Titanium (Ti) and its alloys have been widely used as orthopedic implants, because of their
favorable mechanical properties, corrosion resistance and biocompatibility. Despite their …

Biomedical polymers have been extensively developed for promising applications in a lot of
biomedical fields, such as therapeutic medicine delivery, disease detection and diagnosis …

Nowadays, biomaterials have evolved from the inert supports or functional substitutes to the
bioactive materials able to trigger or promote the regenerative potential of tissues. The …

Titanium and its alloys are dominant material for orthopedic/dental implants due to their
stable chemical properties and good biocompatibility. However, aseptic loosening and peri …

Abstract Treatment for chronic diabetic wounds remains a clinical challenge. Wound healing
process occurs in three phases: inflammation, proliferation and remodeling. Several factors …

Metallic biomaterials are widely used in implants to strengthen, repair, or replace damaged
bone tissue, and their material characteristics have direct influences on short-and long-term …

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 …

Aging population has been boosting the need for orthopedic implants. However, biofilm has
been a major obstacle for orthopedic implants due to its insensitivity to antibiotics and …

Upon the osteoporotic condition, sluggish osteogenesis, excessive bone resorption, and
chronic inflammation make the osseointegration of bioinert titanium (Ti) implants with …

Bone regeneration following the removal of tumor tissues remains a major clinical challenge
for the treatment of bone defects, in which materials with combinatory bone repair and …