Polymeric microspheres (PMs) have attracted great attention in the field of biomedicine in
the last several decades due to their small particle size, special functionalities shown on the …

Tissue engineering (TE) scaffolds have enormous significance for the possibility of
regeneration of complex tissue structures or even whole organs. Three-dimensional (3D) …

Biomimetic scaffolds imitate native tissue and can take a multidimensional form. They are
biocompatible and can influence cellular metabolism, making them attractive bioengineering …

Periodontitis is a worldwide chronic inflammatory disease, where surgical treatment still
shows an uncertain prognosis. To break through the dilemma of periodontal treatment, we …

The additive manufacturing technology has been applied in various sectors: the
manufacturing of industrial components, toys, medicine, medical-surgical instruments, and …

Highly porous three‐dimensional (3D) scaffolds can mimic the lobular structure of a human
liver where hepatocytes are organized. However, 3D scaffolds with uniformly porous and …

Due to the development of industrial 5.0 concepts, the integration of multi-disciplinary
concepts is evolving in the manufacturing industries. In this chapter, the integration of robot …

The vital necessity of effective treatment at damaged tissue or wound site has resulted in
emerging tissue engineering and regenerative medicine. Tissue engineering has been …

This study aimed to determine the effect of the structural properties of acetylated bacterial
cellulose (ABC) on its in vitro biological performance. Acetylation resulted in several …

Extrusion-based 3D bioprinting allows the 3D printing of bioinks, composed of cells and
biomaterials, to mimic the complex 3D hierarchical structure of native tissues. Successful 3D …