Infiltration and sustenance of viability of cells by amphiphilic biosynthetic biodegradable hydrogels.

Journal: Journal Of Materials Science. Materials In Medicine
Published:
Abstract

Amphiphilic biosynthetic hydrogels comprising natural polysaccharide alginate (I) and synthetic polyester polypropylene fumarate (II) units were prepared by crosslinking the copolymer of I and II with calcium ion and vinyl monomers viz, 2-hydroxyethyl methacrylate (HEMA), methyl methacrylate (MMA), butyl methacrylate (BMA) and N,N'-methylene bisacrylamide (NMBA). Three fast degradable hydrogels, ALPF-MMA, ALPF-HEMA and ALPF-BMA and one slow degradable hydrogel ALPF-NMBA were prepared. These hydrogels are amphiphilic and able to hold sufficient amount of proteins on their surfaces. All these hydrogels are found to be hemocompatible, cytocompatible and genocompatible. ALPF-NMBA promotes infiltration of L929 fibroblasts and 3D growth of H9c2 cardiomyoblasts and long-term viability.

Authors
Finosh Thankam, Jayabalan Muthu

Similar Publications

Influence of physical and mechanical properties of amphiphilic biosynthetic hydrogels on long-term cell viability.
Influence of physical and mechanical properties of amphiphilic biosynthetic hydrogels on long-term cell viability.
Journal: Journal of the mechanical behavior of biomedical materials
Published: March 05, 2014
4-n-Butylresorcinol-Based Linear and Graft Polymethacrylates for Arbutin and Vitamins Delivery by Micellar Systems.
4-n-Butylresorcinol-Based Linear and Graft Polymethacrylates for Arbutin and Vitamins Delivery by Micellar Systems.
Journal: Polymers
Published: December 20, 2019
N-Halamine polymer from bipolymer to amphiphilic terpolymer with enhancement in antibacterial activity.
N-Halamine polymer from bipolymer to amphiphilic terpolymer with enhancement in antibacterial activity.
Journal: Colloids and surfaces. B, Biointerfaces
Published: July 26, 2017