Can We Modify Maximal Speed Running Posture? Implications for Performance and Hamstring Injury Management.
Autor: | Mendiguchia, Jurdan, Castaño-Zambudio, Adrián, Jiménez-Reyes, Pedro, Morin, Jean–Benoît, Edouard, Pascal, Conceição, Filipe, Tawiah-Dodoo, Jonas, Colyer, Steffi L. |
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Předmět: |
LEG physiology
LUMBAR vertebrae physiology HAMSTRING muscle injuries SPORTS injury prevention PELVIC physiology EXERCISE tests RESISTANCE training RUNNING CLINICAL trials AMATEUR athletes ANALYSIS of variance PHYSICAL therapy PHYSICAL training & conditioning PRE-tests & post-tests COMPARATIVE studies POSTURE BODY movement DESCRIPTIVE statistics MANIPULATION therapy PHYSICAL mobility COMBINED modality therapy ATHLETIC ability EXERCISE therapy KINEMATICS SPRINTING LEG injuries LONGITUDINAL method PELVIS |
Zdroj: | International Journal of Sports Physiology & Performance; Mar2022, Vol. 17 Issue 3, p374-383, 10p, 1 Diagram, 1 Chart, 3 Graphs |
Abstrakt: | Purpose: Sprint kinematics have been linked to hamstring injury and performance. This study aimed to examine if a specific 6-week multimodal intervention, combining lumbopelvic control and unning technique exercises, induced changes in pelvis and lower-limb kinematics at maximal speed and improved sprint performance. Methods: Healthy amateur athletes were assigned to a control or intervention group (IG). A sprint test with 3-dimensional kinematic measurements was performed before (PRE) and after (POST) 6 weeks of training. The IG program included 3 weekly sessions integrating coaching, strength and conditioning, and physical therapy approaches (eg, manual therapy, mobility, lumbopelvic control, strength and sprint "front-side mechanics"-oriented drills). Results: Analyses of variance showed no between-group differences at PRE. At POST, intragroup analyses showed PRE–POST differences for the pelvic (sagittal and frontal planes) and thigh kinematics and improved sprint performance (split times) for the IG only. Specifically, IG showed (1) a lower anterior pelvic tilt during the late swing phase, (2) greater pelvic obliquity on the free-leg side during the early swing phase, (3) higher vertical position of the front-leg knee, (4) an increase in thigh angular velocity and thigh retraction velocity, (5) lower between-knees distance at initial contact, and (6) a shorter ground contact duration. The intergroup analysis revealed disparate effects (possibly to very likely) in the most relevant variables investigated. Conclusion: The 6-week multimodal training program induced clear pelvic and lower-limb kinematic changes during maximal speed sprinting. These alterations may collectively be associated with reduced risk of muscle strain and were concomitant with significant sprint performance improvement. [ABSTRACT FROM AUTHOR] |
Databáze: | Complementary Index |
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