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The effects of load carriage and muscle fatigue on lower-extremity joint mechanics.
Res Q Exerc Sport. 2013 Sep; 84(3):305-12.RQ

Abstract

Military personnel are commonly afflicted by lower-extremity overuse injuries. Load carriage and muscular fatigue are major stressors during military basic training.

PURPOSE

To examine effects of load carriage and muscular fatigue on lower-extremity joint mechanics during walking.

METHOD

Eighteen men performed the following tasks: unloaded walking, walking with a 32-kg load, fatigued walking with a 32-kg load, and fatigued walking. After the second walking task, muscle fatigue was elicited through a fatiguing protocol consisting of metered step-ups and heel raises with a 16-kg load. Each walking task was performed at 1.67 m x s(-1) for 5 min. Walking movement was tracked by a VICON motion capture system at 120 Hz. Ground reaction forces were collected by a tandem force instrumented treadmill (AMTI) at 2,400 Hz. Lower-extremity joint mechanics were calculated in Visual 3D.

RESULTS

There was no interaction between load carriage and fatigue on lower-extremity joint mechanics (p > .05). Both load carriage and fatigue led to pronounced alterations of lower-extremity joint mechanics (p < .05). Load carriage resulted in increases of pelvis anterior tilt, hip and knee flexion at heel contact, and increases of hip, knee, and ankle joint moments and powers during weight acceptance. Muscle fatigue led to decreases of ankle dorsiflexion at heel contact, dorsiflexor moment, and joint power at weight acceptance. In addition, muscle fatigue increased demand for hip extensor moment and power at weight acceptance.

CONCLUSION

Statistically significant changes in lower-extremity joint mechanics during loaded and fatigued walking may expose military personnel to increased risk for overuse injuries.

Authors+Show Affiliations

Wang H
School of Physical Education, Sport, and Exercise Science, Ball State University, Muncie, IN 47306, USA. hwang2@bsu.edu
Frame J
No affiliation info available
Ozimek E
No affiliation info available
Leib D
No affiliation info available
Dugan EL
No affiliation info available

MeSH

Ankle JointBiomechanical PhenomenaExercise TestHip JointHumansKnee JointLower ExtremityMaleMilitary PersonnelMuscle FatigueWalkingWeight-BearingYoung Adult

Pub Type(s)

Journal Article
Research Support, U.S. Gov't, Non-P.H.S.

Language

eng

PubMed ID

24261009

Citation

Wang, He, et al. "The Effects of Load Carriage and Muscle Fatigue On Lower-extremity Joint Mechanics." Research Quarterly for Exercise and Sport, vol. 84, no. 3, 2013, pp. 305-12.
Wang H, Frame J, Ozimek E, et al. The effects of load carriage and muscle fatigue on lower-extremity joint mechanics. Res Q Exerc Sport. 2013;84(3):305-12.
Wang, H., Frame, J., Ozimek, E., Leib, D., & Dugan, E. L. (2013). The effects of load carriage and muscle fatigue on lower-extremity joint mechanics. Research Quarterly for Exercise and Sport, 84(3), 305-12.
Wang H, et al. The Effects of Load Carriage and Muscle Fatigue On Lower-extremity Joint Mechanics. Res Q Exerc Sport. 2013;84(3):305-12. PubMed PMID: 24261009.
* Article titles in AMA citation format should be in sentence-case
TY - JOUR T1 - The effects of load carriage and muscle fatigue on lower-extremity joint mechanics. AU - Wang,He, AU - Frame,Jeff, AU - Ozimek,Elicia, AU - Leib,Daniel, AU - Dugan,Eric L, PY - 2013/11/23/entrez PY - 2013/11/23/pubmed PY - 2014/1/29/medline SP - 305 EP - 12 JF - Research quarterly for exercise and sport JO - Res Q Exerc Sport VL - 84 IS - 3 N2 - UNLABELLED: Military personnel are commonly afflicted by lower-extremity overuse injuries. Load carriage and muscular fatigue are major stressors during military basic training. PURPOSE: To examine effects of load carriage and muscular fatigue on lower-extremity joint mechanics during walking. METHOD: Eighteen men performed the following tasks: unloaded walking, walking with a 32-kg load, fatigued walking with a 32-kg load, and fatigued walking. After the second walking task, muscle fatigue was elicited through a fatiguing protocol consisting of metered step-ups and heel raises with a 16-kg load. Each walking task was performed at 1.67 m x s(-1) for 5 min. Walking movement was tracked by a VICON motion capture system at 120 Hz. Ground reaction forces were collected by a tandem force instrumented treadmill (AMTI) at 2,400 Hz. Lower-extremity joint mechanics were calculated in Visual 3D. RESULTS: There was no interaction between load carriage and fatigue on lower-extremity joint mechanics (p > .05). Both load carriage and fatigue led to pronounced alterations of lower-extremity joint mechanics (p < .05). Load carriage resulted in increases of pelvis anterior tilt, hip and knee flexion at heel contact, and increases of hip, knee, and ankle joint moments and powers during weight acceptance. Muscle fatigue led to decreases of ankle dorsiflexion at heel contact, dorsiflexor moment, and joint power at weight acceptance. In addition, muscle fatigue increased demand for hip extensor moment and power at weight acceptance. CONCLUSION: Statistically significant changes in lower-extremity joint mechanics during loaded and fatigued walking may expose military personnel to increased risk for overuse injuries. SN - 0270-1367 UR - https://www.unboundmedicine.com/medline/citation/24261009/The_effects_of_load_carriage_and_muscle_fatigue_on_lower_extremity_joint_mechanics_ DB - PRIME DP - Unbound Medicine ER -