Fabrication and in vitro characterization of three-dimensional organic/inorganic scaffolds by robocasting

## Abstract **Summary:** A simple method for the fabrication of a chemical composition gradient from organic to inorganic by the pyrolysis of a polymethylsilsesquioxane (PMSQ) thin film in a gradient temperature field is reported. The resultant chemical gradient surface demonstrates gradual changes

## Abstract The aim of this study was to fabricate and characterize the novel hybrid organic/inorganic microparticles (MPs) to apply in bone regeneration. These hybrid MPs were fabricated using a scale‐up method we have developed to increase the yield of chitosan (CS) MPs. The MPs were based on the

Sheep articular chondrocytes were cultured for 3, 6, and 9 weeks on a three-dimensional porous scaffold from poly(L/DL-lactide) 80/20%. Cell growth and activity was estimated from the amount of proteoglycans attached to the polylactide scaffold and the amounts of DNA and proteins measured in the cel

## Abstract The promising potential of a RAD‐16 self‐assembly‐peptide hydrogel as a scaffold for tissue‐engineered cartilage was investigated. Within 3 weeks of in vitro culture, chondrocytes within the hydrogel produced a high amount of GAG and type‐II collagen, which are the components of cartila

## Abstract Bone tissue engineering has emerged as a promising strategy in the effort to regenerate and repair diseased or damaged bone. The bioreactor, within which engineered bone tissue is cultured, plays a key role in the development of engineered bone graphs. In this work, the potentials of th

## Abstract A possible strategy for creating three‐dimensional (3D) tissue‐engineered organs in vitro with similar volumes to the primary organs is to develop a capillary network throughout the constructs to provide sufficient oxygenation and nutrition to the cells composing them. Here, we propose