Bone tissue engineering is a complex and dynamic process that initiates with migration and recruitment of osteoprogenitor cells followed by their proliferation, differentiation, matrix formation along with remodeling of the bone. Major advances in bone tissue engineering with scaffolds are achieved through ...
In recent years, bone tissue engineering has attracted much attention due to its sufficient supply and no risk of infection, and is expected to replace traditional bone grafting. In bone tissue engineering, seed cells are cultured on scaffolds and transplanted into bone defects to repair bone ...
The materials used in bone tissue engineering (BTE) have been advancing with each passing day. With the continuous development of nanomedicine, gold nanoparticles (GNPs), which are easy to be synthesized and functionalized, have attracted increasing attention. Recent years have witnessed this amazing ...
Nearly 30 years ago, we reported on a concept now known as Tissue Engineering. Here, we report on some of the advances in this now thriving area of research. In particular, significant advances in tissue engineering of skin, liver, spinal cord, blood vessels, and other areas are discussed....
Bone tissue engineering (BTE) is a rapidly developing strategy for repairing critical-sized bone defects to address the unmet need for bone augmentation an
H. Electrical stimulation in bone tissue engineering treatments. Eur. J. Trauma Emerg. S. 46, 231–244 (2020). Article Google Scholar Aleem, I. S. et al. Efficacy of electrical stimulators for bone healing: a meta-analysis of randomized sham-controlled trials. Sci. Rep. 6, 31724 (...
1.2The importance of electrical stimulation and biomaterials in bone tissue engineering Over the past decades, bone tissue engineering, as a crucial element of regenerative medicine, has attracted considerable interest from academic and industrial circles. The objective of bone tissue engineering is to de...
To overcome the limitations of current treatment options, artificial bone scaffolds have emerged as a novel alternative to traditional bone transplantation. 1.2 The importance of electrical stimulation and biomaterials in bone tissue engineering Over the past decades, bone tissue engineering, ...
Repair and regenerating these defects in bone and cartilage is a considerable challenge for clinicians.1,2,3,4 There has been significant progress in the development of tissue engineering over the past two decades, which has brought new hope for the regenerative treatment of bone and cartilage ...
In this Review, we discuss how organ-on-a-chip technologies can recreate functions of organs, focusing on tissue barrier properties, parenchymal tissue function and multi-organ interactions, which are three key aspects of human physiology. Specific organ-on-a-chip systems are examined in terms of...