Electrospinning is a very versatile technology that enables production of nanofibrous structures with morphology and fiber diameter dimensionally comparable to that of the extracellular matrix in natural tissues. For this reason electrospun scaffolds are believed to provide a better biomimetic environment than other types of porous tissue engineering scaffolds. Electrospun scaffolds offer an ideal support for cell attachment, migration, proliferation and differentiation. Non-woven mats obtained through the common electrospinning set-up, are usually characterized by random fiber orientation. A suitable design of the experimental apparatus and careful tuning of the processing parameters yield nanofibres with desired diameter and precise ali...
Tissue engineering makes use of the principles of medicine, biology and engineering and integrates t...
Tissue engineering involves fabrication of three-dimensional scaffolds to support cellular in-growth...
As the population gets older, the demands for new medical treatments increase since many of our most...
Electrospinning is a very versatile technology that enables production of nanofibrous structures wit...
Development of artificial scaffolds for tissue engineering is a key area of research in the regenera...
The ultimate goal of tissue engineering is to replace damaged tissues by applying engineering techno...
Despite being known for decades (since 1934), electrospinning has emerged recently as a very widespr...
With increasing interest in nanotechnology, development of nanofibers (n-fibers) by using the techni...
Scaffold plays a critical role in tissue engineering where it provides necessary structural support ...
Tissue Engineering is an interdisciplinary field aiming at the restoration of the function of damage...
Electrospinning is a versatile technique that enables the development of nanofiber-based scaffolds, ...
Scaffold plays a critical role in tissue engineering where it provides necessary structural support ...
Electrospinning is a fabrication process that uses an electric field to control the deposition of po...
Scaffolds produced by electrospinning possess great potential for tissue engineering owing to their ...
Electrospinning technology is currently the only technology capable of directly and continuously pre...
Tissue engineering makes use of the principles of medicine, biology and engineering and integrates t...
Tissue engineering involves fabrication of three-dimensional scaffolds to support cellular in-growth...
As the population gets older, the demands for new medical treatments increase since many of our most...
Electrospinning is a very versatile technology that enables production of nanofibrous structures wit...
Development of artificial scaffolds for tissue engineering is a key area of research in the regenera...
The ultimate goal of tissue engineering is to replace damaged tissues by applying engineering techno...
Despite being known for decades (since 1934), electrospinning has emerged recently as a very widespr...
With increasing interest in nanotechnology, development of nanofibers (n-fibers) by using the techni...
Scaffold plays a critical role in tissue engineering where it provides necessary structural support ...
Tissue Engineering is an interdisciplinary field aiming at the restoration of the function of damage...
Electrospinning is a versatile technique that enables the development of nanofiber-based scaffolds, ...
Scaffold plays a critical role in tissue engineering where it provides necessary structural support ...
Electrospinning is a fabrication process that uses an electric field to control the deposition of po...
Scaffolds produced by electrospinning possess great potential for tissue engineering owing to their ...
Electrospinning technology is currently the only technology capable of directly and continuously pre...
Tissue engineering makes use of the principles of medicine, biology and engineering and integrates t...
Tissue engineering involves fabrication of three-dimensional scaffolds to support cellular in-growth...
As the population gets older, the demands for new medical treatments increase since many of our most...