Influence of surface type on outdoor gait parameters measured using an In-Shoe Motion Sensor System.

The objectives of this study were to measure outdoor gait parameters using an In-Shoe Motion Sensor System (IMS) and evaluate how different types of surfaces affect various gait dynamics. Accurate outdoor gait data are crucial for effective fall risk assessment because surface irregularities and tripping hazards often result in falls during walking. An IMS was used in this study to collect spatiotemporal, spatial, and foot parameters from 27 healthy adults walking on indoor asphalt, soil, and grass surfaces.

Diurnal variations in gait parameters among older adults with early-stage knee osteoarthritis: insights from wearable sensor technology.

Knee osteoarthritis (KOA) significantly impairs mobility in older adults. Understanding its impact on gait dynamics throughout the day is crucial for optimizing management strategies. This study aimed to explore diurnal variations in gait parameters among older adults with KOA using an in-shoe motion sensor (IMS) system equipped with accelerometers and gyroscopes.

Influence of flat feet on the lateral movements of tennis players.

This study investigated the effect of flat feet on the lateral movements of tennis players. Lateral footwork is crucial in tennis, and variations in the athletes' physical characteristics can affect footwork efficiency. Flat feet hinder forward propulsion; however, their relationship to lateral propulsion remains unclear.