The role of arm swing in running has been minimally described, and the contributions of arm motion to lower extremity joint kinematics and external force generation are unknown. These contributions may have implications in the design of musculoskeletal models for computer simulations of running, since previous models have usually not included articulating arm segments. 3D stance phase lower extremity joint angles and ground reaction forces (GRFs) were determined for seven subjects running normally, and running under two conditions of arm restraint. When arm swing was suppressed, the peak vertical GRF decreased by 10–13% bodyweight, and the peak lateral GRF increased by 4–6% bodyweight. Changes in peak joint angles on the order of 1–5 deg were observed for hip flexion, hip adduction, knee flexion, knee adduction, and ankle abduction. The effect sizes (ES) were small to moderate for most of the peak GRF differences, but large for most of the peak joint angle differences. These changes suggest that suppression of arm swing induces subtle but statistically significant changes in the kinetic and kinematic patterns of running. However, the salient features of the GRFs and the joint angles were present in all conditions, and arm swing did not introduce any major changes in the timing of these data, as indicated by cross correlations. The decision to include arm swing in a computer model will likely need to be made on a case-by-case basis, depending on the design of the study and the accuracy needed to answer the research question.
Skip Nav Destination
e-mail: rhmiller@kin.umass.edu
Article navigation
December 2009
Technical Briefs
Ground Reaction Forces and Lower Extremity Kinematics When Running With Suppressed Arm Swing
Ross H. Miller,
Ross H. Miller
Department of Kinesiology,
e-mail: rhmiller@kin.umass.edu
University of Massachusetts
, 30 Eastman Lane, Amherst, MA 01003
Search for other works by this author on:
Graham E. Caldwell,
Graham E. Caldwell
Department of Kinesiology,
University of Massachusetts
, 30 Eastman Lane, Amherst, MA 01003
Search for other works by this author on:
Richard E. A. Van Emmerik,
Richard E. A. Van Emmerik
Department of Kinesiology,
University of Massachusetts
, 30 Eastman Lane, Amherst, MA 01003
Search for other works by this author on:
Brian R. Umberger,
Brian R. Umberger
Department of Kinesiology,
University of Massachusetts
, 30 Eastman Lane, Amherst, MA 01003
Search for other works by this author on:
Joseph Hamill
Joseph Hamill
Department of Kinesiology,
University of Massachusetts
, 30 Eastman Lane, Amherst, MA 01003
Search for other works by this author on:
Ross H. Miller
Department of Kinesiology,
University of Massachusetts
, 30 Eastman Lane, Amherst, MA 01003e-mail: rhmiller@kin.umass.edu
Graham E. Caldwell
Department of Kinesiology,
University of Massachusetts
, 30 Eastman Lane, Amherst, MA 01003
Richard E. A. Van Emmerik
Department of Kinesiology,
University of Massachusetts
, 30 Eastman Lane, Amherst, MA 01003
Brian R. Umberger
Department of Kinesiology,
University of Massachusetts
, 30 Eastman Lane, Amherst, MA 01003
Joseph Hamill
Department of Kinesiology,
University of Massachusetts
, 30 Eastman Lane, Amherst, MA 01003J Biomech Eng. Dec 2009, 131(12): 124502 (5 pages)
Published Online: November 4, 2009
Article history
Received:
January 14, 2009
Revised:
June 10, 2009
Posted:
September 1, 2009
Published:
November 4, 2009
Online:
November 4, 2009
Citation
Miller, R. H., Caldwell, G. E., Van Emmerik, R. E. A., Umberger, B. R., and Hamill, J. (November 4, 2009). "Ground Reaction Forces and Lower Extremity Kinematics When Running With Suppressed Arm Swing." ASME. J Biomech Eng. December 2009; 131(12): 124502. https://doi.org/10.1115/1.4000088
Download citation file:
Get Email Alerts
Related Articles
Comparative Assessment of Bone Pose Estimation Using Point Cluster Technique and OpenSim
J Biomech Eng (November,2011)
Design of an Endoreactor for the Cultivation of a Joint-Like-Structure
J. Med. Devices (June,2009)
Use of Virtual, Interactive, Musculoskeletal System (VIMS) in Modeling and Analysis of Shoulder Throwing Activity
J Biomech Eng (June,2005)
Development and Validation of a 3-D Model to Predict Knee Joint Loading During Dynamic Movement
J Biomech Eng (December,2003)
Related Proceedings Papers
Related Chapters
A New Load Application System for In Vitro Study of Ligamentous Injuries to the Human Knee Joint
Skiing Trauma and Safety: Tenth Volume
Human Thermal Comfort
Electromagnetic Waves and Heat Transfer: Sensitivites to Governing Variables in Everyday Life
Intuitive Optimization
Engineering Optimization: Applications, Methods, and Analysis