Handheld Vibration Effects Shoulder Motion

B. L. Tripp; L. E. Eberman; P. M. Dwelly

doi:10.1055/s-0029-1238288

International Journal of Sports Medicine, Inhaltsverzeichnis

Int J Sports Med 2009; 30(12): 868-871
DOI: 10.1055/s-0029-1238288

Orthopedics & Biomechanics

Handheld Vibration Effects Shoulder Motion

B. L. Tripp¹ , L. E. Eberman² , P. M. Dwelly³

¹University of Florida, Applied Physiology & Kinesiology, Gainesville, United States
²Indiana State University, Athletic Training, Terre Haute, United States
³University of Arkansas, Health Science, Kinesiology, Recreation, and Dance, Fayetteville, United States

Abstract

We explored effects of handheld vibration on glenohumeral motion in competitive overhead-throwing athletes. We used a randomized, blinded pre-test post-test cross-over design. Each arm of each subject experienced 2 conditions (1-control, 1-experimental), each with pre-test and post-test measures; the order of which was randomized. Participants included Division-I baseball and softball players (n=35: age=20±2 yr, height=178±9 cm, mass=84±12 kg, years of sport participation=13±4 yrs). During the experimental condition, participants held a vibrating (2.2 mm, 15 Hz, 20 s), 2.55 kg (5.62 lbs) Mini-VibraFlex dumbbell (Orthometric, New York, NY) in neutral glenohumeral rotation. During the control condition, participants held the still dumbbell (0 mm, 0 Hz, 20 s). Participants rested one min after each trial (3). We used a digital protractor to assess range of motion bilaterally, employing a standard technique for measuring maximal internal (IR) and external rotation (ER). Repeated-measures analyses of variance indicated that range of dominant IR increased 6.8% (p=0.001, ES=0.16) after handheld vibration. Handheld vibration did not affect range of dominant ER (p>0.05, 1-β=0.20), non-dominant IR (p>0.05, 1-β=0.41), or non-dominant ER (p>0.05, 1-β=0.05). Short bouts of handheld vibration increased dominant IR in collegiate baseball and softball athletes. These results suggest that handheld vibration may help maintain glenohumeral IR that is vital to the healthy and competitive throwing shoulder.

