The effect of backpack carriage in different weights and gradients on ground reaction force parameters of 10-12 year old schoolboys walking on instrumented treadmill
Paper ID : 1140-SSRC-13TH
Oral / Poster Presentation File
1140-SSRC-13TH Ahmadi.pptx
Authors:
Fateme Ahmadi Godini *1, Mehdi Khaleghi-Tazji2, Amir Letafatkar2, Aliakbar Jadidian3
1Sports Biomechanics, Faculty of Physical Education and Sports Sciences, University of Mazandaran, Babolsar, Iran
2Department of Biomechanics and Sports Injuries, School of Physical Education and Sports Sciences, Kharazmi University, Tehran, Iran
3Payame Noor University (PNU), P.O.Box 19395-4697, Tehran, Iran
Abstract:
Schoolchildren have to carry their backpacks every day on routes with different conditions and slopes. However, the knowledge available on its effects on walking biomechanics is very limited. Therefore, this study aims to evaluate the effects of backpack carriage with 10 and 15 percent weights (which is recommended by researches as optimal weight for children on even surface) and ±15 percent gradients on the kinetics of schoolboys’ gait.
18 primary schoolchildren living in Tehran city, Iran, with age range of 10-12 years completed 7 randomized trials of walking on an instrumented treadmill (belt-driven instrumented HP Cosmos Gaitway treadmill with Kistler forceplates): Three tasks on flat surface, including without backpack and with backpacks with 10% and 15% of body weight load as the control groups, two tasks on a 15% positive gradient, and two tasks on a 15% negative gradient. The Value of the vertical ground reaction force parameters including the first force peak, second force peak, mid-support force, loading rate, push-off rate, and time-to-peak (TTP) was extracted.
The results of repeated measure ANOVA test showed that the effect of gradient on the first and second peaks, mid-support force, loading rate, rate of push-off, and TTP of gait was significant in both weights (p≤0.001). But the effect of backpack weights on the kinetics was not significant.
First peak and TTP value increased significantly in downhill. Second force peak, loading rate, push-off rate (just in downhill), and mid-support force (in both downhill and uphill) decreased significantly. Carrying backpacks downhill will have more impacts on the children’s motor system, so that it seemed to have a different motor control strategy. The modification of backpack carriage methods can be one of the leading strategies to reduce the negative effects of stress on the musculoskeletal system of children. Determining the optimal appropriate weight of backpack is still a challenge because the students' travel routes are not straight and even, but they have different slopes.
Keywords:
Backpack, Gait, Gradient, Kinetics, Schoolchildren
Status : Abstract Accepted (Poster Presentation)
13th International Congress on Sport Sciences 13th International Congress on Sport Sciences