Abstract
Shoe attrition is inevitable as wearing time increases, which may produce diverse influences on kinematics and kinetics of lower limb joints. Excessive attrition may change support alignment and lead to deleterious impacts on the joints. The study identifies the biomechanical influences of aging shoes on lower limb joints. The shoes in the experiment were manually worn in the lateral heel. Nineteen healthy participants, including thirteen males and six females, were recruited to conduct walking experiments wearing attrition shoes (AS) and new shoes (NS) with a random order. A Vicon motion analysis system was used to collect kinematic data and ground reaction force. Kinematic and kinetic parameters of the hip, knee, and ankle joints were calculated using the Anybody Musculoskeletal Model and compared between the two conditions, AS and NS. The results showed that wearing an attrition shoe decreased the plantarflexion angle and plantarflexion moment of the ankle joint, while significantly increasing the magnitude of the first peak of the knee adduction moment and hip abduction moment and hip internal rotation moment (p < .05). The results of the study implied that wearing attrition shoes is not recommended for those people with knee problems due to increase in medial loading.
Highlights
Footwear is designed to protect humans from injuries in different environments (Barton et al, 2009) and provide assistance in motion control and attenuation of impact forces in daily activities
This study aimed to identify the immediate effects of worn shoes on kinematics and kinetics of the lower limb
The vertical ground reaction force (GRF) were normalized by the body weight
Summary
Footwear is designed to protect humans from injuries in different environments (Barton et al, 2009) and provide assistance in motion control and attenuation of impact forces in daily activities. Aging attrition shoes (Moghaddam et al, 2019) change the plantar support surface and may affect the kinematics and kinetics of the lower limb, which might be related to joint injuries (Taunton et al, 2003; Ramsey et al, 2019). Worn shoes were demonstrated to increase energy cost and risk of injuries (Ramsey et al, 2018) and decrease lower limb stability (Saito et al, 2007). Footwear was found to reduce the external loading rate to protect lower limbs from injuries (Altman and Davis, 2016) and designed to reduce the knee adduction moment (Fisher et al, 2007; Peng et al, 2020) to relieve medial knee pain. Lateral-wedged insoles or shoes with a certain degree of inclination to the medial were normally adopted to be the interventions to decrease the first peak knee adduction moment that was beneficial to patients with medial knee osteoarthritis (Radzimski et al, 2012; Felson et al, 2019; Sinclair and Stainton, 2019)
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