Medico-Legal Update

Open Access Open Access  Restricted Access Subscription Access
Open Access Open Access Open Access  Restricted Access Restricted Access Subscription Access

Change in Lower Extremity Muscle Activity with Visual and Noises During Walking


Affiliations
1 Sunmoon University, Physical Therapy, Korea, Democratic People's Republic of
     

   Subscribe/Renew Journal


Background/Objectives: In this study, four conditions of visual and noises were examined to determine the inferior limb muscle activity after walking for 10 minutes on a treadmill.

Method/Statistical Analysis:Nine males and nine females, who agreed to participate in the study, were recruited. Participants were asked to walk on a treadmill for 10 minutes on each of the four conditions (a), (b), (c), and (d) depending on visual acuity and noise. Electromyograph was used to measure and compare muscle activity.

Findings: There was no significant difference in biceps femoris muscle(p>.05). The comparison of the tibialis anterior muscle resulted in a significant difference between the conditions a-c, a-d, b-c and b-d (pc>b>a, followed by de-conditioned vision and dB was the highest when it was higher 90. The comparison of the lateral gastrocnemius muscle resulted in a significant difference between the a-c, b-c and b-d conditions (pc>b>a, followed by de-conditioned vision and dB was the highest when it was > 90. The comparison of the medial gastrocnemius muscle showed that not all four conditions differed significantly (p>.05).

Improvements/Applications: There was significant difference in muscle activity between TA, LGM than when vision was blocked, that the muscle activity has improved when walking over 90 dB than 60 dB


Keywords

Gait, Visual, Noise, Treadmill, Electromyography.
Subscription Login to verify subscription
User
Notifications
Font Size


Abstract Views: 295

PDF Views: 0




  • Change in Lower Extremity Muscle Activity with Visual and Noises During Walking

Abstract Views: 295  |  PDF Views: 0

Authors

Eun-Hye Kim
Sunmoon University, Physical Therapy, Korea, Democratic People's Republic of
Da-Hyun Lee
Sunmoon University, Physical Therapy, Korea, Democratic People's Republic of
Su-Bin An
Sunmoon University, Physical Therapy, Korea, Democratic People's Republic of
Dong-Yoep Lee
Sunmoon University, Physical Therapy, Korea, Democratic People's Republic of
Ji-Heon Hong
Sunmoon University, Physical Therapy, Korea, Democratic People's Republic of
Jae-Ho Yu
Sunmoon University, Physical Therapy, Korea, Democratic People's Republic of
Jin-Seop Kim
Sunmoon University, Physical Therapy, Korea, Democratic People's Republic of

Abstract


Background/Objectives: In this study, four conditions of visual and noises were examined to determine the inferior limb muscle activity after walking for 10 minutes on a treadmill.

Method/Statistical Analysis:Nine males and nine females, who agreed to participate in the study, were recruited. Participants were asked to walk on a treadmill for 10 minutes on each of the four conditions (a), (b), (c), and (d) depending on visual acuity and noise. Electromyograph was used to measure and compare muscle activity.

Findings: There was no significant difference in biceps femoris muscle(p>.05). The comparison of the tibialis anterior muscle resulted in a significant difference between the conditions a-c, a-d, b-c and b-d (pc>b>a, followed by de-conditioned vision and dB was the highest when it was higher 90. The comparison of the lateral gastrocnemius muscle resulted in a significant difference between the a-c, b-c and b-d conditions (pc>b>a, followed by de-conditioned vision and dB was the highest when it was > 90. The comparison of the medial gastrocnemius muscle showed that not all four conditions differed significantly (p>.05).

Improvements/Applications: There was significant difference in muscle activity between TA, LGM than when vision was blocked, that the muscle activity has improved when walking over 90 dB than 60 dB


Keywords


Gait, Visual, Noise, Treadmill, Electromyography.



DOI: https://doi.org/10.37506/v20%2Fi1%2F2020%2Fmlu%2F194562