Relationships between Bat Swing Speed and Muscle Thickness and Asymmetry in Collegiate Baseball Players.

Ryo Tsuchikane,Yuto Miyake,Takatoshi Higuchi,Michio Wachi,Tadao Isaka,Daichi Tanaka,Jun Misaki,Tadashi Suga

doi:10.3390/sports5020033

Ryo Tsuchikane, Yuto Miyake + Show 6 more

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https://doi.org/10.3390/sports5020033

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Journal: Sports	Publication Date: Jun 2, 2017
Citations: 10	License type: CC BY 4.0

Affiliation: Ritsumeikan University, Fukuoka Institute of Technology

Abstract

The purpose of the present study was to examine the relationships between bat swing speed (BSS), muscle thickness, and muscle thickness asymmetry in collegiate baseball players. Twenty-four collegiate baseball players participated in this study. Maximum BSS in hitting a teed ball was measured using a motion capture system. The muscle thicknesses of the trunk (upper abdominal rectus, central abdominal rectus, lower abdominal rectus, abdominal wall, and multifidus lumborum), upper limb, and lower limb were measured using a B-mode ultrasonography. Lateral asymmetry between each pair of muscles was determined as the ratio of the thickness of the dominant side to that of the non-dominant side. Statistically significant positive correlations were observed between BSS and muscle thicknesses of the abdominal wall and multifidus lumborum on the dominant side (r = 0.426 and 0.431, respectively; p < 0.05), whereas only trends against this significance were observed between BSS and muscle thicknesses on the non-dominant side. No statistical correlations were found between BSS and the lateral asymmetry of any muscles. These findings indicate the importance of the trunk muscles for bat swing, and the lack of association between BSS and lateral asymmetry of muscle size.

Highlights

Baseball hitting requires making contact with a thrown ball that passes the home plate in less than 0.5 s
A cross-sectional design was employed to analyze the correlations between bat swing speed (BSS), muscle thickness, and lateral asymmetry of the trunk and limbs in order to examine the relationships of baseball hitting performance with muscle thickness and lateral asymmetry
The results in the present study suggest that muscle size rather than lateral asymmetry is more important to achieve high BSS

Summary

Introduction

Baseball hitting requires making contact with a thrown ball that passes the home plate in less than 0.5 s. A certain batted ball speed is necessary to avoid being caught by field players and to travel farther. Bat swing speed (BSS) is one of the main determinants of baseball hitting performance, because a higher BSS can produce a shorter swing time and higher batted-ball velocity [1,2]. Studies of high school and collegiate baseball players have revealed statistically significant positive correlations between BSS and maximum muscle strength of the upper and lower limbs [3,4,5]. Because muscle volume and muscle strength are closely related, muscle volume should be positively correlated with BSS [6]. Unlike muscle strength measured by dynamometers, muscle size can be measured precisely independent of synergistic muscles using a clinical imaging apparatus, such as ultrasonography, computed tomography, or magnetic resonance

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