Biomimetic materials have emerged as attractive and competitive alternatives for tissue
engineering (TE) and regenerative medicine. In contrast to conventional biomaterials or …

Cancer is a multifactorial disease that is responsible for 10 million deaths per year. The intra-
and inter-heterogeneity of malignant tumors make it difficult to develop single targeted …

Bioprinting, within the emerging field of biofabrication, aims at the fabrication of functional
biomimetic constructs. Different 3D bioprinting techniques have been adapted to bioprint cell …

Abstract 3D bioprinting is a pioneering technology that enables fabrication of biomimetic,
multiscale, multi-cellular tissues with highly complex tissue microenvironment, intricate …

An additive manufacturing technology based on projection light, digital light processing
(DLP), three-dimensional (3D) printing, has been widely applied in the field of medical …

It is still a challenge for existing bioprinting technologies to fabricate organs suitable for
implantation, mainly due to the inability to recapitulate the organs' complex anatomical …

Three-dimensional printing has significant potential as a fabrication method in creating
scaffolds for tissue engineering. The applications of 3D printing in the field of regenerative …

The functional capabilities of skeletal muscle are strongly correlated with its well-arranged
microstructure, consisting of parallelly aligned myotubes. In case of extensive muscle loss …

Microgel assembly, a macroscopic aggregate formed by bottom-up assembly of microgels, is
now emerging as prospective biomaterials for applications in tissue engineering and …

Significant advances in materials, microscale technology, and stem cell biology have
enabled the construction of 3D tissues and organs, which will ultimately lead to more …