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Comparision of the Stress Distribution Between High-Heeled and Flat Shoes on The First Metatarsal Bone

Yıl 2021, Cilt: 24 Sayı: 3, 1303 - 1308, 01.09.2021
https://doi.org/10.2339/politeknik.781301

Öz

The aim of this study is to examine the effects of the wearing high-heeled shoes (HHS) by comparing the wearing the flat shoes on the first metatarsal bone using the finite element method. The first metatarsal bone is modeled from computerized tomography (CT) image as 3D and imported to ANSYS Workbench Software. Body weight (BW) and muscle forces were applied to the first metatarsal bone. The bone was fixed at the proximal region of the bone for the boundary conditions. Three evaluation criteria were examined for the results as the stresses, the total deformations and the strain values on the bone. The stress and strain distributions of the bone were evaluated for the bone failure. The deformation of the bone were evaluated for the bone stabilitiy. As a result, the wearing HHS increases the stress values on the first metatarsal bone approximately %54 compared to the flat shoes. The strain values showed that the bone crack or failure was not occured. The deformation of the bone was increased when wearing the HHS shoes. The conclusion of the study is that the wearing HHS negatively affects the first metatarsal bone. Hence, the frequency of the wearing HHS in daily life should be reduced and heeled shoe designs should be made taking into account the stresses occured on the bone.

Destekleyen Kurum

Kocaeli Üniversitesi Bilimsel Araştırma ve Proje Birimi

Proje Numarası

FHD-2020-2143

Teşekkür

Saygıdeğer hocalarıma teşekkürlerimi sunarım..

