The effects of wearing high heeled shoes on the muscles and joints of lower limb

1. Arifff M.S., Arshad A.A., Johari M.H., Rahimin A.M.A.S., Fadzli A.S., Mai A.N.T., Che Anuar C.M., Rosazra R., Norhafiza A.R. (2015) The study on range of motion of hip and knee in prayer by adult muslim males. a preliminary reports. Int. Med. J. Malays., 14(1): 1-11.10.31436/imjm.v14i1.456 Search in Google Scholar

2. Arnold C.M., Warkentin K.D., Chilibeck P.D., Magnus C.R.A. (2010) The reliability and validity of hand-held dynamometry for the measurement of lower extremity muscle strength in older adults. J. Strength Cond. Res., 24(3): 815-824.10.1519/JSC.0b013e3181aa36b819661831 Search in Google Scholar

3. Bacon C., Pruser J., Ford W., Amick R. (2011) Gluteus medius electromyographic (EMG) Activity and strength immediately following lumbopelvic high velocity thrust provided by a novice clinician. 7th Annual GRASP Symposium, 04 May 2011, Wichita State University. Kansas-USA, 52-53. Search in Google Scholar

4. Bohannon R.W. (1997) Reference values for extremity muscle strength obtained by hand held dynamometry from adults aged 20 to 79 years. Arch. Phys. Med. Rehabil., 78: 26-32.10.1016/S0003-9993(97)90005-8 Search in Google Scholar

5. Cronin N.J., Barrett R.S., Carty C.P. (2012) Long term use of high heeled shoes alters the neuromechanics of human walking. J. Appl. Physiol., 112: 1054-1058.10.1152/japplphysiol.01402.2011 Search in Google Scholar

6. Cuttan S.A., Holliday J.L., Watkeys L. (2010) Influence of high heeled footwear and pre-fabricated foot orthoses on energy efficiency in ambulation. The Foot and Ankle Online Journal, 3(3): 1-11. Search in Google Scholar

7. Do Nascimento N.I.C., Saraiva T.S., Da Cruz Jr A.T.V., Souza G.D.S., Callegari B. (2014) Barefoot and high heeled gait: Changes in muscles activation patterns. Health, 6: 2190-2196.10.4236/health.2014.616254 Search in Google Scholar

8. Dunn J.C., Iversen M.D. (2003) Interrater reliability of knee muscle forces obtained by hand held dynamometer from elderly subjects with degenerative back pain. J. Geriatr. Phys. Ther., 26(3): 23-29.10.1519/00139143-200312000-00004 Search in Google Scholar

9. Ebbeling C.J., Hamill J., Crussemeyer J.A. (1994) Lower extremity mechanisc and energy cost of walking in high heeled shoes. J. Orthop. Sports Phys. Ther., 19: 190-19610.2519/jospt.1994.19.4.190 Search in Google Scholar

10. El Haber N., Erbas B., Hill K.D., Wark J.D. (2008) Relationship between age and measures of balance, strength and gait: linear and non-linear analyses. Clin. Sci., 114: 719-727.10.1042/CS2007030118092948 Search in Google Scholar

11. Franklin M.E., Chenier T.C., Brauninger L., Cook H., Harris S. (1995) Effect of positive heel inclination on posture. J. Orthop. Sports Phys. Ther., 21(2): 94-99.10.2519/jospt.1995.21.2.947711763 Search in Google Scholar

12. Gupta A., Fernihough B., Bailey G., Bombeck P., Clarke A., Hopper D. (2004) An evaluation of differences in hip external rotation strength and range of motion between female dancers and non-dancers. Br. J. Sports Med., 38: 778-783.10.1136/bjsm.2003.010827 Search in Google Scholar

13. Hallaçeli H., Uruç V., Uysal H.H., Özden R., Hallaçeli Ç., Soyuer F., Parpucu T.I., Yengil E., Cavlak U. (2014) Türk toplumunda kalça diz ve ayak bileğinin normal eklem hareket açıklığı. Acta Orthop. Traumatol. Turc., 48(1): 37-42. Search in Google Scholar

14. Han H., Kubo A., Kurosawa K., Maruichi S., Maruyama H. (2015) Hip Rotation range of motion in sitting and prone positions in healthy Japanese adults. J. Phys. Ther. Sci., 27: 441-445.10.1589/jpts.27.441 Search in Google Scholar

