Three-dimensional (3D) bioprinting with suitable bioinks has become a critical tool for
fabricating 3D biomimetic complex structures mimicking physiological functions. While …

Infantile hemangioma (IH) is the most prevalent benign vascular tumor in infants, with
distinct disease stages and durations. Despite the fact that the majority of IHs can regress …

Abstract Three‐dimensional (3D) bioprinting technique is useful to fabricate constructs with
functional and biological structures for various biomedical applications. Oxidized …

Cartilage is an avascular tissue with extremely limited self-regeneration capabilities. At
present, there are no existing treatments that effectively stop the deterioration of cartilage or …

The ultimate goal of regenerative medicine is to replace damaged cells, tissues or whole
organs, in order to restore their proper function. Stem cell related technologies promise to …

Emerging trends and prospects of electroconductive bioinks for cell-laden and functional 3D
bioprinting | Bio-Design and Manufacturing Skip to main content SpringerLink Account …

Tissue engineering is an emerging field to create functional tissue components and whole
organs. The structural and functional defects caused by congenital malformation, trauma …

Background: Orthobiologics have shown promise in repair, restoration and regeneration of
damaged and degenerated spine, joint and musculoskeletal tissues. The role of MSCs is to …

The continuous advancement of materials and technologies has significantly propelled the
progress of human civilization. However, the more humans achieved, the more bottlenecks …

Abstract Three-dimensional (3D) printing is a rapidly growing technology with a significant
capacity for translational applications in both biology and medicine. 3D-printed living and …