The extensive research of graphene and its derivatives in biomedical applications during the
past few years has witnessed its significance in the field of nanomedicine. Starting from …

Tissue engineered products (TEPs), which mean biomaterials containing either cells or
growth factors or both cells and growth factors, may be used as an alternative to the …

Abstract Purpose of Review The goals of this review are two folds:(1) to describe the recent
understandings on the roles of calcitonin gene-related peptide-α (CGRP) in bone …

The aim of engineering of biomaterials is to fabricate implantable biocompatible scaffold that
would accelerate regeneration of the tissue and ideally protect the wound against biodevice …

Therapeutic ultrasound has been studied for over seven decades for different medical
applications. The versatility of ultrasound applications are highly dependent on the …

Mesenchymal stem cells (MSCs) are stem cells that exhibit self-renewal capacity and multi-
directional differentiation potential. They can be extracted from the bone marrow and …

Background Owing to its exceptional electronic, mechanical, thermal, as well as
optoelectronic characteristics, graphene—a planar sheet with one-atom thickness and made …

The repair of critical bone defects remains challenging worldwide. Three canonical pillars
(biomaterial scaffolds, bioactive molecules, and stem cells) of bone tissue engineering have …

Dental implant restoration is the preferred choice for patients with dentition defects or
edentulous patients, and obtaining stable osseointegration is the determining factor for …

Improving local bone mineral density (BMD) at fracture‐prone sites of bone is a clinical
concern for osteoporotic fracture prevention. In this study, a featured radial extracorporeal …