Perbandingan Metode Foot Posture Index Dan Footprint dalam Klasifikasi Postur Kaki Serta Parameter Pola Jalan pada Remaja
Comparison Between The Foot Posture Index and Footprint Methods in Assessing Gait in Adolescents
DOI:
https://doi.org/10.51888/phj.v7i1.436Keywords:
Foot posture index, footprint, muskuloskeletal, pola jalan, remajaAbstract
Gangguan pola jalan dapat menyebabkan masalah muskuloskeletal pada remaja. Postur kaki yang baik memengaruhi efisiensi berjalan, yang dapat diukur melalui parameter pola jalan seperti stride length dan cadence. Metode Foot Posture Index (FPI) dan Footprint merupakan dua instrumen yang dapat digunakan untuk menilai postur kaki, namun variasi akurasi di antara keduanya dalam memprediksi parameter pola jalan masih perlu dikaji. Tujuan penelitian ini adalah untuk mengetahui tingkat kesesuaian antara metode FPI dan footprint dalam mengklasifikasikan postur kaki serta membandingkan parameter pola jalan pada remaja. Metode penelitian ini adalah studi komparatif dengan rancangan cross-sectional melibatkan 35 orang remaja yang dipilih melalui teknik purposive sampling. Analisis kesesuaian antar metode menggunakan uji statistik Cohen’s Kappa dan One-Way ANOVA untuk menguji pengaruh postur kaki terhadap stride length dan cadence. Hasil uji statistik menunjukkan diskrepansi tinggi dengan nilai Cohen’s Kappa sebesar 0,039 (p=0,692; p > 0,05) dimana tidak terdapat kesesuaian yang signifikan antara kedua metode. Uji One-Way ANOVA pada FPI menunjukkan stride length p=0,587; cadence p=0,070 sedangkan pada footprint menunjukkan stride length p=0,484; cadence p=0,703. Kesimpulan penelitian ini adalah metode FPI dan footprint tidak memiliki kesesuaian klasifikasi yang signifikan karena perbedaan dimensi pengukuran.
Gait disorders can potentially lead to musculoskeletal problems in adolescents. An optimal foot posture enhances waling efficiency, which is measurable through spatiotemporal gait parameters such as stride length and cadence. Although the Foot Posture Index (FPI) and Footprint methods are widely utilized to evaluate foot posture, discrepancies in their classifications and their respective relationship with gait paraneters require further investigation. This study aimed to determine the level of agreement between the FPI and footprint methods in classifying foot posture and to compare gait parameters from both methods in adolescents. This was a comparative study with a cross-sectional design involving 35 adolescents selected via a purposive sampling technique. The statistical agreement between the two classification methods was analyzed using Cohen’s Kappa, while the variations in stride length and cadence across the foot posture groups for each method were evaluated using One-Way ANOVA. The cross-tabulation analysis revealed a high discrepancy with a Cohen’s Kappa value of 0.039 (p=0,692; p > 0,05), indicating a lack of statistically significant agreement with a slight strength of agreement. Furthermore, the One-Way ANOVA showed no significant differences in gait parameters across the categories for both the FPI clusters stride length p=0,587; cadence p=0,070 and the footprint clusters stride length p=0,484; cadence p=0,703. Conclusion of this study was the FPI and footprint methods do not demonstrate a significant classification agreement due to their fundamental differences in dimensional measurement (3D vs 2D). Moreover, variations in functional foot posture do not significantly alter objective gait parameters in healthy adolescents.
References
Antar, N. K. A. J., Nugraha, M. H. S., & Dewi, A. A. N. T. (2019). Pelayanan Fisioterapi Pemeriksaan Bentuk Arkus Pedis (Normal Foot, Flat Foot, Dan Cavus Foot) Dan Pemeriksaan Pola Berjalan (Stride Length, Step Length, Cadence, Dan Speed) Pada Anak Di Sdn 8 Dauh Puri Denpasar. Buletin Udayana Mengabdi, 18(3), 85–92.
