Stem‐cell‐based therapies have the potential to provide novel solutions for the treatment of
a variety of diseases, but the main obstacles to such therapies lie in the uncontrolled …

Understanding how neurodegenerative disorders develop is not only a key challenge for
researchers but also for the wider society, given the rapidly aging populations in developed …

The residual of malignant tumor cells and lack of bone‐tissue integration are the two critical
concerns of bone‐tumor recurrence and surgical failure. In this work, the rational integration …

Substantial progress in biomaterial research over the years has culminated in revolutionary
technological advancements in the healthcare domain. This has triggered the quest for …

Neural progenitor cells generated from human induced pluripotent stem cells (hiPSCs) are
the forefront of ″brain-on-chip ″investigations. Viable and functional hiPSC-derived …

Susceptibility of mammalian cells against harsh processing conditions limit their use in cell
transplantation and tissue engineering applications. Besides modulation of the cell …

Carbon nanotubes (CNTs), as kinds of conductive carbon nanomaterials, were widely
applied in neural tissue engineering due to their excellent electrical conductivity and good …

The nervous system is a vital component of the human body, and its dysfunction can have
fatal consequences or severe adverse effects. After significant disabling conditions, the …

Fabrication of an appropriate scaffold is the key fundamental step required for a successful
tissue engineering (TE). The artificial scaffold as extracellular matrix in TE has noticeable …

The aim of this study is the fabrication of two novel three-dimensional, conducting,
biocompatible, porous, and elastic scaffolds composed of hyperbranched aliphatic …