Sacrificial biomaterials in 3D fabrication of scaffolds for tissue engineering applications

Abstract Three‐dimensional (3D) printing technology has progressed exceedingly in the area of tissue engineering. Despite the tremendous potential of 3D printing, building scaffolds with complex 3D structure, especially with soft materials, still exist as a challenge due to the low mechanical strength of the materials. Recently, sacrificial materials have emerged as a possible solution to address this issue, as they could serve as temporary support or templates to fabricate scaffolds with intricate geometries, porous structures, and interconnected channels without deformation or collapse. Here, we outline the various types of scaffold biomaterials with sacrificial materials, their pros and cons, and mechanisms behind the sacrificial material removal, compare the manufacturing methods such as salt leaching, electrospinning, injection‐molding, bioprinting with advantages and disadvantages, and discuss how sacrificial materials could be applied in tissue‐specific applications to achieve desired structures. We finally conclude with future challenges and potential research directions.