Buldt, A. K., Murley, G. S., Levinger, P., Menz, H. B., Nester, C. J., & Landorf, K. B. (2015). Are clinical measures of foot posture and mobility associated with foot kinematics when walking? Journal of Foot and Ankle Research, 8(1). https://doi.org/10.1186/s13047-015-0122-5
Dodelin, D., Tourny, C., & L’Hermette, M. (2020). The biomechanical effects of pronated foot function on gait. An experimental study. Scandinavian Journal of Medicine and Science in Sports, 30(11), 2167–2177. https://doi.org/10.1111/sms.13785
Gijón-Noguerón, G., Diaz-Miguel, S., Lopezosa-Reca, E., & Cervera-Marín, J. A. (2017). Structural Changes in the Lower Extremities in Boys Aged 7 to 12 Years Who Engage in Moderate Physical ActivityAn Observational Longitudinal Study. https://doi.org/10.7547/15-193
Gijon-Nogueron, G., Martinez-Nova, A., Alfageme-Garcia, P., Montes-Alguacil, J., & Evans, A. M. (2019). International normative data for paediatric foot posture assessment: A cross-sectional investigation. BMJ Open, 9(4). https://doi.org/10.1136/bmjopen-2018-023341
Gill, S. V., Keimig, S., Kelty-Stephen, D., Hung, Y. C., & DeSilva, J. M. (2016). The relationship between foot arch measurements and walking parameters in children. BMC Pediatrics, 16(1), 2. https://doi.org/10.1186/s12887-016-0554-5
Githa, K., Dewi, P., Ayu, A., Trisna, N., Dewi, N., Komang, N., Antari, A. J., & Indrayani, A. W. (2020). Perbedaan Gait Parameter Terhadap Tipe Arkus Pedis (Normal Foot, Flat Foot Dan Cavus Foot) Pada Anak Sekolah Dasar Usia 10-12 Tahun Di Denpasar Barat. Majalah Ilmiah Fisioterapi Indonesia, 8(2), 57–61. https://ojs.unud.ac.id/index.php/mifi/index
Heggannavar, A., Ramannavar, P., & Metgud, S. (2016). Effect Of Foot Posture Index Associated With Body Mass Index And Standing Balance In Healthy Population: An Observational Study. International Journal of Physiotherapy and Research, 4(3), 1540–1545. https://doi.org/10.16965/ijpr.2016.127
Inayah, R. N., Dewi, K. L. P., Wulandari, E., & Waspada, E. (2026). The Effect of Clark’s Angle and Body Weight on Dynamic Balance in School-Aged Children. Health Scientific Journal, 7(1), 26–32. http://www.oahsj.org/index.php/oahsj/article/view/146/103
Khokher, R., Singh, R. C., & Kumar, R. (2015). Footprint recognition with principal component analysis and independent component analysis. Macromolecular Symposia, 347(1), 16–26. https://doi.org/10.1002/masy.201400045
Morrison, S. C., & Ferrari, J. (2009). Inter-rater reliability of the Foot Posture Index (FPI-6) in the assessment of the paediatric foot. Journal of Foot and Ankle Research, 2(1). https://doi.org/10.1186/1757-1146-2-26
Muchna, A., Najafi, B., Wendel, C. S., Schwenk, M., Armstrong, D. G., & Mohler, J. (2018). Foot problems in older adults associations with incident falls, frailty syndrome, and sensor-derived gait, balance, and physical activity measures. Journal of the American Podiatric Medical Association, 108(2), 126–139. https://doi.org/10.7547/15-186
Okamura, K., Egawa, K., Ikeda, T., Fukuda, K., & Kanai, S. (2021). Relationship between foot muscle morphology and severity of pronated foot deformity and foot kinematics during gait: A preliminary study. Gait and Posture, 86, 273–277. https://doi.org/10.1016/j.gaitpost.2021.03.034
