Optimization of cardiac cell seeding and distribution in 3D porous alginate scaffolds

## Abstract To engineer functional tissues, a large number of cells must be successfully seeded into scaffolds. We previously proposed a methodology for tissue engineering using magnetite nanoparticles and magnetic force, which we termed “Mag‐TE.” In the present study, we applied the Mag‐TE techniq

## Abstract High cell density and uniformity in a tissue‐engineered construct is essential to expedite the formation of a uniform extracellular matrix. In this study, we demonstrated an on‐site gelation approach to increase cellular population and uniformity through porous scaffolds using alginate

## Abstract Bone morphogenetic protein‐2 (BMP‐2) plays a key role in osteogenesis. Biomaterials used for the sustained delivery of BMP‐2 __in vivo__ have shown therapeutic benefits. In the present study, BMP‐2 was loaded in porous silk fibroin scaffolds derived from silkworm cocoons (2.4 ± 0.14 μg

## Abstract In this study a three step culture system, 2D‐3D sequential culture __in vitro__ and further implantation __in vivo__ was developed to induce human embryonic stem cells (hESCs) into cartilage like tissues. Five‐day‐old embryoid bodies were plated for chondrogenic induction for 27 days (

## Abstract We have synthesized methacrylate‐endcapped caprolactone networks with tailored water sorption ability, poly(CLMA‐__co__‐HEA), in the form of three‐dimensional (3D) scaffolds with the same architecture but exhibiting different hydrophilicity character (__x__~HEA~=0, 0.3, 0.5), and we inv

## Abstract The aim of this study was to investigate the osteogenic effect of three different cell‐seeded 3D‐bioplotted scaffolds in a ovine calvarial critical‐size defect model. The choice of scaffold‐materials was based on their applicability for 3D‐bioplotting and respective possibility to produ