Kaynakça

  • [1] Cronin, N. J., “The effects of high heeled shoes on female gait: a review” Journal of Electromyography and Kinesiology, 24(2): 258-263, (2014).
  • [2] Wiedemeijer, M. M., and Otten, E. “Effects of high heeled shoes on gait. A review” Gait & posture, 61, 423-430, (2018).
  • [3] Esenyel, M., Walsh, K., Walden, J. G., & Gitter, A., “Kinetics of high-heeled gait” Journal of the American Podiatric Medical Association, 93(1): 27-32, (2003).
  • [4] Spencer, S., “Biomechanical effects of shoe gear on the lower extremity” Clinics in podiatric medicine and surgery, 37(1): 91-99, (2020).
  • [5] Hapsari, V. D., Xiong, S., & Yang, S. September). “High heels on human stability and plantar pressure distribution: Effects of heel height and shoe wearing experience” In Proceedings of the Human Factors and Ergonomics Society Annual Meeting 58(1): 1653-1657, (2014).
  • [6] Ng, E. Y. L. “Foot problems and their implications for footwear design” Woodhead Publishing In Handbook of Footwear Design and Manufacture, 90-114, (2013).
  • [7] Afzal, F., & Manzoor, S. “Prolong wearing of high heeled shoes can cause low back pain” J Nov Physiother, 7(356): 2, (2017).
  • [8] Lee, C. M., Jeong, E. H., & Freivalds, A. “Biomechanical effects of wearing high-heeled shoes” International journal of industrial ergonomics, 28(6): 321-326, , (2001).
  • [9] Lee, S., & Li, J. X., “Effects of high-heeled shoes and asymmetrical load carrying on lower-extremity kinematics during walking in young women” Journal of the American Podiatric Medical Association, 104(1): 58-65, (2014).
  • [10] Speksnijder, C. M., vd Munckhof, R. J., Moonen, S. A., & Walenkamp, G. H. “The higher the heel the higher the forefoot-pressure in ten healthy women” The foot, 15(1): 17-21, (2005).
  • [11] Sayeed, M. A., Rony, S. M. A., Arefin, M. S., & Uddin, M. B. “Investigation of Bodyweight Distribution on Metatarsophalangeal Joint of Human Foot for Ladies High Heel Footwear”
  • [12] Cong, Y., Cheung, J. T. M., Leung, A. K., & Zhang, M. “Effect of heel height on in-shoe localized triaxial stresses” Journal of biomechanics, 44(12), 2267-2272, (2011).
  • [13] Gu, Y., Lu, Y., & Li, J. “Finite Element Analyze Of The First Metatarsal Vertical Arch Of The Foot In The High-Heeled Gait” In ISBS-Conference Proceedings Archive. (2005).
  • [14] Jacob, H. A. C. “Forces acting in the forefoot during normal gait–an estimate” Clinical Biomechanics, 16(9): 783-792, (2001).
  • [15] Matzaroglou, C., Bougas, P., Panagiotopoulos, E., Saridis, A., Karanikolas, M., & Kouzoudis, D. “Ninety-degree chevron osteotomy for correction of hallux valgus deformity: clinical data and finite element analysis” The open orthopaedics journal, 4, 152, (2010).
  • [16] Yu, J., Cheung, J. T. M., Wong, D. W. C., Cong, Y., & Zhang, M., “Biomechanical simulation of high-heeled shoe donning and walking” Journal of biomechanics, 46(12): 2067-2074, (2013).
  • [17] Moerenhout, K., Chopra, S., & Crevoisier, X., “Outcome of the modified Lapidus procedure for hallux valgus deformity during the first year following surgery: A prospective clinical and gait analysis study” Clinical Biomechanics, 61, 205-210 (2019).
  • [18] Hayafune, N., Hayafune, Y., & Jacob, H. A. C., “Pressure and force distribution characteristics under the normal foot during the push-off phase in gait” The foot, 9(2): 88-92, (1999).
  • [19] Stefanyshyn, D. J., Nigg, B. M., Fisher, V., O'Flynn, B., & Liu, W., ”The influence of high heeled shoes on kinematics, kinetics, and muscle EMG of normal female gait” Journal of Applied Biomechanics, 16(3): 309-319, (2000).
  • [20] Yung-Hui, L., & Wei-Hsien, H., “Effects of shoe inserts and heel height on foot pressure, impact force, and perceived comfort during walking” Applied ergonomics, 36(3): 355 – 362, (2005).
  • [21] Hong, W. H., Lee, Y. H., Chen, H. C., Pei, Y. C., & Wu, C. Y. “Influence of heel height and shoe insert on comfort perception and biomechanical performance of young female adults during walking” Foot & ankle international, 26(12): 1042-1048, (2005).
  • [22] Yu, J., Cheung, J. T. M., Fan, Y., Zhang, Y., Leung, A. K. L., & Zhang, M., “Development of a finite element model of female foot for high-heeled shoe design” Clinical Biomechanics, 23, 31-38, (2008).
  • [23] Stokes, I. A., Hutton, W. C., & Stott, J. R. “Forces acting on the metatarsals during normal walking” Journal of anatomy, 129(Pt 3): 579, (1979).
  • [24] Sussman, R. E., & D'Amico, J. C. “The influence of the height of the heel on the first metatarsophalangeal joint” Journal of the American Podiatry Association, 74(10): 504, (1984).
  • [25] McBride, I. D., Wyss, U. P., Cooke, T. D. V., Murphy, L., Phillips, J., & Olney, S. J. “First metatarsophalangeal joint reaction forces during high-heel gait.” Foot & ankle, 11(5): 282-288, (1991).
  • [26] Yassine, R. A., Elham, M. K., Mustapha, S., & Hamade, R. F. “A detailed methodology for FEM analysis of long bones from CT using Mimics” In ASME 2017 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers Digital Collection, (2017, November).
  • [27] Rho, J. Y., Hobatho, M. C., & Ashman, R. B. “Relations of mechanical properties to density and CT numbers in human bone” Medical engineering & physics, 17(5): 347-355, (1995).
  • [28] Hart, N. H., Nimphius, S., Rantalainen, T., Ireland, A., Siafarikas, A., & Newton, R. U..”Mechanical basis of bone strength: influence of bone material, bone structure and muscle action.” Journal of musculoskeletal & neuronal interactions, 17(3): 114, (2017).

Comparision of the Stress Distribution Between High-Heeled and Flat Shoes on The First Metatarsal Bone

Yıl 2021, Cilt: 24 Sayı: 3, 1303 - 1308, 01.09.2021
https://doi.org/10.2339/politeknik.781301

Öz

The aim of this study is to examine the effects of the wearing high-heeled shoes (HHS) by comparing the wearing the flat shoes on the first metatarsal bone using the finite element method. The first metatarsal bone is modeled from computerized tomography (CT) image as 3D and imported to ANSYS Workbench Software. Body weight (BW) and muscle forces were applied to the first metatarsal bone. The bone was fixed at the proximal region of the bone for the boundary conditions. Three evaluation criteria were examined for the results as the stresses, the total deformations and the strain values on the bone. The stress and strain distributions of the bone were evaluated for the bone failure. The deformation of the bone were evaluated for the bone stabilitiy. As a result, the wearing HHS increases the stress values on the first metatarsal bone approximately %54 compared to the flat shoes. The strain values showed that the bone crack or failure was not occured. The deformation of the bone was increased when wearing the HHS shoes. The conclusion of the study is that the wearing HHS negatively affects the first metatarsal bone. Hence, the frequency of the wearing HHS in daily life should be reduced and heeled shoe designs should be made taking into account the stresses occured on the bone.