15. Hasan F.F., Ibrahim E.K. (2012) The effects of gender on range of motion (ROM) for knee joint. Tikrit Medical Journal,18(1): 112-120. Search in Google Scholar

16. Henderson P.D., Scholar M.N., State P., Piazza S.J. (2004) A Biomechanical Evaluation of Standing in High heeled Shoes. Penn State McNair. J., 11: 25-38. Search in Google Scholar

17. Ho K.Y., Blanchette M.G., Powers C.M. (2012) The influence of heel height on patellofemoral joint kinetics during walking. Gait Posture, 36: 271-275.10.1016/j.gaitpost.2012.03.00822520457 Search in Google Scholar

18. Hong W.H., Lee Y.H., Lin Y.H., Tang S.F.T., Chen H.C. (2013) Effect of shoe heel height and total contact insert on muscle loading and foot stability while walking. Foot Ankle Int., 34(2): 273-281.10.1177/107110071246581723413069 Search in Google Scholar

19. Hosoya S., Hayashi R., Yoshino Y., Saito K., Horiba Y. (2012) Research on heel height of women’s shoes based on walking analysis. J. Fiber Bioeng. Inform., 5(4): 379-388.10.3993/jfbi12201203 Search in Google Scholar

20. Ireland M.L., Willson J.D., Ballantyne B.T., Davis I.M. (2003) Hip strength in females with and without patellafem-oral pain. J. Orthop. Sports Phys. Ther., 33(11): 671-678.10.2519/jospt.2003.33.11.67114669962 Search in Google Scholar

21. Iqbal R., De A., Mishra W., Maulik S., Am C. (2012) Study on lumbar kinematics and the risk of low back disorder in female university students by using shoes of different heel heights. Work, 41: 2521-2526.10.3233/WOR-2012-1026-252122317099 Search in Google Scholar

22. Khalvat A., Razavizadeh M. (2005) A prospective cross sectional study of joint motion in healthy adult subjects. Acta Med. Iran., 43(2): 151-154. Search in Google Scholar

23. Kim S.H., Kwon O.Y., Park K.N., Jeon I.C., Weon J.H. (2015) Lower extremity strength and the range of motion in relation to squat depth. J. Hum. Kinet., 45: 59-69.10.1515/hukin-2015-0007 Search in Google Scholar

24. Kim Y., Lim J.M., Yoon B.C. (2013) Changes in Ankle range of Motion and Muscle Strength in Habitual Wearers of high heeled shoes. Foot Ankle Int., 34(3): 414-419.10.1177/107110071246856223520300 Search in Google Scholar

25. Kouyoumdjian P., Coulomb R., Sanchez T., Asencio G. (2012) Clinical evaluation of hip joint rotation range of motion in adults. Orthop. Traumatol. Surg. Res., 98: 17-23.10.1016/j.otsr.2011.08.015 Search in Google Scholar

26. Krause D.A., Neuger M.D., Lambert K.A., Johnson A.E., Devinny H.A., Hollman J.H. (2014) Effects of examiner strength on reliability of hip strength testing using a handheld dynamometer. J. Sport Rehabil., 23: 56-64.10.1123/JSR.2012-0070 Search in Google Scholar

27. Lee C.M., Jeong E.H., Freivalds A. (2001) Biomechanical effects of wearing high heeled shoes. Int. J. Ind. Ergon., 28: 321-32610.1016/S0169-8141(01)00038-5 Search in Google Scholar

28. Madge M., Iselin F., Yann R., Maider G., Stanislava P., De Lausanne E.P.F. (2014) Impact of high heels on female body and proposed solution for improved biomechanics. 1-16. Search in Google Scholar

29. Moghadam A.N., Taghipour M., Alibazi R.G., Bahar Louei H. (2014) The comparison of spinal curves and hip and ankle range of motions between old and young persons. Med. J. Islam Repub. Iran., 28(74): 1-5. Search in Google Scholar

30. Morse C., Cheatham S., Greiner C., Cook R. (2010) Hip flexibility and strength immediately following manual therapy interventions. 6^th Annual GRASP Symposium, 23 April 2010, Wichita State University, 151-152. Search in Google Scholar

31. Moss C.L., Wright P.T. (1993) Comparison of three methods of assessing muscle strength and imbalance ratios of the knee. J. Athl. Train., 28(1): 55-58. Search in Google Scholar

32. Nwankwo M.J., Egwuonwu A.V., Ezeukwu A.O., Nwafulume C.K. (2012) Effects of different heel heigts on selectes gait parameters of young undergraduate females. J. Paramed. Sci., 3(3): 9-14. Search in Google Scholar

