Differences in Walking Speed of SACH Foot And Single Axis Foot in Transtibial Prosthesis User

Dody Suprayogi; Cica Tri Mandasari  Ningsih

doi:10.36082/jpost.v3i2.1861

Authors

Dody Suprayogi Poltekkes Kemenkes Surakarta
Cica Tri Mandasari Ningsih Poltekkes Kemenkes Surakarta

DOI:

https://doi.org/10.36082/jpost.v3i2.1861

Keywords:

Walking Speed, transtibial prosthesis, SACH foot, Single Axis Foot

Abstract

Background: Lower limb amputation causes disruption of limb function, one of which is the ability to walk. One of the walking aids that can be used is a transtibial prosthesis. A transtibial prosthesis consists of a socket, shank and foot components. The choice of foot type and the use of a transtibial prosthesis is one of the factors that influence walking speed. SACH foot and single axis foot are the types of foot that are often used by prosthesis users Aims: To determine the difference in walking speed of SACH Foot and Single Axis Foot in transtibial prosthesis users. Method and Subjects: Using quantitative research, observational method with cross sectional design. The subjects of this research were users of transtibial prosthesis type SACH foot and single axis foot. The sample for this study consisted of 28 people. The measuring instruments used in this research are 10 MWT (Meter Walk Test). Results: Based on statistical tests, the results showed that there were differences in walking speed between SACH foot and single axis foot type transtibial prosthesis users. Where the p value <0.05 is 0.000 with an effect size of 0.81, which means it has a high or strong difference effect. Conclusion: There is a difference in walking speed, namely the walking speed of users of single axis foot transtibial prosthesis is faster than SACH foot. So, it is recommended to prefer using a single axis foot in users of transtibial prosthesis, especially at moderate activity levels. The limitations of this research are that there are not many subjects and the foot types are less diverse. Future research can be developed with other types of foot prosthesis and measurement of gait parameters

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References

Abbas, H., Hamandi, S., Abdulsattar, M., & Sabeeh, Y. (2020). The effect of prosthetic foot type on spatio- temporal parameters of unilateral below-knee amputees Source: Primary data processed, 2024

: A case study. Proceedings - 2020 International Conference on Assistive and Rehabilitation Technologies, ICareTech 2020, 51–56. https://doi.org/10.1109/iCareTech49914.2020.00017

Ardesa, Y., Ningsih, C., & Syaifuddinn, M. (2019). PERBEDAAN PENGARUH ANTARA PENGGUNAAN ABM KRUK DENGAN PROSTESIS TERHADAP MOBILITAS PASIEN PASCA AMPUTASI TRANSTIBIAL.

Burger, H., Vidmar, G., Zdovc, B., Erzar, D., & Zalar, M. (2018). The influence of prosthetic foot stiffness on energy expenditure in unilateral below-knee amputees. National Journal of Clinical Orthopaedics, 2(3), 66–75. www.orthoresearchjournal.com

Fukuchi, C. A., Fukuchi, R. K., & Duarte, M. (2019). Effects of walking speed on gait biomechanics in healthy participants: A systematic review and meta-analysis. In Systematic Reviews (Vol. 8, Issue 1). BioMed Central Ltd. https://doi.org/10.1186/s13643-019-1063-z

Gardiner, J., Bari, A. Z., Howard, D., & Kenney, L. (2016). Transtibial amputee gait efficiency: Energy storage and return versus solid ankle cushioned heel prosthetic feet. Journal of Rehabilitation Research and Development, 53(6), 1133–1138. https://doi.org/10.1682/JRRD.2015.04.0066

Gouteron, A., Casillas, J.-M., Calistri, L., Morisset, C., Laroche, D., & Gueugnon, M. (2021). CASE REPORT Assessing Gait After Changing Prosthetic Foot: Contribution of Subjective and Objective Measurements. A Pilot Study. http://journals.lww.com/jpojournal

Hafner, B. J., Halsne, E. G., Morgan, S. J., Morgenroth, D. C., & Humbert, A. T. (2022). Effects of prosthetic feet on metabolic energy expenditure in people with transtibial amputation: A systematic review and meta-analysis. In PM and R (Vol. 14, Issue 9, pp. 1099–1115). John Wiley and Sons Inc. https://doi.org/10.1002/pmrj.12693

Hashimoto, H., Kobayashi, T., Kataoka, M., & Okuda, K. (2021). Influence of coronal and sagittal prosthetic foot alignment on socket reaction moments in transtibial prostheses during walking. Gait and Posture, 90, 252–260. https://doi.org/10.1016/j.gaitpost.2021.08.011

Himmelberg, N., & Buns, M. (2018). The influence of prosthetic foot stiffness on energy expenditure in unilateral below-knee amputees. National Journal of Clinical Orthopaedics, 2(3), 66–75. www.orthoresearchjournal.com

Liu, J., Cui, K., Chen, Q., Li, Z., Fu, J., Gong, X., & Xu, H. (2022). Association of walking speed with cognitive function in Chinese older adults: A nationally representative cohort study. Frontiers in Aging Neuroscience, 14. https://doi.org/10.3389/fnagi.2022.1003896

Louessard, A., Bonnet, X., Catapano, A., & Pillet, H. (2022). Quantification of the Influence of Prosthetic Ankle Stiffness on Static Balance Using Lower Limb Prosthetic Simulators. Prosthesis, 4(4), 636–647. https://doi.org/10.3390/prosthesis4040051

Nurhalimah, & Munawarah, M. (2020). HUBUNGAN ANTARA PANJANG LANGKAH DENGAN KESEIMBANGAN DINAMIS PADA PASIEN LANJUT USIA DENGAN KONDISI KNEE OSTEOARTHRITIS (OA) GRADE II. Jurnal Ilmiah Fisioterapi, 20(1), 30–39.

Redha, A. H., Adnindya, M. R., Septadina, I. S., Suciati, T., & Wardiansah, W. (2022). ANALISIS HUBUNGAN USIA, INDEKS MASA TUBUH, KECEPATAN BERJALAN DAN RIWAYAT JATUH DENGAN KESEIMBANGAN BERJALAN LANSIA MAJELIS TAKLIM ASMAUL HUSNA PALEMBANG. Jurnal Kedokteran Dan Kesehatan?: Publikasi Ilmiah Fakultas Kedokteran Universitas Sriwijaya, 9(2), 191–198. https://doi.org/10.32539/jkk.v9i2.17491

Stotz, A., Hamacher, D., & Zech, A. (2023). Relationship between Muscle Strength and Gait Parameters in Healthy Older Women and Men. International Journal of Environmental Research and Public Health, 20(7). https://doi.org/10.3390/ijerph20075362

Syaifuddin, M., Murti, B., & Probandari, A. (2016). HUBUNGAN PANJANG PUNTUNG (STUMP) INDEKS MASSA TUBUH (IMT).