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- Author or Editor: Agnieszka Jankowicz-Szymanska x
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Effect of Excessive Body Weight on Foot Arch Changes in Preschoolers
A 2-Year Follow-up Study
Background
A stable standing posture, and effective and aesthetic gait, depend heavily on correct anatomical construction of the feet, thanks to which they can play their important role. The shape and height of the foot arches are already formed in the preschool and early school years; therefore, abnormalities and disorders in children's feet, and correlations between foot formation and somatic build, are still crucial and interesting issues for orthopedists, pediatricians, physiotherapists, and podiatrists. This study deals with changes in the height of the longitudinal and transverse arches of the foot in 4- to 6-year-old children.
Methods
A total of 102 boys and 105 girls took part in a 24-month study in which their body weight, height, body mass index, and Clarke's and gamma angles were measured. The analysis also focused on correlations among sex, nutritional status, and changes in foot arch height.
Results
It was discovered that sex did not considerably affect Clarke's and gamma angle values. However, it was found that between ages 4 and 6 years, the proportion of overweight and obese boys and girls increased, and the medial longitudinal arch of the foot had a tendency to collapse in those with excessive body weight. The effect of nutritional status on the transverse arch of the foot is rather dubious.
Conclusions
In light of these findings, therapeutic programs for preventing foot deformities in children should also focus on body weight control.
Background:
This study sought to assess the prevalence of flat feet in primary school children and to find correlations among arch height, ankle dorsiflexion range of motion (ROM), and obesity level.
Methods:
The 400 children aged 10 to 12 years who took part in the study had their body height, weight, and fat percentage measured. Based on these measurements, body mass index was calculated and weight status was categorized for all of the participants. The height of the longitudinal arch of the foot was measured on a computerized podoscope and given in Clarke's angles. Dorsiflexion ROM was assessed with the child in the nonweightbearing sitting position with the knees 90° flexed. The arithmetic mean and standard deviation were implemented to analyze the data. Intergroup differences were assessed by Mann-Whitney U, Kruskal-Wallis, and post hoc Tukey tests. Significance was accepted at P = .05.
Results:
Flat feet were found in 36% of participants; limited ROM was found in both feet in 25% of participants and in one foot in 12%. No significant differences in dorsiflexion ROM in children with high-arched, normal, and flat feet were revealed. Excessive body weight was disclosed in 21% of participants. Overweight and obese children had significantly lower foot arches and notably smaller ankle dorsiflexion ROM than those with normal weight.
Conclusions:
Ankle dorsiflexion ROM is similar in children with high-arched, normal, and flat feet. However, limited dorsiflexion ROM is more often found in children with excessive weight.