Gelatin methacryloyl (GelMA), a photocrosslinkable gelatin‐based hydrogel, has been
immensely used for diverse applications in tissue engineering and drug delivery. Apart from …

Abstract 3D bioprinting has enabled the creation of biomimetic tissue constructs for
regenerative medicine and in vitro model systems. Large-scale production of 3D structures …

Susceptibility of mammalian cells against harsh processing conditions limit their use in cell
transplantation and tissue engineering applications. Besides modulation of the cell …

Bioprinting is a promising fabrication technique aimed at developing biologically functional,
tissue-like constructs for various biomedical applications. Among the different bioprinting …

Since its beginnings, three-dimensional printing (3DP) technology has been successful
because of ongoing advances in operating principles, the range of materials and cost …

Abstract 3D printing provides a new way of microbial immobilization technology and creates
innovative designed bioactive structures containing microorganisms for remediation of …

Cardiovascular diseases are one of the leading causes of death across the globe. Heart
transplantation has been used for end stage heart failure patients. However, due to the lack …

In the last decades, tissue engineering has become a promising and important field of
research that is opening new perspectives for the treatment of tissue diseases or injuries …

This chapter provides a detailed description of the technology of three-dimensional (3D)
bioprinting. It presents the reasons that have led to the introduction of 3D bioprinting in the …

Abstract Three-dimensional (3D) bioprinting is a technology that has the power to positively
change the medical and pharmaceutical fields in a new and more intuitive way. The goal of …