Longitudinal changes in youth baseball batting based on body rotation and separation

Toshiharu Tsutsui; Jun Sakata; Wataru Sakamaki; Toshihiro Maemichi; Suguru Torii

doi:10.1186/s13102-023-00774-5

Longitudinal changes in youth baseball batting based on body rotation and separation

BMC Sports Sci Med Rehabil. 2023 Nov 28;15(1):162. doi: 10.1186/s13102-023-00774-5.

Authors

Toshiharu Tsutsui¹, Jun Sakata², Wataru Sakamaki³, Toshihiro Maemichi⁴, Suguru Torii⁴

Affiliations

¹ Faculty of Sport Sciences, Waseda University, Tokorozawa, Japan. 221tharu@gmail.com.
² Toyota Athlete Support Center, Toyota Memorial Hospital, Toyota, Japan.
³ Graduate School of Sport Sciences, Waseda University, Tokorozawa, Japan.
⁴ Faculty of Sport Sciences, Waseda University, Tokorozawa, Japan.

Abstract

Background: Identifying the characteristics of batting mechanics, such as the proper angle and position of each body segment in youth baseball players, is important for proper instructions. This study aimed to identify the age-related changes in batting kinematics including rotational and separational movements of the head, upper trunk, pelvis, and arms, in youth baseball players.

Methods: Over the three seasons, we measured the batting motion of baseball players aged 6- to 12 years using three high-speed cameras. Participants were divided into six age categories according to the little league eligibility rules (players were classified according to their age as of July 31 of a given year). Toss batting was performed using an automatic tossing machine set obliquely in front of the batter. Additionally, we analyzed the rotation angles of the head, upper trunk, pelvis, and arm direction, and the separation angles-calculated using the difference of each rotational angle and the head movement distance and step width-at five points in batting phase: stance, load, foot contact, pre-swing, and ball contact. Finally, 17 players from under 8 (U8, i.e., approximately 7-8 years) to U10 and 13 from U11 to U13 were analyzed. A one-way repeated measures analysis of variance was performed to analyze age-related changes in batting kinematics.

Results: Several age-related changes in batting kinematics at various batting point were observed. The head-to-upper trunk separation angle increased with age from U8 to U10 during the foot contact (effect sizes [ES] = 0.658) and from U11 to U13 during the pre-swing (ES = 0.630). Additionally, the U13 showed a significantly increase in the upper and pelvis separation angles during load, foot contact, and pre-swing compared with U11 and U12 (ES = 0.131, 0.793, and 0.480).

Conclusion: Various changes in batting kinematics occurred among each age group. Notably, U12 and U13 had the greater upper trunk-to-pelvis separation angle at foot contact and pre-swing compared to U11. Therefore, it would be important for the instruction of younger baseball players to understand the underdevelopment of trunk separation when batting and encourage the acquisition of such separation movements.

Keywords: Athletic performance; Biomechanics; Hitting; Longitudinal study; Youth athlete.