Evaluation of Biomechanical Parameters of the Sole of the Foot in Young Overweight ‎Girls on Bipedal Postural Balance

Document Type : Original Article

Authors

1 Department of Sports Management, Faculty of Sports Sciences, Arak University, Arak, Iran

2 Department of Exercise Physiology, Faculty of Sport Sciences, Alzahra University, Tehran, Iran.

Abstract

Purpose:
Overweight and obesity may be associated with the flat foot deformity or an aggravating factor. Therefore, the aim of this study was to investigate the biomechanical parameters of the soles of the feet of young overweight girls compared to normal individuals during postural control.                                                                                             
Methods:
The statistical sample consisted of 44 female students with a mean body mass index of 26.78±1.67 and 21.35±1.38 as overweight (n=22) and normal groups (n=22). Anthropometric characteristics and plantar indices were recorded using a camera pedoscope during postural stability. Independent t-test was used to compare intergroup results and Pearson correlation coefficient was used to examine the correlation of Body mass index (BMI) with biomechanical parameters of the foot. Tests were analyzed at a significance level of 0.05 using SPSS software version 24.
Results:
The overweight group compared with the control group had significant difference in the parameters of arch width, Staheli index of right and left foot and Chipax-Smirak index of right and left foot (p>0.05). The correlation coefficient between body mass index (BMI) and biomechanical parameters of the sole of the foot in all areas showed a positive and significant relationship (p>0.05), with the strongest correlation between BMI and left Staheli Index (SIL) (r=0.638 and p=0.001).
Conclusion:
The findings of the present study has emphasized that obesity can affect the biomechanical parameters of the sole of the foot and may exacerbate or reduce the arch of the sole. Therefore, these abnormalities should be prevented from an early age, with weight control.

