Abstract Background Inertial measurement units (IMUs) offer the ability to measure walking
gait through a variety of biomechanical outcomes (eg, spatiotemporal, kinematics, other) …

The mechanical environment of the joint during dynamic activity plays a significant role in
osteoarthritis processes. Understanding how the magnitude, pattern and duration of joint …

Foot progression angle (FPA) analysis is one of the core methods to detect gait pathologies
as basic information to prevent foot injury from excessive in-toeing and out-toeing. Deep …

Soft piezoresistive wearable conductors have led to a paradigm shift in the monitoring of
human bodily motions. Cellular additively manufactured conductors are promising …

Background: Measuring and modifying movement-related joint loading is integral to the
management of lower extremity osteoarthritis (OA). Although traditional approaches rely on …

Foot progression angle (FPA) is vital in many disease assessment and rehabilitation
applications, however previous magneto-IMU-based FPA estimation algorithms can be …

Wearable sensing using inertial measurement units (IMUs) is enabling portable and
customized gait retraining for knee osteoarthritis. However, the vibrotactile feedback that …

Modifying the foot progression angle (FPA) is a non-pharmacological, non-surgical
treatment option for knee osteoarthritis, however current widespread adoption has been …

Foot progression angle gait (FPA) modification is an important part of rehabilitation for a
variety of neuromuscular and musculoskeletal diseases. While wearable haptic biofeedback …

Background Foot progression angle is a biomechanical target in gait modification
interventions for knee osteoarthritis. To date, it has only been evaluated within laboratory …