EFFECTS OF SURFACE INCLINATION AND LOAD CARRIAGE AID ON STABILITY AND POSTURE DURING POSTERIOR LOAD CARRIAGE TASK

EFFECTS OF SURFACE INCLINATION AND LOAD CARRIAGE AID ON STABILITY AND POSTURE DURING POSTERIOR LOAD CARRIAGE TASK

Posterior load carriage is an activity that can result in loss of balance (associated with the risk of falls) and posture deviation (associated with the risk of musculoskeletal disorders, MSDs). The activity is carried out on a flat, uphill, and downhill surface without using an assistive device tha...

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Main Author: LUH PUTU LILIS SINTA SETIAWATI, NI
Format: Theses
Language:Indonesia
Online Access:https://digilib.itb.ac.id/gdl/view/39667
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:39667
spelling id-itb.:396672019-06-27T13:24:07ZEFFECTS OF SURFACE INCLINATION AND LOAD CARRIAGE AID ON STABILITY AND POSTURE DURING POSTERIOR LOAD CARRIAGE TASK LUH PUTU LILIS SINTA SETIAWATI, NI Indonesia Theses posterior load carriage, carrying aid, stability, posture INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/39667 Posterior load carriage is an activity that can result in loss of balance (associated with the risk of falls) and posture deviation (associated with the risk of musculoskeletal disorders, MSDs). The activity is carried out on a flat, uphill, and downhill surface without using an assistive device that specifically designed for posterior load carriage activities. This study aims to evaluate the effect of surface inclination and aid types used on the mechanism of maintaining stability and posture adjustment in the lower extremities during posterior load carriage. The experiment was within-subject design involving twelve participants with two independent variables including the surface inclination (+250, -250, and 00) and aid types used (frame backpacks and fabric shawl). Measurements of center of pressure (COP) (root mean square, elliptical area, range, velocity, and sway path of COP in the anterior-posterior and medial-lateral direction, and COP length), posture angle in the lower extremities (ankles, knees, and hips), stability perceptions, and rating of perceived discomfort (RPD) are carried out to evaluate the effect of slope surfaces and assistive devices. Through this research, it can be explained that the greater the slope of the surface results in a decrease in stability and the greater the deviation of the posture. Standing on the uphill surface increases instability and posture deviation in a higher amount compared to downhill and flat surface. Meanwhile, the use of a frame backpack provides better stability in uphill surfaces, however, fabric shawl accommodates better stability in the downhill surface. In the other hand, frame backpack causes a greater deviation of the ankle and left knee angle compared to the fabric shawl. It means that the frame backpack provides better posture than the fabric shawl. This was caused by a larger mass in the frame backpack, even reaching 13 times the fabric shawl mass. Regarding the results of the study, it is recommended to replace the frame material in the backpack by aluminum and the base material by a canvas that initially uses iron. This aims to reduce the mass of the frame backpack. In addition, it is recommended to add a hand grip feature to the backpack sling to help users in regulating balance mechanism when carrying posterior loads on an inclined surface. Those recommendations are generally designed to reduce the risk of falls and MSDs during posterior load carriage tasks. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
description Posterior load carriage is an activity that can result in loss of balance (associated with the risk of falls) and posture deviation (associated with the risk of musculoskeletal disorders, MSDs). The activity is carried out on a flat, uphill, and downhill surface without using an assistive device that specifically designed for posterior load carriage activities. This study aims to evaluate the effect of surface inclination and aid types used on the mechanism of maintaining stability and posture adjustment in the lower extremities during posterior load carriage. The experiment was within-subject design involving twelve participants with two independent variables including the surface inclination (+250, -250, and 00) and aid types used (frame backpacks and fabric shawl). Measurements of center of pressure (COP) (root mean square, elliptical area, range, velocity, and sway path of COP in the anterior-posterior and medial-lateral direction, and COP length), posture angle in the lower extremities (ankles, knees, and hips), stability perceptions, and rating of perceived discomfort (RPD) are carried out to evaluate the effect of slope surfaces and assistive devices. Through this research, it can be explained that the greater the slope of the surface results in a decrease in stability and the greater the deviation of the posture. Standing on the uphill surface increases instability and posture deviation in a higher amount compared to downhill and flat surface. Meanwhile, the use of a frame backpack provides better stability in uphill surfaces, however, fabric shawl accommodates better stability in the downhill surface. In the other hand, frame backpack causes a greater deviation of the ankle and left knee angle compared to the fabric shawl. It means that the frame backpack provides better posture than the fabric shawl. This was caused by a larger mass in the frame backpack, even reaching 13 times the fabric shawl mass. Regarding the results of the study, it is recommended to replace the frame material in the backpack by aluminum and the base material by a canvas that initially uses iron. This aims to reduce the mass of the frame backpack. In addition, it is recommended to add a hand grip feature to the backpack sling to help users in regulating balance mechanism when carrying posterior loads on an inclined surface. Those recommendations are generally designed to reduce the risk of falls and MSDs during posterior load carriage tasks.
format Theses
author LUH PUTU LILIS SINTA SETIAWATI, NI
spellingShingle LUH PUTU LILIS SINTA SETIAWATI, NI
EFFECTS OF SURFACE INCLINATION AND LOAD CARRIAGE AID ON STABILITY AND POSTURE DURING POSTERIOR LOAD CARRIAGE TASK
author_facet LUH PUTU LILIS SINTA SETIAWATI, NI
author_sort LUH PUTU LILIS SINTA SETIAWATI, NI
title EFFECTS OF SURFACE INCLINATION AND LOAD CARRIAGE AID ON STABILITY AND POSTURE DURING POSTERIOR LOAD CARRIAGE TASK
title_short EFFECTS OF SURFACE INCLINATION AND LOAD CARRIAGE AID ON STABILITY AND POSTURE DURING POSTERIOR LOAD CARRIAGE TASK
title_full EFFECTS OF SURFACE INCLINATION AND LOAD CARRIAGE AID ON STABILITY AND POSTURE DURING POSTERIOR LOAD CARRIAGE TASK
title_fullStr EFFECTS OF SURFACE INCLINATION AND LOAD CARRIAGE AID ON STABILITY AND POSTURE DURING POSTERIOR LOAD CARRIAGE TASK
title_full_unstemmed EFFECTS OF SURFACE INCLINATION AND LOAD CARRIAGE AID ON STABILITY AND POSTURE DURING POSTERIOR LOAD CARRIAGE TASK
title_sort effects of surface inclination and load carriage aid on stability and posture during posterior load carriage task
url https://digilib.itb.ac.id/gdl/view/39667
_version_ 1822925360698753024

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