PENGARUH JENIS KAKI PROSTETIK DAN POSTUR TUBUH AWAL KETIKA MELAKUKAN AKTIVITAS PENGANGKATAN BEBAN DALAM KONDISI BERDIRI DIAM TERHADAP KESTABILAN DAN AKTIVITAS OTOT PADA PENGGUNA KAKI PROSTETIK
In Indonesia, there is a type of prosthetic leg that is commonly used by transfemoral amputee, but many users still complain that the knee joint bends suddenly so that their stability is disturbed and lower back pain occurs when using it. A researcher from the Bandung Institute of Technology (ITB...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/83578 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | In Indonesia, there is a type of prosthetic leg that is commonly used by transfemoral
amputee, but many users still complain that the knee joint bends suddenly so that their
stability is disturbed and lower back pain occurs when using it. A researcher from the
Bandung Institute of Technology (ITB) has created a new prosthetic leg design by
adding a brake control mechanism to the knee joint. The brake control mechanism is
thought to help users maintain stability and minimize muscle activity, especially when
doing physical work, but the performance of the prosthetic leg has never been tested.
The aim of this study was to test the type of prosthetic leg and lifting activities in static
conditions on muscle activity and stability by looking at the Center of Pressure (COP)
parameter value. The research was doing by experimental using Electromyography
(EMG) and Force Plate. In addition, a subjective approach was taken by measuring the
level of discomfort using the Borg CR10 scale and measuring the perception of stability
to see the consistency of the measurement. Six men were participants in this research.
They were asked to lift and move loads from a lower height to a higher height using
two types of prosthetic legs, existing prosthetic legs and prototype prosthetic legs. The
weight lifting movement is carried out in two conditions, when the initial body posture
is 20° and when the initial body posture is 80°. The weight of the load moved is 9 kg.
The results showed that the type of prosthetic leg had a significant effect on the activity
of the erector spinae (ES), gastrocnemius medialis (GC) biceps femoris muscles, RMS
COP A-P value and COP A-P speed (p-value < 0.05). Meanwhile, the initial body
posture when lifting weights has a significant effect on erector spinae (ES) muscle
activity and the interaction of these two factors has a significant effect on biceps
femoris (BF) muscle activity and the RMS COP M-L value (p-value < 0.05). From the
results, it can be seen that the prototype type of prosthetic leg provides the best
performance in minimizing muscle activity. These results are supported by measuring
the level of discomfort in the upper back, lower back, hips, knees, ankles, calves and
thighs. Meanwhile, for stability, existing prosthetic leg have been proven to provide the
best performance in maintaining stability. However, these results are inversely
proportional to the results of measuring perceived stability. From the results of
measuring perception of stability, it can be seen that participants have a preference for
using prototype prosthetic legs when doing lifting activities in static conditions.
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