Degradable polymers are used widely in tissue engineering and regenerative medicine.
Maturing capabilities in additive manufacturing coupled with advances in orthogonal …

Bone tissue engineering (BTE) aims to develop strategies to regenerate damaged or
diseased bone using a combination of cells, growth factors, and biomaterials. This article …

Biodegradable plastics, if they are not properly managed at their end-of-life, can have the
same hazardous environmental consequences as conventional plastics. This study …

Biopolymers have been used as a replacement material for synthetic polymers in scaffold
forming due to its biocompatibility and nontoxic properties. Production of scaffold for tissue …

Hydrogels are versatile biomaterials characterized by three-dimensional, cross-linked,
highly hydrated polymeric networks. These polymers exhibit a great variety of biochemical …

The ultimate aim of tissue engineering entails fabrication of functional replacements for
damaged organs or tissues. Scaffolds facilitate the proliferation of cells, while also improving …

Recently, functional applications of thermoplastic foams have received extensive attention
from the research and materials communities, focusing on their various applications, key …

In this work the preparation and characterisation of intranasal implants for the delivery of
risperidone (RIS) is described. The aim of this work is to develop better therapies to treat …

Biomaterial scaffolds have been gaining momentum in the past several decades for their
potential applications in the area of tissue engineering. They function as three‐dimensional …

Abstract Three-dimensional (3D) bio-nanocomposite poly (butylene succinate)(PBS)/
cellulose nanocrystals (CNC) scaffolds were fabricated by a solvent mixture of chloroform …