Keywords

References

  1. dowling A, Steele J, Baur L. Does Obesity Influence Foot Structure And Plantar Pressure Patterns In Prepubescent Children? Int J 2001; 25(6): 845-852.
  2. Pranati T, Babu Ky, Ganesh K. Assessment Of Plantar Arch Index And Prevalence Of Flat Feet Among South Indian Adolescent Population. Pharm. Sci. Res. 2017; 9(4): 490-492.
  3. Kim H, Weinstein S. Flatfoot In Children: Differential Diagnosis And Management. Orthop. 2000; 14(6): 441-447.
  4. Gilmour Jc, Burns Y. The Measurement Of The Medial Longitudinal Arch In Children. Foot Ankle 2001; 22(6): 493-498.
  5. Kanatli U, Yetkin H, Cila E. Footprint And Radiographic Analysis Of The Feet. Pediatr. Orthop. 2001; 21(2): 225-228.
  6. Onodera An, Sacco Ic, Morioka Eh, Souza Ps, et al. What Is The Best Method For Child Longitudinal Plantar Arch Assessment And When Does Arch Maturation Occur?. The Foot 2008; 18(3): 142-149.
  7. Gonzalez-Martin C, Pita-Fernandez S, Seoane-Pillado T, Lopez-Calviño B, et al. Variability Between Clarke's Angle and Chippaux-Smirak Index For The Diagnosis Of Flat Feet. Colombia Médica 2017; 48(1): 25-31.
  8. Abaraogu Uo, Onyeka C, Ucheagwu C, Ozioko M. Association Between Flatfoot And Age Is Mediated By Sex: A Cross-Sectional Study. Polish Annals of Medicine 2016;  23(2): 141-146.
  9. Eluwa M, Omini R, Kpela T, Ekanem T, Akpantah A. The Incidence of Pes Planus Amongst Akwa Ibom State Students In The University Of Calabar. Internet J Forensic Sci 2009; 3(2): 1-5.
  10. Evans Am. The Flat-Footed Child—To Treat Or Not To Treat: What Is The Clinician To Do? J Am Podiatr Med Assoc 2008; 98(5): 386-393.
  11. Woźniacka R, Bac A, Matusik S, Szczygieł E, Ciszek   Body    Weight    and    The    Medial Longitudinal Foot Arch: High-Arched Foot, A Hidden Problem? Eur. J. Pediatr  2013; 172(5): 683-691.
  12. Shree S, Revathi S, Thiyagarajan A, Kumar D. Does Obesity Cause Flat Foot?. J Obes Ther 2018; 4: 2. 1-4.
  13. Chang J-H, Wang S-H, Kuo C-L, Shen Hc, Hong Y-W, Lin L-C. Prevalence Of Flexible Flatfoot In Taiwanese School-Aged Children In Relation To Obesity, Gender, And Age. J. Pediatr 2010; 169(4): 447-452.
  14. Mickle Kj, Steele Jr, Munro Bj. The Feet Of Overweight And Obese Young Children: Are They Flat Or Fat? J. Obes 2006; 14(11): 1949-1953.
  15. Riddiford-Harland D, Steele J, Storlien L. Does Obesity Influence Foot Structure In Prepubescent Children? Int J Obes 2000; 24(5): 541-544.
  16. Moezy A, Nejati P, Khazaei M. Whether The Increase In Bmi Affects The Biomechanical Status Of Foot Arch And Plantar Pain? J. Med. Counc. Islam Iran 2017; 35(2): 121-9. [Persian]
  17. Karimi S Ko, Admadimanesh V, Moradi A. The Relationship  Between Anthropometric Factors With Flat Feet. J Rehab Med 2016; 5(1): 126-134. [Persian]
  18. Ghasemi G, Arghavani H, Hajirezayi P, Esfahan I. Effect of Functional Fatigue Protocol On Postural Control And Balance In People With Different Foot Arches. J Rehab Med 7(3): 113-124.[Persian]
  19. Tománková K, Přidalová M, Gába A. The Impact Of Obesity On Foot Morphology In Women Aged 48 Years Or Older. Acta Gymnica 2015; 45(2): 69-75.
  20. Shariff Sm, Manaharan T, Shariff Aa, Merican Af. Evaluation of Foot Arch In Adult Women: Comparison Between Five Different Footprint Parameters. Sains Malays 2017; 46(10): 1839-1848.
  21. Singrolay R, Rs K. Stahelis Plantar Arch Index Measured By Simple Footprint Method Is An Effective Diagnostic Tool For Flat Foot As Other Radiological Methods-A Comparative Study. Int. J. Sci. Res 2015; 4(9): 81-83.
  22. Vangara Sv, Kumar D, Gopichand Pv, Puri N. Assessment of Staheli Arch Index In Tribal Children Of Jharkhand State. Int J Anat Res 2019; 7(1.2): 6161-6165.
  23. Faul F, Erdfelder E, Lang A-G, Buchner A. G* Power 3: A Flexible Statistical Power Analysis Program For The Social, Behavioral, And Biomedical Sciences. Behav. Res. Methods 2007; 39(2): 175-191.
  24. Hoffman M, Schrader J, Applegate T, Koceja D. Unilateral Postural Control of The Functionally Dominant And Nondominant Extremities Of Healthy Subjects. J Athl Train 1998; 33(4): 319-322.
  25. Hakimipoor M Rr, Minoonejad H. Design, Construction And Validation of Foot Photo Box In Measuring A Selection Of Footprint Indexes. J. adv. educ. philos 2017; 13(25): 137-146.
  26. Musavi H Gb, Faramarzi F. The Relationship Between Internal Longitudinal Foot Arch With Static And Dynamic Balance of 12-14 Years Male Students. J Exerc Sci Fit 2009; 1(2): 107-231.
  27. Villarroya Ma, Esquivel Jm, Tomás C, Moreno La, Buenafé A, et al. Assessment Of The Medial Longitudinal Arch In Children And Adolescents With Obesity: Footprints And Radiographic Study. J. Pediatr 2009; 168(5): 559-567.
  28. Abdoli B, Teymoori M, Zamani Ssh, Zeraatkar M, Hovanloo F. Relationship Between Plantar Longitudinal Arches With Some Selected Motor Parameters In Children 11 To 14 Years. J Res
    Rehabil Sci 2011; 7(3): 381-390.
  29. Jaiswal K Pv, Nagekar K. Study Of Correlation Between Planter Arch Index And Bmi In Young Adults. Int. J. Curr. Res 2018; 10(8): 72948-72953.
  30. Finkelstein EA, Chen H, Prabhu M, Trogdon JG, Corso PS. The Relationship between Obesity and Injuries Among US Adults. Am J Health Syst Pharm 2007; 21(5): 460-468.
  31. Del Porto H, Pechak C, Smith D, Reed-Jones R. Biomechanical Effects of Obesity On Balance. Int. J. Eng. Sci 2012; 5(4): 301-320.
Journal of Paramedical Sciences & Rehabilitation
Volume 10, Issue 3
December 2021
Pages 87-96

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