We evaluated the effect of a novel mesenchymal stem cell (MSC) delivery system using
magnetic beads and an external magnetic force, and investigated the osteogenic potential of …

Magnetic nanocomposite scaffolds based on poly (ε-caprolactone) and poly (ethylene
glycol) were fabricated by 3D fibre deposition modelling (FDM) and stereolithography …

The concept of magnetic guidance is still challenging and has opened a wide range of
perspectives in the field of tissue engineering. In this context, magnetic nanocomposites …

Human dermal fibroblasts entrapped in fibrin gels cast in cross-shaped (cruciform)
geometries with 1: 1 and 1: 0.5 ratios of arm widths were studied to assess whether tension …

In this paper, we study the deformation, and experimentally quantify the change in stiffness,
of an extracellular matrix (ECM) embedded with magnetic beads that are bio-conjugated …

More than 1 million orthopedic procedures are performed in the US each year, for
reconstructive surgery, trauma, or abnormal skeletal defects. Bone grafts are typically used …

The influence of the state of magnetic nanoparticle aggregation and the amount of
internalized iron on capacity for stem-cell differentiation is examined by Claire Wilhelm and …

Mechanical stimulation of cells embedded in scaffolds is known to increase the cellular
performance toward osteogenic or chondrogenic differentiation and tissue development …

Replicating the natural cellular environment is a critical strategy when employing
biomaterials to enhance tissue regeneration. However, effectively controlling physical cues …

The aim of this work is to improve bone-implant bonding. This can, potentially, be achieved
through the use of an implant coating composed of fibre networks. It is hypothesised that …