Proje Numarası

FHD-2020-2143

Kaynakça

  • [1] Cronin, N. J., “The effects of high heeled shoes on female gait: a review” Journal of Electromyography and Kinesiology, 24(2): 258-263, (2014).
  • [2] Wiedemeijer, M. M., and Otten, E. “Effects of high heeled shoes on gait. A review” Gait & posture, 61, 423-430, (2018).
  • [3] Esenyel, M., Walsh, K., Walden, J. G., & Gitter, A., “Kinetics of high-heeled gait” Journal of the American Podiatric Medical Association, 93(1): 27-32, (2003).
  • [4] Spencer, S., “Biomechanical effects of shoe gear on the lower extremity” Clinics in podiatric medicine and surgery, 37(1): 91-99, (2020).
  • [5] Hapsari, V. D., Xiong, S., & Yang, S. September). “High heels on human stability and plantar pressure distribution: Effects of heel height and shoe wearing experience” In Proceedings of the Human Factors and Ergonomics Society Annual Meeting 58(1): 1653-1657, (2014).
  • [6] Ng, E. Y. L. “Foot problems and their implications for footwear design” Woodhead Publishing In Handbook of Footwear Design and Manufacture, 90-114, (2013).
  • [7] Afzal, F., & Manzoor, S. “Prolong wearing of high heeled shoes can cause low back pain” J Nov Physiother, 7(356): 2, (2017).
  • [8] Lee, C. M., Jeong, E. H., & Freivalds, A. “Biomechanical effects of wearing high-heeled shoes” International journal of industrial ergonomics, 28(6): 321-326, , (2001).
  • [9] Lee, S., & Li, J. X., “Effects of high-heeled shoes and asymmetrical load carrying on lower-extremity kinematics during walking in young women” Journal of the American Podiatric Medical Association, 104(1): 58-65, (2014).
  • [10] Speksnijder, C. M., vd Munckhof, R. J., Moonen, S. A., & Walenkamp, G. H. “The higher the heel the higher the forefoot-pressure in ten healthy women” The foot, 15(1): 17-21, (2005).
  • [11] Sayeed, M. A., Rony, S. M. A., Arefin, M. S., & Uddin, M. B. “Investigation of Bodyweight Distribution on Metatarsophalangeal Joint of Human Foot for Ladies High Heel Footwear”
  • [12] Cong, Y., Cheung, J. T. M., Leung, A. K., & Zhang, M. “Effect of heel height on in-shoe localized triaxial stresses” Journal of biomechanics, 44(12), 2267-2272, (2011).
  • [13] Gu, Y., Lu, Y., & Li, J. “Finite Element Analyze Of The First Metatarsal Vertical Arch Of The Foot In The High-Heeled Gait” In ISBS-Conference Proceedings Archive. (2005).
  • [14] Jacob, H. A. C. “Forces acting in the forefoot during normal gait–an estimate” Clinical Biomechanics, 16(9): 783-792, (2001).
  • [15] Matzaroglou, C., Bougas, P., Panagiotopoulos, E., Saridis, A., Karanikolas, M., & Kouzoudis, D. “Ninety-degree chevron osteotomy for correction of hallux valgus deformity: clinical data and finite element analysis” The open orthopaedics journal, 4, 152, (2010).
  • [16] Yu, J., Cheung, J. T. M., Wong, D. W. C., Cong, Y., & Zhang, M., “Biomechanical simulation of high-heeled shoe donning and walking” Journal of biomechanics, 46(12): 2067-2074, (2013).
  • [17] Moerenhout, K., Chopra, S., & Crevoisier, X., “Outcome of the modified Lapidus procedure for hallux valgus deformity during the first year following surgery: A prospective clinical and gait analysis study” Clinical Biomechanics, 61, 205-210 (2019).
  • [18] Hayafune, N., Hayafune, Y., & Jacob, H. A. C., “Pressure and force distribution characteristics under the normal foot during the push-off phase in gait” The foot, 9(2): 88-92, (1999).
  • [19] Stefanyshyn, D. J., Nigg, B. M., Fisher, V., O'Flynn, B., & Liu, W., ”The influence of high heeled shoes on kinematics, kinetics, and muscle EMG of normal female gait” Journal of Applied Biomechanics, 16(3): 309-319, (2000).
  • [20] Yung-Hui, L., & Wei-Hsien, H., “Effects of shoe inserts and heel height on foot pressure, impact force, and perceived comfort during walking” Applied ergonomics, 36(3): 355 – 362, (2005).
  • [21] Hong, W. H., Lee, Y. H., Chen, H. C., Pei, Y. C., & Wu, C. Y. “Influence of heel height and shoe insert on comfort perception and biomechanical performance of young female adults during walking” Foot & ankle international, 26(12): 1042-1048, (2005).
  • [22] Yu, J., Cheung, J. T. M., Fan, Y., Zhang, Y., Leung, A. K. L., & Zhang, M., “Development of a finite element model of female foot for high-heeled shoe design” Clinical Biomechanics, 23, 31-38, (2008).
  • [23] Stokes, I. A., Hutton, W. C., & Stott, J. R. “Forces acting on the metatarsals during normal walking” Journal of anatomy, 129(Pt 3): 579, (1979).
  • [24] Sussman, R. E., & D'Amico, J. C. “The influence of the height of the heel on the first metatarsophalangeal joint” Journal of the American Podiatry Association, 74(10): 504, (1984).
  • [25] McBride, I. D., Wyss, U. P., Cooke, T. D. V., Murphy, L., Phillips, J., & Olney, S. J. “First metatarsophalangeal joint reaction forces during high-heel gait.” Foot & ankle, 11(5): 282-288, (1991).
  • [26] Yassine, R. A., Elham, M. K., Mustapha, S., & Hamade, R. F. “A detailed methodology for FEM analysis of long bones from CT using Mimics” In ASME 2017 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers Digital Collection, (2017, November).
  • [27] Rho, J. Y., Hobatho, M. C., & Ashman, R. B. “Relations of mechanical properties to density and CT numbers in human bone” Medical engineering & physics, 17(5): 347-355, (1995).
  • [28] Hart, N. H., Nimphius, S., Rantalainen, T., Ireland, A., Siafarikas, A., & Newton, R. U..”Mechanical basis of bone strength: influence of bone material, bone structure and muscle action.” Journal of musculoskeletal & neuronal interactions, 17(3): 114, (2017).
Toplam 28 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Araştırma Makalesi
Yazarlar

