Browse > Article

Gait Analysis on Unexpected Missing Foot Steps  

Hwang, Sun-Hong (연세대학교 대학원 의공학부)
Ryu, Ki-Hong (연세대학교 대학원 의공학부)
Keum, Young-Kwang (연세대학교 대학원 의공학부)
Kim, Young-Ho (연세대학교 의공학부, 의료공학연구원)
Publication Information
Journal of the Korean Society for Precision Engineering / v.24, no.1, 2007 , pp. 85-92 More about this Journal
Abstract
In the present study, three-dimensional motion analyses were performed to determine biomechanics of the lower extremity in unexpected missing foot steps for ten healthy young volunteers. In unexpected missing foot steps, the whole plantar surface of the foot or the heel contacted to the ground. A rapid ankle dorsiflexion was found right after missing foot steps and an increased plantarflexion moment was noted during loading response. After the unexpected situation, the breaking force increased rapidly. At this time, both tibialis anterior and soleus were simultaneously activated. Moreover, the range of motion at ankle, knee and hip significantly decreased during stance. In pre-swing, rectus femoris and biceps femoris prevented the collapse of the lower limbs. During late stance, propulsive forces decreased and thus, both plantarflexion moment and power generation were significantly reduced. On the opposite side, hip extension and pelvic upward motion during terminal swing were significant. Due to the shortened pre-swing, the energy generation at the ankle to push sufficiently off the ground was greatly reduced. This preliminary study would be helpful to understand the biomechanics of unexpected dynamic perturbations and valuable to prevent frequent falling of the elderly and patients with gait disorders.
Keywords
unexpected missing foot steps; gait analysis; perturbation; postural balance;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Horak, F. B., 'Clinical Assessment of Balance Disorder,' Gait and Posture, Vol. 6, pp. 76-84, 1997   DOI   ScienceOn
2 Hughes, M. A., 'Posture Responses to Platform Perturbation: Kinematics and Electromyography,' Clinical Biomechanics, Vol. 10, pp. 318-322, 1995   DOI   ScienceOn
3 Cham, R. and Redfern, M. S., 'Lower Extremity Corrective Reactions to Slip Event,' J. Biomechanics, Vol. 34, pp. 1439-1445, 2001   DOI   ScienceOn
4 Ferber, R., 'Reactive Balance Adjustments to Unexpected Perturbations During Human Walking,' Gait and Posture, Vol. 16, pp. 238-248, 2002   DOI   ScienceOn
5 Ferber, R., 'Gait Perturbation Response in Chronic Anterior Cruciate Ligament Deficiency and Repair,' Clinical Biomechanics, Vol. 18, pp. 132-141, 2003   DOI   ScienceOn
6 Bhatt, T., 'Influence of Gait Speed on Stability: Recovery from Anterior Slip and Compensatory Stepping,' Gait and Posture, In Press, 2004
7 Hof, A. L., 'On the Interpretation of the Support Moment,' Gait and Posture, Vol. 12, pp. 196-199, 2000   DOI   ScienceOn
8 Shumway-Cook, A. and Woollacott, M. H., 'Motor Control: Theory and Practical Applications, Baltimore,' Lippincott Willams & Wilkins, 2001
9 Kauffman, T. L., 'Geriatric Rehabilitation Manual,' Churchill Livingstone, 1999
10 Cordero, A. F., 'Multiple-Step Strategies to Recover from Stumbling Perturbations,' Gait and Posture, Vol. 18, pp. 47-59, 2003
11 You, J. Y., 'Effect of Slip on Movement of Body Center of Mass Relative to Base of Support,' Clinical Biomechanics, Vol. 16, pp. 167-173, 2001   DOI   ScienceOn
12 Pai, Y. C., 'Static versus Dynamic Predictions of Protective Stepping Following Waist-Pull Perturbations in Young and Older Adults,' J. Biomechanics, Vol. 31, pp. 1111-1118, 1998   DOI   ScienceOn
13 Tae, K. S. and Kim, Y. H, 'Balance Recovery Mechanisms Against Anterior Perturbation during Standing,' J. Biomedical Eng. Res., Vol. 24, pp. 435-442, 2003   과학기술학회마을
14 Winter, D. A., 'Anatomy, Biomechanics and Control of Balance During Standing and Walking,' Waterloo Biomechanics Inc., 1995
15 Tideiksaar, R., 'Falling in Old Age: Its Prevention and Treatment,' Springer, 1987
16 Nashner, L. and McCollum, G., 'The Organization of Human Postural Movements: A Formal Basis and Experimental Synthesis,' Behav, Brain Sci., Vol. 8, pp. 135-172, 1985   DOI