Health care and medicine were revolutionized in recent years by the development of
biomaterials, such as stents, implants, personalized drug delivery systems, engineered …

Three-dimensional (3D)-printed in vitro tissue models have been used in various biomedical
fields owing to numerous advantages such as enhancements in cell response and …

The structural organization of natural liver is instrumental in the multifunctionality of
hepatocytes, and mimicking these specific architectures in tissue-engineered scaffold plays …

In the present study, pure chitosan and gelatin solutions are blended at four various ratios
with the addition of Fluorohydroxyapatite (FHA). The specimens are fed into the Freeze …

In liver tissue engineering, scaffolds with porous structure desgined to supply nutrient and
oxygen exchange for three‐dimensional (3‐D) cells culture, and maintain liver functions …

Highly porous chitosan microspheres (CSM) were prepared through emulsion-based
thermally induced phase separation (TIPS) without using toxic crosslinkers and chemical …

Chitosan-based polymers have enormous structural tendencies to build bioactive materials
with novel characteristics, functions, and various applications, mainly in liver tissue …

Gelatin is a biocompatible, biodegradable and fully absorbable biopolymer. These
properties have attracted significant interests in the use of gelatin for a wide range of tissue …

The fabrication process for a novel three-dimensional (3D) chitosan/gelatin scaffold with
predefined multilevel internal architectures and highly porous structures is presented …

Microcarriers are a versatile tool with applications across a wide range of disciplines within
tissue engineering. Large numbers of cells of appropriate phenotypes are required in …