The aim of this study was to determine changes of peak pressure, maximal force, and contact area in five foot regions with two different insoles during walking and running, thereby obtaining data contributing to optimization of footwear and reduction of lower leg injury. Twenty-six male soldiers participated in the study. Peak pressure, maximal force, and contact area were measured in five foot regions (lateral and medial heel, midfoot, lateral and medial forefoot, big toe, and toes 2, 3, 4, and 5) with two different insoles (conventional vs. custom molded shock-absorbing insoles) during a walking speed of 5 km/h and running speeds of 8 and 12 km/h using the Pedar-X tensometric system (Novel, St. Paul, MN). Measurements revealed that the shock-absorbing insoles significantly (p < 0.05) attenuated the peak pressures in heel and forefoot region and increased the contact area in the midfoot region which indicates a successful redistribution of forces that arise during the contact phase in walking and running. Shock-absorbing insoles hence may contribute to better plantar pressure distribution during walking and running, and effectively prevent lower leg injuries.
Due to the internal structure of the knee joint, the ability to characterize and quantify the dynamic response of the meniscal tissue directly is highly problematic. The main purpose of this study was to investigate the behaviour of the meniscus under loading conditions. Four healthy young females were included. To obtain T2* values in the meniscus, the vTE sequence was used with 10 echoes ranging from 0.8 to 10.1 ms. Submilisecond first echo time is a great advantage of vTE sequence allowing for precise mapping of relatively short T2*. The two-parametric least squares fitting procedure was used to calculate T2* pixel-wise. A custom-made diamagnetic apparatus was developed to simulate stress conditions on the lower limb in a conventional MR scanner. vTE T2* was performed in five consecutive scans, 6:10 min apart. Three different compartments of the medial and lateral meniscus were segmented. The differences at the different time-points were calculated. A constant increase of T2* times after compression was statistically significant in the anterior horn of the medial meniscus. T2* mapping with variable echo time sequence might be a satisfactorily sensitive technique to detect the changes of meniscus physiology under loading conditions.
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