Shoulder injuries amongst Volleyball players

Shoulder injuries amongst volleyball athletes are mainly reported to result from overuse possibly leading to rotator cuff tendinitis, coracoacromial impingement and glenohumeral joint instability.  In an epidemiological study amongst 295 volleyball players, Aagaard and colleagues (1) reported 286 injuries with an incidence of 4.2 injuries every 100 hours of playing.

The risk factors associated with the recurrence of shoulder pain re linked to:

• Overuse during training
• Poor shoulder mobility
• Muscle imbalance, specifically between internal and external rotators
• Muscle weakness
• Scapular dysfunction

The implication for athletes is to modify their training regime and stop their participation to games.  It is paramount to diagnose the injury in time and produce an appropriate treatment plan with a specific gradual return to training.

Rehabilitation Plan

• Avoidance of painful exacerbating activities (volleyball spike, chest press) and fatigue of the scapula-humeral/thoracic muscles.
• Initiation of closed kinetic chain (CKC) activities in order to reproduce or provide proprioceptive stimulation to joint mechanoreceptors which helps to reorganize and re-establish normal muscle firing patterns.
• CKC activities can include weight shifts, scapular clock, rhythmic ball oscillations and wall-push ups.

• Inclusion of activities which involve using of hip and trunk musculature (mass movement patterns) such as trunk strengthening: abdominal crunches and/or prone upper/lower extremities opposition for para-spinals; trunk extension with lateral rotation facilitates scapular retraction.
• Scapular retractions combined with soft tissue release to reduce contracture of coracoid based muscles.
• Myofascial release near anterior clavicle or delto-pectoral triangle
• Manual stretching of scalenes, elevator scapulae, pectoralis minor.
• “Sleeper” stretches to stretch posterior capsule and posterior rotator cuff muscles
•  Interval volleyball training can commence including aerobic training, ball activity with partners, sprinting and change in direction.

Recovery Phase (3 –7 weeks)

• Begin with concentric/eccentric contractions.
• Standing external rotation (ER) with theraband (towel roll under axilla cueing patient to avoid trunk rotation); side lying ER

• Serratus anterior punch/press into wall with pillow or deflated ball (standing, arm neutral at side elbow in 90° of flexion). Progression to arm at or just below 90°
•  Seated rows emphasizing setting of the scapula prior to each repetition, finishing each set in retraction
• Lower/mid trapezius activation in prone with progression to different upper limb positions.
• Interval volleyball training can commence including aerobic training, ball  activity with partners, sprinting and change in direction.

Maintenance Phase (7 – 10 weeks)

At this stage, the patient must have good scapular control and motion throughout range of shoulder motion in order to progress to full athletic activities.

• Plyometric with medicine ball to dynamically challenge scapular stabilizers. The weight of the ball provides an eccentric stretch, which is then converted to a concentric contraction. Progress to unilateral throwing of smaller weighted medicine balls or bilateral overhead ball toss against a spring trampoline.
• Modified push-ups.

• Chair push ups or seated dips.

• ‘Scaption” arm in 30 – 45° abduction.
• Rhythmic stabilization of rotator cuff muscles.
• Return to volleyball training, with gradual return to spiking ad serving and interval competitive matches.

Evidence base

Strengthening training

Shoulder muscle imbalance and weakness, low shoulder rotator muscle strength ratios and weak external rotators are possible Shoulder injury risk factors for overhead athletes. In the dominant arm, the volleyball players had significantly higher concentric peak torque of the internal and external rotators at both velocities, and significantly higher eccentric peak torque of the shoulder internal and external rotators than the controls. In a similar study by Forthomme and colleagues (4), spike velocity correlated significantly with strength performance of the dominant shoulder rotator muscles.  In acceleration, however, these muscles behaved independently; activity of the teres minor remained high, whereas the activity of the infraspinatus declined. The anterior wall muscles functioned to decelerate the humerus during cocking and acted as internal rotators during acceleration. Muscle activities recorded for the serve followed similar patterns as those seen for the spike, but with lower amplitudes.  In the specific clinical scenario presented in this report, a strength-training regime was designed for the patient taking into account his needs.  Weakness of the external/internal rotator muscles and scapular stabilizers was addressed through a strengthening programme incorporating concentric and eccentric activation patterns and was progressed to include sport specific drills.

Scapular stabilizers training

Scapular malposition is thought to be related to shoulder impingement by narrowing of the subachromial space.  Scapular dyskinesis was also associated with excessive protraction and decreased cocking and elevation, which can effectively alter volleyball specific biomechanics. The athlete in this case scenario presented a scapula infera with lateral displacement.  A specific training regime was designed to retrain scapular stabilizers in an isometric fashion and was progressed to include concentric and eccentric activation patterns with sport specific drills.  Since the scapula plays a vital role in the volleyball spike as it acts as a stable base for origin of the muscles that control arm movement and provide glenohumeral compression, scapula position and control training is paramount during rehabilitation and as part of a preventative exercise regime. Rehabilitation protocol aimed to restore scapular musculature balance produced significant changes of glenohumeral internal rotation, increase in rotator muscle strength and decrease in pain scores, which seem to confirm the role of a proper scapular position for an optimal length–tension relationship of the RC muscles.

References

• AagaardH., ScaveniusM.,JørgensenU.  “An Epidemiological Analysis of the Injury Pattern in Indoor and in Beach Volleyball”.  Int J Sports Med 1997; 18(3): 217-221.
• Wank, H. and Cochrane, T.  “Mobility impairment, muscle imbalance, muscle weakness, scapular asymmetry and shoulder injury in elite volleyball athletes”.  Journal of sports medicine and physical fitness, 2001; 41; 401-403.
• Alfredson, H., Pietila, T., Lorentzon, R.  “Concentric and eccentric shoulder and elbow muscle strength in female volleyball players and non-active females”.  Scandinavian journal of science and sports, 1998, vol. 8 (1), 5, 265-270.
• Forthomme, P., Croiser, J., Ciccarone, G., and Cloes, M.  “Factors Correlated With Volleyball Spike Velocity”.  Am J Sports Med October 2005 vol. 33 no. 10 1513-1519.
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