Upper limb biomechanics during the volleyball serve and spike

Jonathan C Reeser, Glenn S Fleisig, Becky Bolt, Mianfang Ruan, Jonathan C Reeser, Glenn S Fleisig, Becky Bolt, Mianfang Ruan

Abstract

Background: The shoulder is the third-most commonly injured body part in volleyball, with the majority of shoulder problems resulting from chronic overuse.

Hypothesis: Significant kinetic differences exist among specific types of volleyball serves and spikes.

Study design: Controlled laboratory study.

Methods: Fourteen healthy female collegiate volleyball players performed 5 successful trials of 4 skills: 2 directional spikes, an off-speed roll shot, and the float serve. Volunteers who were competent in jump serves (n, 5) performed 5 trials of that skill. A 240-Hz 3-dimensional automatic digitizing system captured each trial. Multivariate analysis of variance and post hoc paired t tests were used to compare kinetic parameters for the shoulder and elbow across all the skills (except the jump serve). A similar statistical analysis was performed for upper extremity kinematics.

Results: Forces, torques, and angular velocities at the shoulder and elbow were lowest for the roll shot and second-lowest for the float serve. No differences were detected between the cross-body and straight-ahead spikes. Although there was an insufficient number of participants to statistically analyze the jump serve, the data for it appear similar to those of the cross-body and straight-ahead spikes. Shoulder abduction at the instant of ball contact was approximately 130° for all skills, which is substantially greater than that previously reported for female athletes performing tennis serves or baseball pitches.

Conclusion: Because shoulder kinetics were greatest during spiking, the volleyball player with symptoms of shoulder overuse may wish to reduce the number of repetitions performed during practice. Limiting the number of jump serves may also reduce the athlete's risk of overuse-related shoulder dysfunction.

Clinical relevance: Volleyball-specific overhead skills, such as the spike and serve, produce considerable upper extremity force and torque, which may contribute to the risk of shoulder injury.

Keywords: elbow; kinematics; kinetics; overuse; shoulder; volleyball.

Conflict of interest statement

No potential conflict of interest declared.

Figures

Figure 1.
Figure 1.
The 4 phases of the volleyball spike are the approach (A → B), arm cocking (B → C), arm acceleration (C → D), and follow-through (D → E). Key events during the volleyball spike or jump serve include: takeoff (B), maximum external rotation (C), and ball contact (D).

