Common protective movements govern unexpected falls from standing height

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Hsiao, E. T.¹; Robinovitch, S. N.¹

Common protective movements govern unexpected falls from standing height

J Biomech. January 1998;31(1):1-9

©1998 Elsevier Science Ltd. All rights reserved.

Affiliations

¹Biomechanics Laboratory, Department of Orthopaedic Surgery, San Francisco General Hospital, University of California, San Francisco, San Francisco, CA 94110, U.S.A.
Abstract and keywords

Simple energy considerations suggest that any fall from standing height has the potential to cause hip fracture. However, only 1–2% of falls among the elderly actually result in hip fracture, and less than 10% cause serious injury. This suggests that highly effective movement strategies exist for preventing injury during a fall. To determine the nature of these, we measured body segment movements as subjects (aged 22–35 yr) stood upon a gymnasium mattress and attempted to prevent themselves from falling after the mattress was made to translate abruptly. Subjects were more than twice as likely to fall after anterior translations of the feet, when compared to posterior or lateral translations. In falls which resulted in impact to the pelvis, a complex sequence of upper extremity movements allowed subjects to impact their wrist at nearly the same instant as the pelvis (average time interval between contacts=38 ms), suggesting a sharing of contact energy between the two body parts. Finally, marked trunk rotation was exhibited in falls due to lateral (but not anterior or posterior) perturbations, resulting in the avoidance of impact to the lateral aspect of the hip. These results suggest that body segment movements during falls, rather than being random and unpredictable, involve a repeatable series of responses which facilitate safe landing.

Keywords: Falls; Balance; Hip fracture; Wrist fracture; Protective responses
Links

DOI: 10.1016/S0021-9290(97)00114-0

PubMed: 9596532

WoS: 000073974600001
History

Revised: 1997-10-16

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Cited By (21)

Year	Entry
2015	Siegmund GP, Chimich DD, Elkin BS. Role of muscles in accidental injury. In: Yoganandan N, Nahum AM, Melvin JW, eds. Accidental Injury: Biomechanics and Prevention. 3rd ed. New York: Springer; 2015:611-642.
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2003	Row BS. Weight-Bearing Speed of Movement in Older Adults: The Effects of High-Velocity Resistance Training [PhD thesis]. State College, PA: Pennsylvania State University; August 2003.
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2018	Keaton Alexander Inkol. Modelling Dynamic Postural Stability Margins During Fixed-Support Balance Recovery [Master's thesis]. University of Guelph; July 2018.
2011	Telonio A. Effets de l'âge et de la direction de la perte d'équilibre sur l'habileté a rétablir l'équilibre et éviter une chute [PhD thesis]. Université de Sherbrooke; November 2011.
2014	Thiaux V. Determining If a Balance Recovery is Possible or If a Fall is Unavoidable for Two Postural Perturbations: Lean Release and Surface Translation [Master's thesis]. Université de Sherbrooke; January 2014.
2018	Komisar V. Effect of Handrail Height on Balance Recovery Reactions in Younger and Older Adults [PhD thesis]. University of Toronto; 2018.
2017	Weaver TB. New Insights Into the Landing Phase of Reactive Stepping: Predictors of Control, Muscle Recruitment, Movement Restraints and Two-Step Responses [PhD thesis]. University of Waterloo; 2017.
2011	Burkhart TA. Biomechanics of the Upper Extremity in Response to Dynamic Impact Loading Indicative of a Forward Fall: An Experimental and Numerical Investigation [PhD thesis]. University of Windsor; 2011.
2013	Reeves JM. Development and Assessment of an Impact Apparatus and High-Speed Camera Motion Tracking System to Quantify the Effect of Static Muscle Loads on Fracture Threshold Measures in the Distal Radius [Master's thesis]. University of Western Ontario; 2013.