Publikasi Scopus FKUI Tahun 2010 s/d 2020 (data Per 3 Februari 2021)

Irawan A.P., Soemardi T.P., Widjajalaksmi K., Reksoprodjo A.H.S.
37124009300;37125012800;56267405900;37124684000;
Gait analysis of the prosthesis prototype made from the natural fiber reinforced composite
2010
Proceedings - APCHI-ERGOFUTURE 2010
37
43
6
Department of Mechanical Engineering, University of Indonesia, Jakarta, Indonesia; University of Tarumanagara, Jakarta, Indonesia; Department of Mechanical Engineering, University of Indonesia, Depok, Indonesia; Faculty of Medicine, University of Indonesia, Jakarta, Indonesia
Irawan, A.P., Department of Mechanical Engineering, University of Indonesia, Jakarta, Indonesia, University of Tarumanagara, Jakarta, Indonesia; Soemardi, T.P., Department of Mechanical Engineering, University of Indonesia, Depok, Indonesia; Widjajalaksmi, K., Faculty of Medicine, University of Indonesia, Jakarta, Indonesia; Reksoprodjo, A.H.S., Department of Mechanical Engineering, University of Indonesia, Depok, Indonesia
In patients who use the prosthesis, gait analysis is an activity to observe the pattern of walking use the prosthesis for the patient. This activity aims to obtain information relating to balance, comfort, ease of use and the possibility of disorder experienced by the patient during walking using a prosthesis. This study aims to perform gait analysis of lower limb prosthesis, which was developed from ramie fiber composite materials (RE), especially in the socket component. The methods used in gait analysis is the patient walk on a path that has been determined for 6 minutes for each prosthesis produced. Gait analysis data include steps total, cadence (steps/min), step time (s), right step length (cm), left step length (cm), the step width (cm), stride length (cm), stride total, walking length total (m), walking length total per minute (m), walking speed (m/s). Based on the analysis of test results that have been done, it can be concluded that the prosthesis produced from RE has a good comfort level. Prototype with a socket prosthesis produced of RE is lighter, stronger and more elastic compared with socket produced of FGP and ramie RP. This condition greatly affects the comfort level felt by the respondents.
Comfort; Gait analysis; Prosthesis; Ramie epoxy composite; Socket
Comfort; Comfort level; Epoxy composite; Lower limb prosthesis; Natural fiber reinforced composites; Socket; Stride length; Walking speed; Hemp; Prosthetics; Gait analysis
9.78603E+12
Conference Paper
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