Due to the continued emergence of resistance and a lack of new and promising antibiotics,
bacterial infection has become a major public threat. High-throughput screening (HTS) …

With the biological relevance of the whole cells, low cost compared with animal experiments,
a wide variety of cell-based screening platforms (cell-based assay, cell-based microfluidics …

To date, several in vivo models have been used to reproduce the onset and monitor the
progression of osteoarthritis (OA), and guinea pigs represent a standard model for studying …

Impact statement Contactless manipulation and cell patterning techniques provide rapid and
cost-effective three-dimensional (3D) cell culture model formation for tissue engineering …

Cartilage is a nonvascular and non‐neural, mesoderm‐derived tissue. Cartilage repair,
especially articular cartilage repair and reconstruction, has always been a difficult problem …

Fibrotic diseases are characterised by myofibroblast differentiation, uncontrolled
pathological extracellular matrix accumulation, tissue contraction, scar formation and …

Cartilage tissue engineering aims to develop functional substitutes for treating cartilage
defects and osteoarthritis. Traditional two-dimensional (2D) cell culture systems lack the …

One of the major challenges in the field of tissue engineering is the production of scaffolding
in nano-scale. The study of structural-functional connections in pathological and normal …

The discipline of 3D cell modeling is currently undergoing a surge of captivating
developments that are enhancing the realism and utility of tissue simulations. Using bioinks …

Mesenchymal stem cells (MSCs) are excellent seed cells for cartilage tissue engineering
and regenerative medicine. Though the condensation of MSCs is the first step of their …