Changes in the Gut Microbiota Composition during Implantation of Composite Scaffolds Based on Poly(3-hydroxybutyrate) and Alginate on the Large-Intestine Wall

Abstract: The development of biopolymer scaffolds for intestine regeneration is one of the most actively developing areas in tissue engineering. However, intestinal regenerative processes after scaffold implantation depend on the activity of the intestinal microbial community that is in close symbiosis with intestinal epithelial cells. In this work, we study the impact of different scaffolds based on biocompatible poly(3-hydroxybutyrate) (PHB) and alginate (ALG) as well as PHB/ALG scaffolds seeded with probiotic bacteri… Show more

“…Polymer scaffolds based on natural polymers have various applications in medical and pharmaceutical industries. 9 Chitosan (Cs) also has antibacterial properties and is widely used in polymer scaffolds. 10 These polymers are biocompatible and degrade gradually in biological environments, and this makes these compounds suitable for antibacterial gels, 11 smart drug delivery 12 and bone repair.…”

Preparation of new nanofiber conducting scaffold-based polyaniline and polypyrrole grafted on chitosan with antibacterial properties

“…Polymer scaffolds based on natural polymers have various applications in medical and pharmaceutical industries. 9 Chitosan (Cs) also has antibacterial properties and is widely used in polymer scaffolds. 10 These polymers are biocompatible and degrade gradually in biological environments, and this makes these compounds suitable for antibacterial gels, 11 smart drug delivery 12 and bone repair.…”

Preparation of new nanofiber conducting scaffold-based polyaniline and polypyrrole grafted on chitosan with antibacterial properties