Deformational loading represents a primary component of the chondrocyte physical
environment in vivo. This review summarizes our experience with physiologic deformational …

Cartilage tissue engineering can provide functional cartilaginous constructs that can be
used for controlled in vitro studies of chondrogenesis and potentially for in vivo articular …

Regenerative medicine is targeted to improve, restore or replace damaged tissues or organs
using a combination of cells, materials and growth factors. Both tissue engineering and …

In the literature there are conflicting reports on the optimal scaffold mean pore size required
for successful bone tissue engineering. This study set out to investigate the effect of mean …

In 3D bioprinting, bioinks with high concentrations of polymeric materials are frequently used
to enable fabrication of 3D cell‐hydrogel constructs with sufficient stability. However, this is …

A tissue engineering approach was developed to produce arbitrary lengths of vascular graft
material from smooth muscle and endothelial cells that were derived from a biopsy of …

Synthetic polymer scaffolds designed for cell transplantation were reproducibly made on a
large scale and studied with respect to biocompatibility, structure and biodegradation rate …

Collagen molecules in articular cartilage have an exceptionally long lifetime, which makes
them susceptible to the accumulation of advanced glycation end products (AGEs). In fact, in …

Conventional 3D printing may not readily incorporate bioactive ingredients for controlled
release because the process often involves the use of heat, organic solvent, or crosslinkers …

A novel method for the preparation of gelatin scaffolds was designed by varying the
crosslinking temperature. Four pore size ranges of genipin-crosslinked gelatin scaffolds …