Three-dimensional (3D) printing is a valuable tool in the production of complexes structures
with specific shapes for tissue engineering. Differently from native tissues, the printed …

Over the past few years, amino acids (AA) have emerged as promising biomaterials for the
synthesis of functional polymers. Owing to the diversity of functional groups in amino acids …

Tissue engineering, as an interdisciplinary approach, is seeking to create tissues with
optimal performance for clinical applications. Various factors, including cells, biomaterials …

Neurological and functional recovery is limited following central nervous system injury and
severe injury to the peripheral nervous system. Extracellular matrix (ECM)‐mimetic …

Biofunctionalization of artificial nerve implants by incorporation of specific bioactive factors
has greatly enhanced the success of grafting procedures for peripheral nerve regeneration …

Amyloids are self-assembled protein aggregates that take cross-β fibrillar morphology.
Although some amyloid proteins are best known for their association with Alzheimer's and …

Spatiotemporal control of vascularization and innervation is a desired hallmark in advanced
tissue regeneration. For this purpose, we design a 3D model scaffold, based on elastin‐like …

The versatility of 3D bioprinting techniques has demonstrated great potential for the
development of artificial engineered tissues that more closely resemble native tissues …

Cancer is a devastating disease that causes a substantial number of deaths worldwide.
Current therapeutic interventions for cancer include chemotherapy, radiation therapy, or …

Porous biomaterials are of significant interest in a variety of biomedical applications as they
enable the diffusion of nutrients and gases as well as the removal of metabolic waste from …