Research on 3D Bioprinted Scaffolds Promoting Bone Regeneration Academic Background In recent years, the incidence of head and craniofacial injuries has significantly increased due to the development of industries and transportation, as well as the frequent occurrence of wars and conflicts. These injuries and related treatments (such as decompressi...

Study on Cav3.3-Mediated Endochondral Ossification in 3D Bioprinted GelMA Hydrogel Research Background Bone development is a complex process, in which the growth plate (GP) plays a crucial role in the longitudinal growth of long bones. The growth plate regulates bone maturation through the process of endochondral ossification (EO). However, GP dysf...

3D Bioprinting of Tumor Models and Their Potential Applications: A Review Academic Background Cancer is one of the leading causes of human mortality worldwide. Its uncontrolled abnormal proliferation, rapid growth, metastasis, and high heterogeneity result in extremely low clinical translation rates for traditional two-dimensional (2D) cell culture...

3D Bioprinted Cellulose/Collagen-Based Drug-Eluting Fillers for the Treatment of Deep Tunneling Wounds Academic Background Deep tunneling wounds are complex injuries that form beneath the skin surface, varying in shape and size, and may have twists and turns, making treatment extremely challenging. Current wound care solutions primarily target supe...

Application of 3D Printing Technology in Skeletal Muscle Vascularization Research Academic Background Skeletal muscle tissue is one of the most important tissues in the human body, and its function relies on the close relationship between myotubes and the vascular network. The vascular network not only supplies oxygen and nutrients to skeletal musc...