Origo, D., Buffone, F., Montini, G., Belluto, D., Tramontano, M., & Dal Farra, F. (2024). Foot Posture Index Does Not Correlate with Dynamic Foot Assessment Performed via Baropodometric Examination: A Cross-Sectional Study. Healthcare (Switzerland), 12(8). https://doi.org/10.3390/healthcare12080814
Paterson, K. L., Clark, R. A., Mullins, A., Bryant, A. L., & Mentiplay, B. F. (2015). Predicting dynamic foot function from static foot posture: Comparison between visual assessment, motion analysis, and a commercially available depth camera. Journal of Orthopaedic and Sports Physical Therapy, 45(10), 789–798. https://doi.org/10.2519/jospt.2015.5616
Redmond, A. C., Crosbie, J., & Ouvrier, R. A. (2006). Development and validation of a novel rating system for scoring standing foot posture: The Foot Posture Index. Clinical Biomechanics, 21(1), 89–98. https://doi.org/10.1016/j.clinbiomech.2005.08.002
Requelo-Rodríguez, I., Castro-Méndez, A., Jiménez-Cebrián, A. M., González-Elena, M. L., Palomo-Toucedo, I. C., & Pabón-Carrasco, M. (2021). Assessment of selected spatio-temporal gait parameters on subjects with pronated foot posture on the basis of measurements using optogait. A case-control study. Sensors, 21(8). https://doi.org/10.3390/s21082805
Sulowska, I., Mika, A., & Oleksy, Ł. (2017). The influence of plantar short foot muscle exercises on foot posture and gait parameters in long-distance runners. Journal of Kinesiology and Exercise Sciences, 27(78), 75–86. https://doi.org/10.5604/01.3001.0011.6820
Szczepanowska-Wolowiec, B., Sztandera, P., Kotela, I., & Zak, M. (2019). Feet deformities and their close association with postural stability deficits in children aged 10-15 years. BMC Musculoskeletal Disorders, 20(537), 1–9. https://doi.org/10.1186/s12891-019-2923-3
Triandari, L., Khasanah, D. A., & Nelissa, D. (2024). Gambaran Variasi Postur Kaki Dan Q-Angle Pada Anak Berkebutuhan Khusus Usia 6-12 Tahun. Jurnal Kesehatan Masyarakat ITEKES Cendekia Utama Kudus, Vol 12(No 3), 236–246.
Tudor-Locke, C., Schuna, J. M., Han, H., Aguiar, E. J., Larrivee, S., Hsia, D. S., Ducharme, S. W., Barreira, T. V., & Johnson, W. D. (2018). Cadence (steps/min) and intensity during ambulation in 6-20 year olds: The CADENCE-kids study. International Journal of Behavioral Nutrition and Physical Activity, 15(1). https://doi.org/10.1186/s12966-018-0651-y
Voss, S., Joyce, J., Biskis, A., Parulekar, M., Armijo, N., Zampieri, C., Tracy, R., Palmer, A. S., Fefferman, M., Ouyang, B., Liu, Y., Berry-Kravis, E., & O’Keefe, J. A. (2020). Normative database of spatiotemporal gait parameters using inertial sensors in typically developing children and young adults. Gait and Posture, 80, 206–213. https://doi.org/10.1016/j.gaitpost.2020.05.010
Zhu, F., Hong, Q., Guo, X., Wang, D., Chen, J., Zhu, Q., Zhang, C., Cheni, W., & Zhang, M. (2021). A comparison of foot posture and walking performance in patients with mild, moderate, and severe adolescent idiopathic scoliosis. PLoS ONE, 16(5 May 2021). https://doi.org/10.1371/journal.pone.0251592
Žukauskas, S., Barauskas, V., & Čekanauskas, E. (2021). Comparison of multiple flatfoot indicators in 5–8-year-old children. https://doi.org/10.1515/med-2021-0227
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