Mechanical properties and in vitro biocompatibility of porous zein scaffolds

## Abstract Porous poly(D,L‐lactic‐__co__‐glycolic acid) (PLGA) scaffolds under a simulated physiological environment were investigated to estimate their “true” mechanical properties, with emphasis on the effect of “wet‐state” on the compressive behaviors. The effect of the history of ethanol steri

## Abstract Ionically crosslinked alginate hydrogels are attractive scaffolds because of their biocompatibility and mild gelation reaction that allows for gentle cell incorporation. However, the instability of ionically crosslinked hydrogels in an aqueous environment is a challenge that limits thei

## Abstract A new 3D porous and biostable collagen scaffold has been developed to improve the biocompatibility of implantable glucose sensors by minimizing tissue reactions while stimulating angiogenesis around the sensors. The novel collagen scaffold was crosslinked using nordihydroguaiaretic acid

Scaffolds for tissue engineering should be biocompatible and stimulate rapid blood vessel ingrowth. Herein, we analyzed in vivo the biocompatibility and vascularization of three novel types of biodegradable porous polyurethane scaffolds. The polyurethane scaffolds, i.e., PU-S, PU-M and PU-F, were im

## Abstract The goal of this study was to generate porous scaffolds from the genetically engineered protein, an analogue of __Nephila clavipes__ spidroin 1 (rS1/9) and to assess the properties of new rS1/9 scaffolds essential for bioengineering. The salt leaching technique was used to make the rS1/