1. Relationship between foot morphologic characteristic and postural control after jump-landing in youth competitive athletes.
- Author
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Maeda, Noriaki, Tsutsumi, Shogo, Arima, Satoshi, Ikuta, Yasunari, Ushio, Kai, Komiya, Makoto, Tashiro, Tsubasa, Nishikawa, Yuichi, Kobayashi, Toshiki, Nakasa, Tomoyuki, Adachi, Nobuo, and Urabe, Yukio
- Subjects
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ULTRASONIC imaging of the foot , *FOOT physiology , *FOOT anatomy , *BIOMECHANICS , *SKELETAL muscle , *STRETCH (Physiology) , *STANDING position , *MULTIPLE regression analysis , *MUSCLE strength , *SITTING position , *JUMPING , *ATHLETIC ability , *POSTURAL balance , *ADOLESCENCE - Abstract
BACKGROUND: Foot arch dynamics play an important role in dynamic postural control. Association between foot arch dynamics and postural control among adolescent athletes remains poorly explored. OBJECTIVE: To examine the relationship between foot arch dynamics, intrinsic foot muscle (IFM) morphology, and toe flexor strength and dynamic postural stability after jump landing and repetitive rebound jump performance in competitive adolescent athletes. METHODS: Based on foot arch dynamics, evaluated from relative change in the foot arch height in sitting and standing positions, 50 adolescent athletes were classified as stiff, normal, or flexible. IFM morphology was evaluated by ultrasonography. Dynamic postural stability index (DPSI) was measured as participants jumped and landed with the right leg onto a force plate, whereas repetitive rebound jumping performance was assessed using the jump height and reactive jump index. RESULTS: The stiff group had a significantly worse DPSI and vertical stability index than the normal group (p = 0.26, p = 0.44, respectively), and worse anteroposterior stability index (APSI) values than the flexible group (p = 0.005). Multivariate regression models of the relationship between the APSI and foot arch dynamics showed adequate power (probability of error = 0.912). CONCLUSIONS: Increased foot arch stiffness negatively affects dynamic balance during jump-landing, which may deteriorate their performance. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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