Hydrogels have been developed rapidly in recent years because of their great application
prospects in biomedicine and intelligent devices. The excellent performance of hydrogels is …

The mechanical properties of polymer gels devote to emerging devices and machines in
fields such as biomedical engineering, flexible bioelectronics, biomimetic actuators, and …

It has been confirmed that substantial vascularization is an effective strategy to heal large-
scale bone defects in the field of bone tissue engineering. The local application of …

The growing concerns regarding cancer recurrence, unpredictable bone deficiencies, and
postoperative bacterial infections subsequent to the surgical removal of bone tumors have …

Abstract Magnesium cation (Mg 2+) has been an emerging therapeutic agent for inducing
vascularized bone regeneration. However, the therapeutic effects of current magnesium …

Over the past few decades, polymeric hydrogels have gained significant progress in various
fields. As the most biochemically and structurally functional macromolecules in biological …

Two major issues are currently hindering the clinical practice of titanium dental implants for
the lack of biological activities: immediate/early loading risks and peri-implantitis. To solve …

Additively manufactured scaffolds offer significant potential for treating bone defects, owing
to their porous, customizable architecture and functionalization capabilities. Although …

The successful design of a hydrogel for tissue engineering requires a profound
understanding of its constituents' structural and molecular properties, as well as the proper …

In recent years, bone regeneration has emerged as a remarkable field that offers promising
guidance for treating bone-related diseases, such as bone defects, bone infections, and …