Postural sway and joint kinematics during quiet standing are affected by lumbar extensor fatigue

Madigan, Michael L.<sup>1,2</sup>; Davidson, Bradley S.<sup>2</sup>; Nussbaum, Maury A.<sup>2,3</sup>

Affiliations

¹Department of Engineering Science and Mechanics, Virginia Tech (0219), Blacksburg, VA 24061, United States

²Virginia Tech – Wake Forest School of Biomedical Engineering and Sciences, Virginia Tech (0298), Blacksburg, VA 24061, United States

³Department of Industrial and Systems Engineering, Virginia Tech (0118), Blacksburg, VA 24061, United States

Abstract

The purpose of this study was to investigate changes in postural sway and strategy elicited by lumbar extensor muscle fatigue. Specifically, changes in center of mass (COM), center of pressure (COP), and joint kinematics during quiet standing were determined, as well as selected cross correlations between these variables that are indicative of movement strategy. Twelve healthy male participants stood quietly both before and after exercises that fatigued the lumbar extensors. Whole-body movement and ground reaction force data were recorded and used to calculate mean body posture and variability of COM, COP, and joint kinematics during quiet standing. Three main findings emerged. First, participants adopted a slight forward lean post-fatigue as evidenced by an anterior shift of the COM and COP. Second, post-fatigue increases in joint angle variability were observed at multiple joints including joints distal to the fatigued musculature. Despite these increases, anterior–posterior (AP) ankle angle correlated well with AP COM position, suggesting the body still behaved similar to an inverted pendulum. Third, global measures of sway based on COM and COP were not necessarily indicative of changes in individual joint kinematics. Thus, in trying to advance our understanding of how localized fatigue affects movement patterns and the postural control system, it appears that joint kinematics and/or multivariate measures of postural sway are necessary.

Links

DOI: 10.1016/j.humov.2006.04.004

PubMed: 16884800

WoS: 000242541300007

History

Online: 2006-08-1

Cited Works (3)

Year	Entry
1996	de Leva P. Adjustments to Zatsiorsky-Seluyanov's segment inertia parameters. J Biomech. September 1996;29(9):1223-1230.
2004	Davidson BS, Madigan ML, Nussbaum MA. Effects of lumbar extensor fatigue and fatigue rate on postural sway. Euro J Appl Physiol. October 2004;93(1):183-189.
2003	Nussbaum MA. Postural stability is compromised by fatiguing overhead work. AIHA J. January–February 2003;64(1):56-61.

Cited By (5)

Year	Entry
2017	Giraldo C. Single Inverted Pendulum Validation for Bi-Pedal Quiet Standing in Healthy Controls and Persons With Parkinson's Disease [Master's thesis]. Lawrence, KS: University of Kansas; 2017.
2009	Navalgund AR. Evaluating the Effect of a 10-Week Stabilization Exercise Program on the Postural Stability and the Neuromuscular Control of the Spine in Subjects With Subacute Recurrent Low Back Pain [PhD thesis]. The Ohio State University; 2009.
2017	Raabe ME. The Effect of Core Stability on Running Mechanics in Novice Runners [PhD thesis]. The Ohio State University; 2017.
2010	Madsen Baker K. Effects of Sternocleidomastoid Muscle Fatigue on Cervical Spine Kinematics and Postural Responses to Trunk Perturbation [Master's thesis]. University of Guelph; December 2010.
2007	Davidson BS. Experimental and Simulation-Based Assessment of the Human Postural Response to Sagittal Plane Perturbations With Localized Muscle Fatigue and Aging [PhD thesis]. Virginia Polytechnic Institute and State University; October 12, 2007.