Light-based vat-polymerization bioprinting enables computer-aided patterning of 3D cell-
laden structures in a point-by-point, layer-by-layer or volumetric manner, using vat (vats) …

Bioprinting is an innovative and emerging technology of additive manufacturing (AM) and
has revolutionized the biomedical sector by printing three-dimensional (3D) cell-laden …

The restricted porosity of most hydrogels established for in vitro 3D tissue engineering
applications limits embedded cells with regard to their physiological spreading, proliferation …

Embedded bioprinting enables the rapid design and fabrication of complex tissues that
recapitulate in vivo microenvironments. However, few biological matrices enable good print …

As a major extracellular matrix component within the skin, collagen has been widely used to
engineer human skin tissues. However, most collagen is extracted from animals. Here, we …

Injectable hydrogels are increasingly explored for the delivery of cells to tissue. These
materials exhibit both liquid‐like properties, protecting cells from mechanical stress during …

Microgel assembly as void‐forming bioinks in 3D bioprinting has evidenced recent success
with a highlighted scaffolding performance of these bottom‐up biomaterial systems in …

Three-dimensional (3D) printing is a technique where the products are printed layer-by-layer
via a series of cross-sectional slices with the exact deposition of different cell types and …

Brain organoids are widely used to model brain development and diseases. However, a
major challenge in their application is the insufficient supply of oxygen and nutrients to the …

Microgels have recently received widespread attention for their applications in a wide array
of domains such as tissue engineering, regenerative medicine, and cell and tissue …