A coordinated interaction between osteogenesis and osteoimmune microenvironment is
essential for successful bone healing. In particular, macrophages play a central regulatory …

Evolution of metallurgy and biomaterials has progressively shifted the focus of metallic bone-
interfacing implant design from adequate mechanical strength and biocompatibility to rapid …

Biomaterials and scaffolds for Tissue Engineering are widely used for an effective healing
and regeneration. However, the implantation of these scaffolds causes an innate immune …

Variant modalities are quested and merged into the tumor nanotherapy by leveraging the
excitation from external or intratumoral incentives. However, the ubiquitous hypoxia and the …

Bone replacement using porous and solid metallic implants, such as Ti-alloy implants, is
regarded as one of the most practical therapeutic approaches in biomedical engineering …

Excessive reactive oxygen species (ROS) at severe burn injury sites may promote metabolic
reprogramming of macrophages to induce a deteriorative and uncontrolled inflammation …

In this study, novel biomedical Co29Cr9W3Cu samples were fabricated using selective laser
melting (SLM) technology. In order to better understand the formation of the lattice defects …

Poor vascularization was demonstrated as a factor inhibiting bone regeneration in patients
receiving radiotherapy. Various copper-containing materials have been reported to increase …

Implants are commonly used to replace damaged bones in the human body. Fatigue failure
is one of the most serious issues with implants. Understanding the underlying mechanisms …

Additive manufacturing (AM) of titanium alloys offers the capacity to fabricate patient‐specific
implants with defined porous architecture to enhance bone‐implant fixation. However …