Natural extracellular matrix for cellular and tissue biomanufacturing
Natural extracellular matrices (ECM) derived from native tissues or cultured cells are
extensively employed to fabricate biocompatible scaffolds or living tissue constructs for the …
extensively employed to fabricate biocompatible scaffolds or living tissue constructs for the …
Nanostructured biomaterials for regeneration
G Wei, PX Ma - Advanced functional materials, 2008 - Wiley Online Library
Biomaterials play a pivotal role in regenerative medicine, which aims to regenerate and
replace lost/dysfunctional tissues or organs. Biomaterials (scaffolds) serve as temporary 3D …
replace lost/dysfunctional tissues or organs. Biomaterials (scaffolds) serve as temporary 3D …
Nanofiber technology for regenerative engineering
KS Ogueri, CT Laurencin - ACS nano, 2020 - ACS Publications
Regenerative engineering is powerfully emerging as a successful strategy for the
regeneration of complex tissues and biological organs using a convergent approach that …
regeneration of complex tissues and biological organs using a convergent approach that …
New directions in nanofibrous scaffolds for soft tissue engineering and regeneration
This review focuses on the role of nanostructure and nanoscale materials for tissue
engineering applications. We detail a scaffold production method (electrospinning) for the …
engineering applications. We detail a scaffold production method (electrospinning) for the …
PCL-based 3D nanofibrous structure with well-designed morphology and enhanced specific surface area for tissue engineering application
Tissue engineering opens a new horizon for biological tissue replacement applications.
Scaffolds, appropriate cells, and signaling induction are the main three determinant …
Scaffolds, appropriate cells, and signaling induction are the main three determinant …
Recent progress in the biological basis of remodeling tissue regeneration using nanofibers: role of mesenchymal stem cells and biological molecules
Opening up new and unlimited avenues in the biomedical field, tissue engineering and
regenerative medicine, the electrospinning process is considered as a versatile and the …
regenerative medicine, the electrospinning process is considered as a versatile and the …
Therapeutic application of electrospun nanofibrous meshes
Fabricating tissue architecture-mimicking scaffolds is one of the major challenges in the field
of tissue engineering. Electrospun nanofibers have been considered as potent techniques …
of tissue engineering. Electrospun nanofibers have been considered as potent techniques …
3D biofabrication of microfiber-laden minispheroids: a facile 3D cell co-culturing system
Hierarchical tissues composed of spheroid and fiber structures such as tumors, embryos and
glomeruli widely exist in organisms. Methods have been developed to build spheroid and …
glomeruli widely exist in organisms. Methods have been developed to build spheroid and …
Strategies to improve nanofibrous scaffolds for vascular tissue engineering
The biofabrication of biomimetic scaffolds for tissue engineering applications is a field in
continuous expansion. Of particular interest, nanofibrous scaffolds can mimic the …
continuous expansion. Of particular interest, nanofibrous scaffolds can mimic the …
Process hybridization schemes for multiscale engineered tissue biofabrication
P Chansoria, K Schuchard… - Wiley Interdisciplinary …, 2021 - Wiley Online Library
Recapitulation of multiscale structure–function properties of cells, cell‐secreted extracellular
matrix, and 3D architecture of natural tissues is central to engineering biomimetic tissue …
matrix, and 3D architecture of natural tissues is central to engineering biomimetic tissue …