Understanding the in vitro biology and behavior of human osteoblasts is crucial for
develo** research models that reproduce closely the bone structure, its functions, and the …

Aluminosilicates have traditionally been important materials for applications related to
adsorbents, water softeners, catalysis and mechanical and thermal reinforcement due to …

The growing incidence of skeletal fractures poses a significant challenge to ageing
societies. Since a major part of physiological loading in the lower limbs is carried by cortical …

Purpose: Study objectives were set to (i) fabricate 3D-printed scaffolds/grafts with varying
pore sizes,(ii) characterize surface and mechanical properties of scaffolds,(iii) characterize …

The development of quantitative ultrasound (QUS) technologies to measure bone is
motivated by the need to overcome the limitations of X-ray based methods, measuring bone …

This study aims to create mathematical models (MMs) and maps that will facilitate
personalized implant design and provide the selection of design parameters that give …

Bone quality is determined by a variety of compositional, micro-and ultrastructural properties
of the mineralized tissue matrix. In contrast to X-ray-based methods, the interaction of …

Ti alloys are the most remarkable group of biomedical implant materials because of their
properties such as low elastic modulus, low density, super bio-compatibility, high …

Objective To quantify early osteoarthritic-like changes in the structure and volume of
subchondral bone plate and trabecular bone and properties of articular cartilage in a rabbit …

This work presents the first quantitative ultrasonic sound speed images of ex vivo limb cross-
sections containing both soft tissue and bone using Full Waveform Inversion (FWI) with level …