Effects of Gamma Irradiation on the Properties of Hydroxyapatite-Collagen-Chitosan-Mg-ZnO Scaffolds for Bone Tissue Engineering

Abstract: Bone tissue engineering aims to repair diseased or damaged bone that cannot be regenerated naturally. This study is designed to develop biodegradable porous scaffolds as bone substitutes and evaluate the effect of gamma irradiation on these scaffolds for the restoration of defected bone. Here, composite scaffolds (HA-COL-CS-Mg-ZnO) were prepared by the thermally induced phase separation (TIPS) technique using collagen (COL) and chitosan (CS), hydroxyapatite (HA), magnesium (Mg), and zinc oxide (ZnO) at differe… Show more

“…Collagen@chitosan@HAp@Mg@ZnO scaffolds were prepared in different mass proportions. 185 Subsequently, the scaffolds were subjected to gamma radiation aiming at the physical crosslinking of the polymeric matrix, which improved mechanical strength (0.82 to 1.86 N/mm 2 ) increasing the thickness of the pore wall. The irradiated and nonirradiated scaffolds were biocompatible and noncytotoxic to the cell line, which ensured their suitability for in vivo use.…”

“…Collagen@chitosan@HAp@Mg@ZnO scaffolds were prepared in different mass proportions . Subsequently, the scaffolds were subjected to gamma radiation aiming at the physical crosslinking of the polymeric matrix, which improved mechanical strength (0.82 to 1.86 N/mm 2 ) increasing the thickness of the pore wall.…”

Polysaccharide Hydroxyapatite (Nano)composites and Their Biomedical Applications: An Overview of Recent Years

“…Collagen@chitosan@HAp@Mg@ZnO scaffolds were prepared in different mass proportions. 185 Subsequently, the scaffolds were subjected to gamma radiation aiming at the physical crosslinking of the polymeric matrix, which improved mechanical strength (0.82 to 1.86 N/mm 2 ) increasing the thickness of the pore wall. The irradiated and nonirradiated scaffolds were biocompatible and noncytotoxic to the cell line, which ensured their suitability for in vivo use.…”

“…Collagen@chitosan@HAp@Mg@ZnO scaffolds were prepared in different mass proportions . Subsequently, the scaffolds were subjected to gamma radiation aiming at the physical crosslinking of the polymeric matrix, which improved mechanical strength (0.82 to 1.86 N/mm 2 ) increasing the thickness of the pore wall.…”

Polysaccharide Hydroxyapatite (Nano)composites and Their Biomedical Applications: An Overview of Recent Years

An efficient hydrophobic modification strategy for enhancing collagen stability: Effect of lauric acidic N-hydroxysulfosuccinimide ester on the structure and properties of fish collagen