Incorporating Bone-Derived Extracellular Matrix (Bone-Derived ECM) into Macroporous Microribbon Scaffolds Accelerates Bone Regeneration Research Report With the continuous progress in the biomedical field, the application of tissue engineering and regenerative medicine in various tissue repairs has become increasingly important. However, research o...

Academic Report on “Bioprinting Perfusable and Vascularized Skeletal Muscle Flaps for the Treatment of Volumetric Muscle Loss” Background Muscle tissues constitute a significant portion of human cellular mass and are a complex, highly vascularized, and dynamic tissue. However, traumatic or surgical Volumetric Muscle Loss (VML)—defined as the loss o...

Optimization-Based Conformal Path Planning for In Situ Bioprinting in Complex Skin Defect Repair Academic Background The skin, as the largest organ in the human body, plays a crucial role in protecting the body from external harm. However, the high prevalence of skin injuries such as burns and chronic ulcers worldwide has led to an increasing deman...

Study on Antimicrobial Gel Combined with Electrospun Polyvinyl Alcohol Fibers for Enzymatically Controlled Reactive Oxygen Species Release Academic Background The skin is the body’s first line of defense against infections, and the presence of wounds can compromise this barrier, increasing the risk of infection. With the rise of antibiotic resistan...

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...

Research on the Modulation of Physical Properties of Biomaterials to Enhance Vascularization Background Introduction In the fields of tissue engineering and regenerative medicine, the formation of a vascular system and adequate blood perfusion are crucial for ensuring the supply of nutrients and oxygen within biomaterials. However, existing biomate...

Applications of Volumetric Additive Manufacturing in Cell Printing Academic Background Volumetric Additive Manufacturing (VAM) is a revolutionary 3D printing technology capable of rapidly creating complex three-dimensional structures, particularly in the field of cell printing. VAM can mimic the structures of natural tissues, offering new possibili...