Tissue engineering is an emerging means for resolving the problems of tissue repair and
organ replacement in regenerative medicine. Insufficient supply of nutrients and oxygen to …

Bioinks are employed in the fabrication of 3D scaffolds containing cells and macromolecules
that can be applied in regenerative medicine. The use of such bioinks facilitates the …

Cell‐laden hydrogels used in tissue engineering generally lack sufficient 3D topographical
guidance for cells to mature into aligned tissues. A new strategy called filamented light …

The extracellular matrix (ECM) is composed of biochemical and biophysical cues that control
cell behaviors and bulk mechanical properties. For example, anisotropy of the ECM and cell …

Microvasculature is essential for the exchange of gas and nutrient for most tissues in our
body. Some tissue structures such as the meniscus presents spatially confined blood …

Nowadays, there are still many challenges to skin regeneration. As a new type of skin
substitute, hydrogel has emerging gradually with its excellent properties. However, it is still a …

Tissue engineering and regenerative medicine have made great progress in recent
decades, as the fields of bioengineering, materials science, and stem cell biology have …

To successfully engineer large-sized tissues, establishing vascular structures is essential for
providing oxygen, nutrients, growth factors and cells to prevent necrosis at the core of the …

The demand for artificial organs has greatly increased because of various aging-associated
diseases and the wide need for organ transplants. A recent trend in tissue engineering is the …

The development of soft tissue regeneration has recently gained importance due to safety
concerns about artificial breast implants. Current autologous fat graft implantations can …