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Original Articles

Effect of Active Muscle Forces on Knee Injury Risks for Pedestrian Standing Posture at Low-Speed Impacts

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Pages 544-551 | Received 16 Oct 2007, Accepted 16 Jun 2008, Published online: 04 Dec 2008
 

Abstract

Objectives: The objective of the present study is to investigate the effect of muscle active forces on lower extremity injuries for various impact locations and impact angles for a freely standing pedestrian.

Methods: FE simulations have been performed using a validated lower extremity FE model with active muscles (A-LEMS). In all, nine impact orientations have been studied. For each impact orientation, three different pre-impact conditions of a freely standing pedestrian, representing a cadaver, and an unaware and an aware braced pedestrian, have been simulated. Stretch-based reflexive action was included in the simulations for an unaware pedestrian.

Results: Strains in knee ligaments and knee joint kinematics have been compared in each impact orientation to assess the effect of muscle activation. It is observed that strain in knee ligaments is dependent on impact locations and angles and the MCL is the most vulnerable ligament. Further, due to muscle effects, except when the impact is on the knee, peak strain values in all the ligaments are lower for an unaware pedestrian than either for a cadaver or for a fully braced pedestrian.

Conclusions: It is concluded that active muscle forces significantly affect the knee kinematics and consequently reduce strains in knee ligaments.

ACKNOWLEDGMENTS

The authors acknowledge the support from the Transportation Research and Injury Prevention Program (TRIPP) at the Indian Institute of Technology Delhi and the Volvo Research Foundation. The authors also acknowledge Toyota Central Research and Development Lab (TCRDL) for providing the finite element human body model, Total Human Body Model for Safety (THUMS), which was used in an earlier version of this study.

Notes

a ∗These values of muscle activation levels have been taken from CitationKuo and Zajac (1993).

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