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Journal Article

Citation

Crandall JR, Kuppa SM, Klopp GS, Hall GW, Pilkey WD, Hurwitz SR. Int. J. Crashworthiness 1998; 3(2): 147-162.

Copyright

(Copyright © 1998, Informa - Taylor and Francis Group)

DOI

unavailable

PMID

unavailable

Abstract

A series of 50 amputated human lower limbs were tested to determine the injury tolerance of the ankle and foot structure to kinematic and kinetic parameters that could be used to describe the impact environment The test apparatus consisted of a pendulum-driven plate constrained to move longitudinally while simulating the motion of the toepan structure in an automobile. The leg specimens were amputated at the midshaft of the femur and attached to a device simulating the hip joint. The legs were mounted to the plate in a position approximating the geometry typical for drivers and were constrained with a spring loaded tether and knee hamess which simulated the action of the leg muscles. Pendulum speed, foot plate acceleration and loads, leg and foot angular velocities and accelerations, and tibia internal loads were measured directly for each test. The lower limb trauma included fractures of the calcaneus, talus, malleoli, and ligamentous tears identified from radiography and detailed necropsy. Logistic regression analysis was used to interpret the data. The peak plantar contact load and its rate of onset, as well as resultant heel acceleration were good predictors of injury (p lt 0.05). The fifty percent probability of injury level using these single factor models is at 9.3 kN peak contact force, 5 kN/m peak contact force onset rate, and 216 G's peak resultant heel acceleration. Initial position of the foot was found to influence injury outcome with the dorsiflexed foot being more resistant to injury than the neutral or plantarflexed foot Finally, injury risk models using a hear combination of contact force or its onset rate, initial flexion angle, and resultant ankle angular velocity were found to be very good predictors of injury (p=0.0001).

Language: en

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