For aliphatic polyesters such as PLAs and PGAs, there is a strong interplay between the
hydrolytic degradation and erosion–degradation leads to a critically low molecular weight at …

The implantation of bio-degradable scaffolds is considered as a promising approach to
address the repair of bone defects. This article aims to develop a computational approach to …

Different manufacturing processes of scaffolds affect their main properties by altering the
microstructure of pores. In this study, poly (lactic-co-glycolic acid)(PLGA) scaffolds were …

Architecture and composition of Scaffolds are influential factors in the regeneration of
defects. Herein, synthesised iron oxide (magnetite) nanoparticles (MNPs) by co …

Purpose This paper aims to develop a computational approach to analyze the mechanical
behavior, perfusion bioreactor test and degradation of the designed scaffolds. Five types of …

There are a number of procedures for regeneration of injured nerves; however, tissue
engineering scaffolds seems to be a promising approach for recovery of the functionality of …

A correct understanding of the process of scaffold degradation can help a proper scaffold
design of bone regeneration. Polylactide acid (PLA) scaffolds are a suitable alternative for …

Abstract Fused Filament Fabrication (FFF), a commonly used additive manufacturing
technology, is now employed widely in biomedical fields for fabricating geometrically …

The significant rise in bone-related injuries and diseases over the years has increased the
need for bone grafting alternatives. The development of alternatives such as tissue …

In this study, dexamethasone-loaded gelatin–starch scaffolds were fabricated by the freeze-
drying technique under different cooling temperatures and polymeric compositions. The …