References

    1. Agel J, Palmieri-Smith RM, Dick R, Wojtys EM, Marshall SW. Descriptive epidemiology of collegiate women’s volleyball injuries: National Collegiate Athletic Association Injury Surveillance System, 1988-1989 through 2003-2004. J Athl Train. 2007;42(2):295-302
    1. Alexander MJL, Seaborn SJ. A kinesiological analysis of the spike in volleyball. Volleyball Tech J. 1980;5(3):65-69
    1. American College of Sports Medicine Selected issues in injury and illness prevention and the team physician: a consensus statement. Med Sci Sports Exerc. 2007;39(11):2058-2068
    1. Borsa PA, Laudner KG, Sauers EL. Mobility and stability adaptations in the shoulder of the overhead athlete: a theoretical and evidence-based perspective. Sports Med. 2008;38(1):17-36
    1. Briner WW, Jr, Kacmar L. Common volleyball injuries: mechanisms of injury, prevention, and rehabilitation. Sports Med. 1997;24(1):65-71
    1. Chu Y, Fleisig GS, Simpson KJ, Andrews JR. Biomechanical comparison between elite female and male baseball pitchers. J Appl Biomech. 2009;25(1):22-31
    1. Chung CS, Choi KJ, Shin IS. Three dimensional kinematics of the striking arm during the volleyball spike. Korean J Sports Sci. 1990;2:124-151
    1. Coleman SGS, Benham AS, Northcott SR. A three-dimensional cinematographical analysis of the volleyball spike. J Sports Sci. 1993;11(4):295-302
    1. Crockett HC, Gross LB, Wilk KE, et al. Osseous adaptation and range of motion at the glenohumeral joint in professional baseball pitchers. Am J Sports Med. 2002;30(1):20-26
    1. Dillman CJ, Fleisig GS, Andrews JR. Biomechanics of pitching with emphasis upon shoulder kinematics. J Orthop Sports Phys Ther. 1993;18(2):402-408
    1. Dillman CJ, Schultheis JM, Hintermeister RA, Hawkins RJ. What do we know about body mechanics involved in tennis skills? In: Krahl H, Pieper H, Kibler B, Renstrom P, eds. Tennis: Sports Medicine and Science. San Francisco, CA: Society for Tennis Medicine and Science; 1995:6-11
    1. Ellenbecker TS, Roetert EP, Bailie DS, Davies GJ, Brown SW. Glenohumeral joint total rotation range of motion in elite tennis players and baseball pitchers. Med Sci Sports Exerc. 2002;34(12):2052-2056
    1. Elliott B, Fleisig G, Nicholls R, Escamilla R. Technique effects on upper limb loading in the tennis serve. J Sci Med Sport. 2003;6(1):76-87
    1. Fleisig GS, Andrews JR, Dillman CJ, Escamilla RF. Kinetics of baseball pitching with implications about injury mechanisms. Am J Sports Med. 1995;23(2):233-239
    1. Fleisig GS, Barrentine SW, Zheng N, Escamilla RF, Andrews JR. Kinematic and kinetic comparison of baseball pitching among various levels of development. J Biomech. 1999;32(12):1371-1375
    1. Fleisig G, Chu Y, Weber A, Andrews J. Variability in baseball pitching biomechanics among various levels of competition. Sports Biomech. 2009;8(1):10-21
    1. Fleisig GS, Escamilla RF, Andrews JR, Matsuo T, Satterwhite Y, Barrentine SW. Kinematic and kinetic comparison between baseball pitching and football passing. J Appl Biomech. 1996;12(2):207-224
    1. Forthomme B, Croisier JL, Ciccarone G, Crielaard JM, Cloes M. Factors correlated with volleyball spike velocity. Am J Sports Med. 2005;33(10):1513-1519
    1. Kugler A, Kruger-Franke M, Reininger S, Trouillier HH, Rosemeyer B. Muscular imbalance and shoulder pain in volleyball attackers. Br J Sports Med. 1996;30(3):256-259
    1. Lintner D, Noonan TJ, Kibler WB. Injury patterns and biomechanics of the athlete’s shoulder. Clin Sports Med. 2008;27(4):527-551
    1. Maxwell T. A cinematographic analysis of the volleyball spike of selected top-caliber female athletes. Volleyball Tech J. 1981;7(1):43-54
    1. Oka H, Okamoto T, Kumamoto M. Electromyographic and cinematographic study of the volleyball spike. In: Komi P, ed. Biomechanics V-B. Baltimore, MD: University Park Press; 1976:326-331
    1. Plawinski MP. An Analysis of the Different Spike Attack Arm Swings Used in Elite Levels of Men’s Volleyball [dissertation]. Kingston, Ontario, Canada: Queen’s University; 2008
    1. Reagan KM, Meister K, Horodyski MB, Werner DW, Carruthers C, Wilk K. Humeral retroversion and its relationship to glenohumeral rotation in the shoulder of college baseball players. Am J Sports Med. 2002;30(3):354-360
    1. Reeser JC, Joy EA, Porucznik CA, Berg RL, Colliver EB, Willick SE. Risk factors for volleyball-related shoulder pain and dysfunction. Phys Med Rehabil. 2010;2:27-36
    1. Rinderu ET. A biomechanical analysis of the attack strike in the volleyball game. J Biomech. 1998;31(suppl 1):180
    1. Rokito AS, Jobe FW, Pink MM, Perry J, Brault J. Electromyographic analysis of shoulder function during the volleyball serve and spike. J Shoulder Elbow Surg. 1998;7(3):256-263
    1. Sabick MB, Kim YK, Torry MR, Keirns MA, Hawkins RJ. Biomechanics of the shoulder in youth baseball pitchers: implications for the development of proximal humeral epiphysiolysis and humeral retrotorsion. Am J Sports Med. 2005;33(11):1716-1722
    1. Samson J, Roy B. Biomechanical analysis of the volleyball spike. In: Komi P, ed. Biomechanics V-B. Baltimore, MD: University Park Press; 1976:332-336
    1. Schwab LM, Blanch P. Humeral torsion and passive shoulder range in elite volleyball players. Phys Ther Sport. 2009;10(2):51-56
    1. Tilp M, Wagner H, Muller E. Differences in 3D kinematics between volleyball and beach volleyball spike movements. Sports Biomech. 2008;7(3):386-397
    1. Verhagen E, Van der Beek AJ, Bouter L, Bahr RM, Van Mechelen W. A one season prospective cohort study of volleyball injuries. Br J Sports Med. 2004;38(4):477-481
    1. Wagner H, Tilp M, Duvillard SP, Mueller E. Kinematic analysis of volleyball spike jump. Int J Sports Med. 2009:30:760-765
    1. Wang HK, Cochrane T. A descriptive epidemiological study of shoulder injury in top level English male volleyball players. Int J Sports Med. 2001;22(2):159-163

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