Key words

internal rotation - external rotation - overhead-throwing athletes

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Referenzen

References

1 Awan R, Smith J, Boon AJ. Measuring shoulder internal rotation range of motion: A comparison of 3 techniques. Arch Phys Med Rehabil. 2002; 83 1229-1234
2 Baltaci G, Johnson R, Kohl III H. Shoulder range of motion characteristics in collegiate baseball players. J Sports Med Phys Fitness. 2001; 41 236-242
3 Bigliani LU, Codd TP, Connor PM, Levine WN, Littlefield MA, Hershon SJ. Shoulder motion and laxity in the professional baseball player. Am J Sports Med. 1997; 25 609-613
4 Burns PA, Beekhuizen KS, Jacobs PLF. Acute effects of whole-body vibration and bicycle ergometry on muscular strength and flexibility. Med Sci Sports Exerc. 2005; 37 S262-S263
5 Cardinale M, Lim J. The acute effects of two different whole body vibration frequencies on vertical jump performance. Med Del Sport. 2003; 56 287-292
6 Cormie P, Deane RS, Triplett NT, McBride JM. Acute effects of whole-body vibration on muscle activity, strength, and power. J Strength Cond Res. 2006; 20 257-261
7 Issurin VB. Vibrations and their applications in sport A review. J Sports Med Phys Fitness. 2005; 45 324-336
8 Issurin VB, Liebermann DG, Tenenbaum G. Effect of vibratory stimulation training on maximal force and flexibility. J Sports Sci. 1994; 12 561-566
9 Jobe FW, Tibone JE, Perry J, Moynes D. An EMG analysis of the shoulder in throwing and pitching. A preliminary report. Am J Sports Med. 1983; 11 3-5
10 Jordan MJ, Norris SR, Smith DJ, Herzog W. Vibration training: An overview of the area, training consequences, and future considerations. J Strength Cond Res. 2005; 19 459-466
11 Kerschan-Schindl K, Grampp S, Henk C, Resch H, Preisenger E, Fialka-Moser V, Imhof H. Whole-body vibration exercise leads to alterations in muscle blood volume. Clin Physiol. 2001; 21 377-382
12 Kyrolainen H, Avela J, McBride JM, Koskinen S, Andersen JL, Sipila S, Takala TES, Komi PV. Effects of power training on muscle structure and neuromuscular performance. Scand J Med Sci Sports. 2005; 15 58-64
13 Laudner KG, Sipes RC, Wilson JT. The acute effects of sleeper stretches on shoulder range of motion. J Athl Train. 2008; 43 359-363
14 Lintner SA, Levy A, Kenter K, Speer KP. Glenohumeral translation in the asymptomatic athlete's shoulder and its relationship to other clinically measurable anthropometric variables. Am J Sports Med. 1996; 24 716-720
15 Lundeberg T, Nordemar R, Ottoson D. Pain alleviation by vibratory stimulation. Pain. 1984; 20 25-44
16 Mester J, Kleinoder H, Yue Z. Vibration training: benefits and risks. J Biomech. 2006; 39 1056-1065
17 Morgan CD, Burkhart SS, Palmeri M, Gillespie M. Type II SLAP lesions: Three subtypes and their relationships to superior instability and rotator cuff tears. Arthroscopy. 1998; 14 553-565
18 Myers JB, Laudner KG, Pasquale MR, Bradley JP, Lephart SM. Glenohumeral range of motion deficits and posterior shoulder tightness in throwers with pathologic internal impingement. Am J Sports Med. 2006; 34 385-391
19 Norkin CC, White DJ. (eds) Measurement of Joint Motion: A Guide to Goniometry. Philadelphia: FA Davis Company 2003
20 Rittweger J, Schiessl H, Felsenberg D. Oxygen uptake during whole-body vibration exercise: Comparison with squatting as a slow voluntary movement. Eur J Appl Physiol. 2001; 86 169-173
21 Rogers DK, Bendrups AP, Lewis MM. Disturbed proprioception following a period of muscle vibration in humans. Neurosci Lett. 1985; 57 147-152
22 Ruotolo C, Price E, Panchal A. Loss of total arc of motion in collegiate baseball players. J Shoulder Elbow Surg. 2006; 15 67-71
23 Safran MR, Borsa PA, Lephart SM, Fu FH, Warner JJ. Shoulder proprioception in baseball pitchers. J Shoulder Elbow Surg. 2001; 10 438-444
24 Sands W, McNeal J, Stone M, Russell E, Jemni M. Flexibility enhancement with vibration: Acute and long-term. Med Sci Sports Exerc. 2006; 38 720
25 van den Tillar R. Will whole-body vibration training help increase the range of motion of the hamstrings?. J Strength Cond Res. 2006; 20 192-196
26 van Nes IJW, Geurts AC, Hendricks HT, Duysens J. Short-term effects of whole-body vibration on postural control in unilateral chronic stroke patients: Preliminary evidence. Am J Phys Med Rehabil. 2004; 83 867-873
27 Wilk KE, Meister K, Andrews JR. Current concepts in the rehabilita-tion of the overhead throwing athlete. Am J Sports Med. 2002; 30 136-151
28 Wilk KE, Reinold MM, Andrews JR. Rehabilitation of the thrower's elbow. Clin Sports Med. 2004; 23 765-801
29 Zachazewski J. Flexibility for Sports, in Lippincott Williams & Wilkins, eds Therapeutic exercise: Techniques for intervention. Philadelphia: Baltimore, MD: Lippincott Williams & Wilkins 2001

Correspondence

Dr. L. E. Eberman

Indiana State University Athletic Training

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