Over recent years, keratin has gained great popularity due to its exceptional biocompatible
and biodegradable nature. It has shown promising results in various industries like poultry …

Bio-based biomaterials, are created using renewable biomass from sources such as plants,
animals and microorganisms. Cellulose is a renewable biopolymer and its usage for bone …

Processing and composition can significantly affect the mechanobiology, biodegradability,
and cellular behavior of polymer-based bone scaffolds to replace damaged bone tissue. In …

Tissue regeneration based on the utilization of artificial soft materials is considered a
promising treatment for bone-related diseases. Here, we report cranial bone regeneration …

Scaffolds for bone tissue engineering should have sufficient mechanical properties
comparable with those of the surrounding native bone tissue. Therefore, it is necessary to …

The creation of a suitable scaffold is a crucial step in the process of bone tissue engineering
(BTE). The scaffold, acting as an artificial extracellular matrix, plays a significant role in …

Bioengineering scaffolds have been improved to achieve efficient regeneration of various
damaged tissues. In this study, we attempted to fabricate mechanically and biologically …

Background Immune responses and osteogenesis differentiation induced by implants are
crucial for bone tissue regeneration. Consideration of only one of those properties is not …

Abstract Poly (L-lactic acid)(PLLA)-based biocomposites have been used in tissue
engineering applications because of their reasonable biocompatibility and mechanical …

Background Bone tissue engineering, based on three-dimensional (3D) printing technology,
has emerged as a promising approach to treat bone defects using scaffolds. The objective of …