33. Otman S., Demirel H., Sade A. (2013) Basic evaluation principles in treatment movements. 6th Ed., Ankara: Pelikan Publishing. Search in Google Scholar

34. Pannell S.L. (2012) The postural and biomechanical effects of high heel shoes: a literature review. http://www.logan.edu/mm/files/LRC/Senior-Research/2012-Apr-18.pdf. Search in Google Scholar

35. Park S., Lee K. (2009) Simulation of biomechanical influence of high heels on musculuskeletal system of foot and ankle. International Society of Biomechanics. XVII. Congress of the International Society of Biomechanics, July 2009. Cape Town, South Africa. Search in Google Scholar

36. Park S., Lee M., Park J. (2013) The relationship among stride parameters, joint angles, and trajectories of the body parts during high heeled walking of woman. Journal of the Ergonomics Society of Korea, 32(3): 245-252.10.5143/JESK.2013.32.3.245 Search in Google Scholar

37. Pasco J.A., Holloway K.L., Brennan Olsen S.L., Moloney D.J., Kotowicz M.A. (2015) Muscle strength and areal bone mineral density at the hip in women: a cross-sectional study. BMC Musculoskel. Disord., 16: 124-129.10.1186/s12891-015-0586-2 Search in Google Scholar

38. Polat S.Ö., Yücel A.H. (2018) Wearing high-heeled shoes increases the foot arch angle inducing measurable changes in the musculoskeletal system. J. Back Musculoskelet. Rehabil., 31(6): 1119-1129.10.3233/BMR-170891 Search in Google Scholar

39. Polat S.Ö., Yücel A.H. (2017) High Heeled Shoes and their Effects on Musculoskeletal System. Arch. Med. Rev. J., 26(4): 509-520. Search in Google Scholar

40. Roach K.E., Miles T.P. (1991) Normal Hip and knee active range of motion: the relationship to age. Phys. Ther., 71: 656-665.10.1093/ptj/71.9.656 Search in Google Scholar

41. Sengupta P., De S., Pal A., Maity P., Banerjee M., Dhara P.C. (2012) Variation of range of joint motion in Bengalee (Indian) Healthy adult subjects. J. Life. Sci., 4(2): 123-13310.1080/09751270.2012.11885204 Search in Google Scholar

42. Smitley B.E. Lafayette Instrument Company. Lafayette Instrument Model 01165 Lafayette Manual Muscle Test System User Instructions. Search in Google Scholar

43. Srivastava A., Mishra A., Tewari R.P. (2012) Electromyography analysis of high heel walking. Aeu. Int. J. Electron C., 3(1): 166-169. Search in Google Scholar

44. Stefanyshyn D.J., Nigg B.M., Fisher V., O’Flynn B., Liu W. (2000) The Influence of high heeled shoes on kinematics, kinetics, and muscle EMG of normal female gait. J. Appl. Biomech., 16: 309-319.10.1123/jab.16.3.309 Search in Google Scholar

45. Su X., Gu Y. (2012) EMG in People with different heel height condition. Applications of EMG in Clinical and Sports Medicine, 109-116.10.5772/25672 Search in Google Scholar

46. Svenningsen S., Terjesen T., Auflem M., Berg V. (1989) Hip motion related to age and sex. Acta Ortop. Scand., 60: 97-100.10.3109/17453678909150103 Search in Google Scholar

47. Thorborg K., Petersen J., Magnusson S.P., Hölmich P. (2010) Clinical assessment of hip strength using a hand held dynamometer is reliable. Scand. J. Med. Sci. Sports, 20: 493-501.10.1111/j.1600-0838.2009.00958.x Search in Google Scholar

48. www.at.uwa.edu/mmt/hip,knee,ankle and toes. Manual musle testing. Search in Google Scholar

49. Xiong S., Hapsari V.D. (2014) Effects of heel height and wearing experience on human standing balance. J. Foot Ankle Res., 7(1): A97.10.1186/1757-1146-7-S1-A97 Search in Google Scholar

50. Zöllner A.M., Pok J.M., McWalter E.J., Gold G.E., Kuhl E. (2015) On high heels and short muscles: A multi-scale model for sarcomere loss in the gastrocnemius muscle. J. Theor. Biol., 365: 301-310.10.1016/j.jtbi.2014.10.036 Search in Google Scholar