Abstract
As concern exists as to how much load a child should carry, we studied the gait effects of increased added mass with varied backpack styles.
Backpack loads of up to 25% increase above body weight were added to three backpack styles (double-strap, single-strap, hipster). Individuals ambulating thirty-meters, were instrumented with the WPGM tm (Walkabout Portable Gait Monitoring System). Relative power of the approximate center of mass in three dimension, gait frequency and forward and vertical asymmetries were measured. Five females (avg. age 12.4 years) and five males (avg. age 12.8 years) were compared to a group of forty-eight normal age-matched controls. Data was analyzed with the GaitView tm (Innomed) and Excel tm (Microsoft) programs.
Overall, with 25% increased mass above body weight there was an 8% reduction in velocity (r2 0.9641). Velocity reduction occured with decreased step length (r2 0.9924). The hipster showed significant slowing with no difference between one and two strap models. Forward asymmetry increased 20% and vertical asymmetry increased 10% for all backpack styles. The two-strap gave minimal asymmetry with the one strap and hipster showing significant differences. Relative power decreased 20% and 15% in the vertical and forward dimension and increased 15% horizontally.
Significant difference of approximate center of mass measurements for boys and girls with increasing backpack weight occurred between 10–15% increased loads. With loads of up to 25% greater than body weight, differences are seen with gait velocity slowing, increasing asymmetry, and greater horizontal power. The two-strap backpack is superior in its effect of minimizing asymmetry and velocity impacts.
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