Ceramic bone implants have potential properties ideal for long-term implantation
applications. On comparison with other materials, ceramic biomaterials have advantages …

Biomaterials at nanoscale is a fast-expanding research field with which extensive studies
have been conducted on understanding the interactions between cells and their …

This study was conducted to evaluate the bone regeneration effects of collagen/strontium-
doped Bioglass (BG-Sr) scaffolds. The present study comprised four parts including …

Abstract 3D bioprinting has emerged as a viable tool to fabricate 3D tissue constructs with
high precision using various bioinks which offer instantaneous gelation, shape fidelity, and …

In our previous study, we successfully designed a dual-crosslinked network hydrogel by
introducing the monomers acrylamide (AM), carboxymethylcellulose (CMC), zeolitic …

Effective treatment of infected bone defects resulting from multi-drug resistant bacteria
(MDR) has emerged as a significant clinical challenge, highlighting the pressing demand for …

Multifunctional nanofibrous scaffolds for effective bone tissue engineering (BTE) application
must incorporate factors to promote neovascularization and tissue regeneration. In this …

In the present study, different weight ratios of electrospun bioactive glass nanofibers (3, 5,
10, 15, 25 and 35 wt%)(BGF) were added to calcium sulfate cement (CSC). Physical and …

All of the cells' interactions are done through their surfaces. Evaluation of surface
physicochemical scaffolds along with other factors is important and determines the fate of …

Bone tissue engineering as an alternative strategy, provides a great opportunity for
regeneration of large bone tissue lesions. The use of biodegradable porous scaffolds along …