Add to ORKGThe osteochondral interface of an arthritic joint is notoriously difficult to regenerate due to its extremely poor regenerative capacity and complex stratified architecture. Native osteochondral tissue extracellular matrix is composed of numerous nanoscale organic and inorganic constituents. Although various tissue engineering strategies exist in addressing osteochondral defects, limitations persist with regards to tissue scaffolding which exhibit biomimetic cues at the nano to micro scale. In an effort to address this, the current work focused on 3D printing biomimetic nanocomposite scaffolds for improved osteochondral tissue regeneration. For this purpose, two biologically-inspired nanomaterials have been synthesized consisting of (1) ost...
Cells in their natural 3D environment experience a variety of topographies of the extracellular matr...
The natural osteochondral (OC) tissue exhibits a unique gradient structure which varies with distanc...
Multi-material 3D printing technologies that resolve features at different lengths down to the micro...
The osteochondral interface of an arthritic joint is notoriously difficult to regenerate due to its ...
Chronic and acute osteochondral defects as a result of osteoarthritis and trauma present a common an...
© 2019 Elsevier Inc. Osteochondral defects resulting from trauma and/or pathologic disorders are cri...
Due to the disparity in composition and mechanical properties of the osteochondral interface as well...
Scaffold-based interfacial tissue engineering aims to not only provide the structural and mechanical...
Osteochondral tissue has a complex graded structure where biological, physiological, and mechanical ...
Cartilage defects, which are caused by a variety of reasons such as traumatic injuries, osteoarthrit...
In the last few years, osteochondral tissue engineering has shown an increasing development in advan...
Osteochondral defects are prone to induce osteoarthritic degenerative changes. Many tissue-engineeri...
Osteochondral tissue has a graded structure spanning from the subchondral bone region beneath the jo...
The utilization of biomedical nanotechnologies and nanomaterials has surged in the field of 3D bone ...
Three-dimensional (3D) functional constructs with biomimetic mechanical and chemical properties are ...
Cells in their natural 3D environment experience a variety of topographies of the extracellular matr...
The natural osteochondral (OC) tissue exhibits a unique gradient structure which varies with distanc...
Multi-material 3D printing technologies that resolve features at different lengths down to the micro...
The osteochondral interface of an arthritic joint is notoriously difficult to regenerate due to its ...
Chronic and acute osteochondral defects as a result of osteoarthritis and trauma present a common an...
© 2019 Elsevier Inc. Osteochondral defects resulting from trauma and/or pathologic disorders are cri...
Due to the disparity in composition and mechanical properties of the osteochondral interface as well...
Scaffold-based interfacial tissue engineering aims to not only provide the structural and mechanical...
Osteochondral tissue has a complex graded structure where biological, physiological, and mechanical ...
Cartilage defects, which are caused by a variety of reasons such as traumatic injuries, osteoarthrit...
In the last few years, osteochondral tissue engineering has shown an increasing development in advan...
Osteochondral defects are prone to induce osteoarthritic degenerative changes. Many tissue-engineeri...
Osteochondral tissue has a graded structure spanning from the subchondral bone region beneath the jo...
The utilization of biomedical nanotechnologies and nanomaterials has surged in the field of 3D bone ...
Three-dimensional (3D) functional constructs with biomimetic mechanical and chemical properties are ...
Cells in their natural 3D environment experience a variety of topographies of the extracellular matr...
The natural osteochondral (OC) tissue exhibits a unique gradient structure which varies with distanc...
Multi-material 3D printing technologies that resolve features at different lengths down to the micro...