Embedded bioprinting overcomes the barriers associated with the conventional extrusion‐
based bioprinting process as it enables the direct deposition of bioinks in 3D inside a …

The present study aimed to combine extrusion-based three-dimensional (3D) bioprinting
and polymer nanofiber electrospinning technology to fabricate tissue-like structures with …

Biomaterials are widely used for effectively controlling bleeding in oral/dental surgical
procedures. Here, gelatin methacryloyl (GelMA) was synthesized by grafting methacrylic …

Organoids have emerged as crucial platforms in tissue engineering and regenerative
medicine but confront challenges in faithfully mimicking native tissue structures and …

Astrocytes are glial cells with an essential role in the central nervous system (CNS),
including neuronal support and functionality. These cells also respond to neural injuries and …

Bioprinting technology offers unprecedented opportunities to construct in vitro tissue models
that recapitulate the 3D morphology and functionality of native tissue. Yet, it remains difficult …

Neural stem cells (NSCs) are important constituents of the nervous system, and they
become constrained in two specific regions during adulthood: the subventricular zone (SVZ) …

Utilizing biomaterials in tissue engineering has shown considerable promise for tissue
regeneration, particularly through delivering multimodel cell-regulatory signals, including the …

The features or actuation behaviors of nature's creatures provide concepts for the
development of biomimetic soft bioactuators/robots with stimuli-responsive capabilities …

Bioengineering systems have transformed scientific knowledge of cellular behaviors in the
nervous system (NS) and pioneered innovative, regenerative therapies to treat adult neural …