Flexible wearable and implantable devices are contributing to the healthcare field by
enabling intuitive interfaces with the tissues of human body through their thin form factors …

Ultrafine-grained and heterostructured materials are currently of high interest due to their
superior mechanical and functional properties. Severe plastic deformation (SPD) is one of …

Bioelectronic bone implants are being widely recognized as a promising technology for
highly personalized bone/implant interface sensing and biophysical therapeutic stimulation …

Implant-associated infections, caused by the formation of biofilms especially antibiotic
resistant organisms, are among the leading causes of orthopaedic implant failure. Current …

Effective detection of delayed union and non-union related to bone fracture healing can
reduce the individual and social burdens associated with fracture management. Despite …

Due to their unique properties, titanium (Ti) and Ti-alloys are particularly suitable for
biomedical devices. Ti has a high specific strength and low Young's modulus (reducing …

Bone fractures are a global public health problem. A sustained increase in the number of
incident cases has been observed in the last few decades, as well as the number of …

Biodegradable magnesium is a highly desired material for fracture fixation implants because
of its good mechanical properties and ability to completely dissolve in the body over time …

This proof of concept study presents a method to collect and analyse kinetic data from one
participant with a transfemoral amputation fitted with a percutaneous osseointegrated …

Implantable electrodes have been utilized for decades to stimulate, sense, or monitor a
broad range of biological processes, with examples ranging from glucose monitoring …