%

“…8 This reflects the asymmetrical bowling action which involves extreme multi-planar trunk movements. 9 Fast bowlers have the greatest prevalence of injury of all the playing roles in cricket, 10 with lumbar stress fracture (LSF), which occurs almost exclusively to fast bowlers, being the most prevalent injury in cricket. 10 Chronological age has been considered a lumbar bone stress injury (LBSI) risk factor, with studies identifying that younger bowlers are more likely to suffer LSF between 15 and 22 years of age.…”

Section: Introductionmentioning

confidence: 99%

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Lumbar spine bone mineral adaptation: cricket fast bowlers versus controls

Keylock

Alway

Johnson

et al. 2023

BMJ Open Sport Exerc Med

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Elite adult male fast bowlers have high lumbar spine bone mineral, particularly on the contralateral side to their bowling arm. It is thought that bone possesses its greatest ability to adapt to loading during adolescence, but it is unknown at what age the greatest changes in lumbar bone mineral and asymmetry develops in fast bowlers.ObjectivesThis study aims to evaluate the adaptation of the lumbar vertebrae in fast bowlers compared to controls and how this is associated with age.Methods91 male fast bowlers and 84 male controls aged 14–24 years had between one and three annual anterior-posterior lumbar spine dual-energy-X-ray absorptiometry scans. Total (L1-L4) and regional ipsilateral and contralateral L3 and L4 (respective to bowling arm) bone mineral density and content (BMD/C) were derived. Multilevel models examined the differences in lumbar bone mineral trajectories between fast bowlers and controls.ResultsAt L1-L4 BMC and BMD, and contralateral BMD sites, fast bowlers demonstrated a greater negative quadratic pattern to their accrual trajectories than controls. Fast bowlers had greater increases in BMC in L1-L4 between 14 and 24 years of 55% compared with controls (41%). Within vertebra, asymmetry was evident in all fast bowlers and increased by up to 13% in favour of the contralateral side.ConclusionsLumbar vertebral adaptation to fast bowling substantially increased with age, particularly on the contralateral side. The greatest accrual was during late adolescence and early adulthood, which may correspond with the increasing physiological demands of adult professional sport.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

“… 8 This reflects the asymmetrical bowling action which involves extreme multi-planar trunk movements. 9 …”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Lumbar spine bone mineral adaptation: cricket fast bowlers versus controls

Keylock

Alway

Johnson

et al. 2023

BMJ Open Sport Exerc Med

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Lumbar Bone Stress Injuries and Nonunited Defects in Elite Australian Cricket Players

Saw

Eales²,

Jones

et al. 2023

Clinical Journal of Sport Medicine

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Objective: To describe the presentation and management of lumbar bone stress injuries (LBSI), recurrent LBSI, and lumbar nonunited defects in elite Australian male and female cricket players. Design: Retrospective case series. Setting: Professional domestic and international cricket teams over 13 seasons. Participants: Elite Australian cricket players. Independent variables: Symptomatic LBSI requiring time off cricket and lumbar nonunited defects, both confirmed by imaging. Main outcome measures: Incidence, presentation, history, healing, and management. Results: 211 LBSI were identified at an average incidence of 5.4 per 100 players per season. LBSI were most common in male pace bowlers younger than 20 years of age (58.1 per 100 players per season), however, were also observed in older players, females, and non-pace bowlers. Recurrent LBSI accounted for 33% (27%-40%) of all LBSI. Median days to return to match availability was 182 (128-251) days for all LBSI, with a shorter time frame observed for new and less severe injuries, and male spin bowlers. Healing was demonstrated in 87% (81%-91%) of all LBSI cases. 29 nonunited defects were identified and predisposed subsequent pain, LBSI, and spondylolisthesis. Conclusions: LBSI are experienced by approximately 5.4 in every 100 elite Australian cricket players per season, with a high time cost of approximately 4 to 8 months. Nonunited defects also have a high time cost with associated subsequent lumbar spine issues. The findings of this study reinforce the importance of early detection and conservative management of LBSI, particularly for younger male pace bowlers and players with recurrent LBSI, which may be supported by MRI.

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Lumbar Bone Mineral Adaptation: The Effect of Fast Bowling Technique in Adolescent Cricketers

Cited by 2 publications

References 45 publications

Lumbar spine bone mineral adaptation: cricket fast bowlers versus controls

Lumbar spine bone mineral adaptation: cricket fast bowlers versus controls

Lumbar Bone Stress Injuries and Nonunited Defects in Elite Australian Cricket Players

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