Zeliha Coşkun 0000-0001-6901-3465

Talip Çelik 0000-0003-0033-2454

Yasin Kişioğlu 0000-0002-9819-2551

Proje Numarası FHD-2020-2143
Yayımlanma Tarihi 1 Eylül 2021
Gönderilme Tarihi 16 Ağustos 2020
Yayımlandığı Sayı Yıl 2021 Cilt: 24 Sayı: 3

Kaynak Göster

APA Coşkun, Z., Çelik, T., & Kişioğlu, Y. (2021). Comparision of the Stress Distribution Between High-Heeled and Flat Shoes on The First Metatarsal Bone. Politeknik Dergisi, 24(3), 1303-1308. https://doi.org/10.2339/politeknik.781301
AMA Coşkun Z, Çelik T, Kişioğlu Y. Comparision of the Stress Distribution Between High-Heeled and Flat Shoes on The First Metatarsal Bone. Politeknik Dergisi. Eylül 2021;24(3):1303-1308. doi:10.2339/politeknik.781301
Chicago Coşkun, Zeliha, Talip Çelik, ve Yasin Kişioğlu. “Comparision of the Stress Distribution Between High-Heeled and Flat Shoes on The First Metatarsal Bone”. Politeknik Dergisi 24, sy. 3 (Eylül 2021): 1303-8. https://doi.org/10.2339/politeknik.781301.
EndNote Coşkun Z, Çelik T, Kişioğlu Y (01 Eylül 2021) Comparision of the Stress Distribution Between High-Heeled and Flat Shoes on The First Metatarsal Bone. Politeknik Dergisi 24 3 1303–1308.
IEEE Z. Coşkun, T. Çelik, ve Y. Kişioğlu, “Comparision of the Stress Distribution Between High-Heeled and Flat Shoes on The First Metatarsal Bone”, Politeknik Dergisi, c. 24, sy. 3, ss. 1303–1308, 2021, doi: 10.2339/politeknik.781301.
ISNAD Coşkun, Zeliha vd. “Comparision of the Stress Distribution Between High-Heeled and Flat Shoes on The First Metatarsal Bone”. Politeknik Dergisi 24/3 (Eylül 2021), 1303-1308. https://doi.org/10.2339/politeknik.781301.
JAMA Coşkun Z, Çelik T, Kişioğlu Y. Comparision of the Stress Distribution Between High-Heeled and Flat Shoes on The First Metatarsal Bone. Politeknik Dergisi. 2021;24:1303–1308.
MLA Coşkun, Zeliha vd. “Comparision of the Stress Distribution Between High-Heeled and Flat Shoes on The First Metatarsal Bone”. Politeknik Dergisi, c. 24, sy. 3, 2021, ss. 1303-8, doi:10.2339/politeknik.781301.
Vancouver Coşkun Z, Çelik T, Kişioğlu Y. Comparision of the Stress Distribution Between High-Heeled and Flat Shoes on The First Metatarsal Bone. Politeknik Dergisi. 2021;24(3):1303-8.
 
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