Much effort has been dedicated to developing scaffolds that can mimic native
microenvironments to promote tissue regeneration. A natural tissue scaffold provides not …

Nanofibrous scaffolds which mimic the structural features of a natural extracellular matrix
(ECM) can be appealing scaffold candidates for tissue engineering as they provide similar …

Bio-electrospraying and cell electrospinning for reconstructing living biomaterials for
regenerative biology and medicine. The investigations carried out in this study demonstrate …

The in vitro construction of living tissue or organ models, which are highly organized with
various types of cells and extracellular matrices (ECM) and allow for the evaluation of tissue …

Novel full-thickness skin substitutes are of increasing interest due to the inherent limitations
of current models lacking capillary networks. Herein, we developed a novel full-thickness …

In recent years, the engineering of biomimetic cellular microenvironments has emerged as a
top priority for regenerative medicine, being the in vitro recreation of the arcade-like …

Three-dimensional (3D) nanofibrous scaffolds are at the forefront of tissue engineering
research. However, owing to the compact geometries or unstable reserved pores, the …

The aggregation of mesenchymal stem cells (MSCs) into three-dimensional (3D) spheroids
has emerged as a promising therapeutic candidate for the treatment of a variety of diseases …

Electrospun nanofibers have been frequently used for tissue engineering due to their
morphological similarities with the extracellular matrix (ECM) and tunable chemical and …

Driven by the unbroken miniaturization trend in microtechnology, the development of
smaller, yet reliable and efficient, highly integrated microsystems can benefit from inherent …