Bone regenerative engineering provides a great platform for bone tissue regeneration
covering cells, growth factors and other dynamic forces for fabricating scaffolds. Diversified …

The rapid and robust adhesion of marine mussels to diverse solid surfaces in wet
environments is mediated by the secreted mussel adhesive proteins which are abundant in …

In this study, a versatile method for the manufacturing of chitosan-grafted porous poly (L-
lactic acid)(P-PLLA) nanofibrous membrane by using polydopamine (PDA) as an …

Combining biomaterials scaffolds with bone morphogenetic protein-2 (BMP-2) is currently
used to promote the regeneration of bone tissue. However, the traditional strategies used to …

Cyclic and polyphosphazenes are extremely interesting and versatile substrates
characterized by the presence of-P= N-repeating units. The chlorine atoms on the P atoms in …

Digital light processing (DLP)-based 3D printing is suitable to fabricate bone scaffolds with
small size and high precision. However, the published literature mainly deals with the …

One of the goals of bone tissue engineering is to create scaffolds with well-defined, inter-
connected pores, excellent biocompatibility and osteoinductive ability. Three-dimensional …

The use of nanofibrous materials in the field of tissue engineering requires a fast, efficient,
scalable production method and excellent wettability of the obtained materials, leading to …

Bioactive three-dimensional (3D) scaffolds play a key role in the repair or regeneration of
large bone defects. There are many methods to prepare 3D scaffolds, among which the 3D …

In this work, an easy way to prepare the polylactic acid (PLA)/wheat straw fiber (WSF)
composite was proposed. The method involved uses either the dopamine-treated WSF or …