Degradable polymers are used widely in tissue engineering and regenerative medicine.
Maturing capabilities in additive manufacturing coupled with advances in orthogonal …

Versatile strategies have been developed to construct electrospun fiber-based drug delivery
systems for tissue regeneration and cancer therapy. We first introduce the construction of …

Nanofibers have emerged as exciting one-dimensional nanomaterials for a broad spectrum
of research and commercial applications owing to their unique physicochemical properties …

Unique features of nanofibers provide enormous potential in the field of biomedical and
healthcare applications. Many studies have proven the extreme potential of nanofibers in …

Surface modification and endothelialization of vascular biomaterials are common
approaches that are used to both resist the nonspecific adhesion of proteins and improve …

The versatile electrospinning technique is recognized as an efficient strategy to deliver
active pharmaceutical ingredients and has gained tremendous progress in drug delivery …

As an alternative to natural extracellular matrix (ECM) macromolecules, cell-adhesion
peptides (CAPs) have had tremendous impact on the design of cell culture platforms …

In the human body, almost all cells interact with extracellular matrices (ECMs), which have
tissue and organ-specific compositions and architectures. These ECMs not only function as …

Cardiac cell therapy holds a real promise for improving heart function and especially of the
chronically failing myocardium. Embedding cells into 3D biodegradable scaffolds may better …

Extracellular vesicles (EV) consist of exosomes, which are released upon fusion of the
multivesicular body with the cell membrane, and microvesicles, which are released directly …