Electrospinning provides an enabling nanotechnology platform for generating a rich variety
of novel structured materials in many biomedical applications including drug delivery …

Regenerative engineering converges tissue engineering, advanced materials science, stem
cell science, and developmental biology to regenerate complex tissues such as whole limbs …

Repair and regeneration of human tissues and organs using biomaterials, cells, and/or
growth factors is a great challenge for tissue engineers and surgeons. The convergence of …

The secretome is defined as the set of molecules and biological factors that are secreted by
cells into the extracellular space. In the past decade, secretome-based therapies have …

Strategies for bone tissue regeneration have been continuously evolving for the last 25
years since the introduction of the “tissue engineering” concept. The convergence of the life …

Engineering biomaterials that mimic the extracellular matrix (ECM) of bone is of significant
importance since most of the outstanding properties of the bone are due to matrix …

Regenerative engineering is powerfully emerging as a successful strategy for the
regeneration of complex tissues and biological organs using a convergent approach that …

Injectable hydrogels have potential applications for regenerating the injured spinal cord, but
their performance needs to be further improved. In this study, an injectable silk …

Electrical stimulation (ES) has been shown to induce and enhance bone regeneration. By
combining this treatment with tissue-engineering approaches (which rely on biomaterial …

The aim of regenerative engineering is to restore complex tissues and biological systems
through convergence in the fields of advanced biomaterials, stem cell science, and …