Additive manufacturing (AM), also known as three-dimensional (3D) printing, has boomed
over the last 30 years, and its use has accelerated during the last 5 years. AM is a materials …

Globally, bone fractures due to osteoporosis occur every 20 s in people aged over 50 years.
The significant healthcare costs required to manage this problem are further exacerbated by …

Polyphenolic materials are a class of fascinating and versatile bioinspired materials for
biointerfacial engineering. In particular, due to the presence of active chemical groups, a …

It is still a big challenge in orthopedics to treat infected bone defects properly using medical
metals. The use of three-dimensional (3D) scaffold materials that simultaneously mimic the …

Because bone-associated diseases are increasing, a variety of tissue engineering
approaches with bone regeneration purposes have been proposed over the last years …

The loss of tissues and organs is a major challenge for biomedicine, and the emerging 3D
bioprinting technology has brought the dawn for the development of tissue engineering and …

Magnetic biomaterials are widely used in the field of tissue engineering because of their
functions such as drug delivery and targeted therapy. In this study, a magnetically …

Purpose: Osteoporosis is more likely to cause serious complications after joint replacement,
mainly due to physiological defects of endogenous osteogenic cells and the pathological …

Pores play a crucial role in bone regeneration as they allow the exchange of nutrition and
oxygen, expulsion of waste products, and bone tissue and vascular ingrowth through the …

Biomaterial with the dual-functions of bone regeneration and antibacterial is a novel therapy
for infective bone defects. Three-dimensional (3D)-printed porous titanium (pTi) benefits …