Organ or cell transplantation is medically evaluated for end-stage failure saving or extending
the lives of thousands of patients who are suffering from organ failure disorders. The …

We discuss the current challenges and future prospects of flow-based organoid models and
3D self-assembling scaffolds. The existing paradigm of 3D culture suffers from a lack of …

In esophageal pathologies, such as esophageal atresia, cancers, caustic burns, or post-
operative stenosis, esophageal replacement is performed by using parts of the …

Bioprinting based on thermal inkjet printing is one of the most attractive enabling
technologies for tissue engineering and regeneration. During the printing process, cells …

Spinal cord injury (SCI) has a major impact on affected patients due to its pathological
consequences and absence of capacity for self-repair. Currently available therapies are …

Advancements and developments in the 3D bioprinting have been promising and have met
the needs of organ transplantation. Current improvements in tissue engineering constructs …

3D bioprinting offers interesting opportunities for 3D tissue printing by providing living cells
with appropriate scaffolds with a dedicated structure. Biological advances in bioinks are …

Glioblastoma (GBM), with rich blood vessels and high invasiveness, is the most common
malignant primary brain tumor. The current treatment strategies are less effective, resulting …

Induced pluripotent stem cells (iPSCs) are essentially produced by the genetic
reprogramming of adult cells. Moreover, iPSC technology prevents the genetic manipulation …

Bioprinting is an emerging additive manufacturing technique which shows an outstanding
potential for shaping customized functional substitutes for tissue engineering. Its introduction …