![]() While not conclusive, the EMG data suggest that for these muscles there was not a neuromuscular adaptation to the perturbation. ![]() Greater pronation leads to greater energy absorption in the foot invertor muscles and tendons. The greater joint moment was not accompanied by changes in muscle activation patterns, although the tibialis posterior data were inconclusive in this respect.Ĭonclusions. The maximum eversion angle, maximum inversion moment and total negative work done in the frontal plane were greatest while running in the valgus shoe and least in the varus shoe. EMG onset, offset, and integrated values were reported. The net joint moment, power, and total positive and negative work was calculated in the frontal plane. Indwelling EMG was obtained from the tibialis posterior. Surface EMG data were collected from the tibialis anterior, peroneus longus, medial and lateral gastrocnemius, and soleus. Ten males ran in varus, valgus, and neutral-wedged shoes while three-dimensional kinematic and kinetic data and EMG data were collected. However, the roles of the extrinsic foot muscles (those that control motion of the foot) during the stance phase of running have not been adequately identified, which is critical to determining the relationship between pronation and injury. Excessive pronation has been cited as a key contributor to many types of running injuries. Within-subjects study comparing kinematics, kinetics and EMG while running in three different shoe conditions.īackground. To determine the kinematic, kinetic and EMG responses to perturbations of the foot by running in varus, neutral, and valgus-wedged shoes.ĭesign. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. Archives
January 2023
Categories |