Additive manufacturing has attracted keen interest in the medical field in recent decades,
especially for bone regeneration. Many additive manufacturing processes have been used …

The application of various materials in biomedical procedures has recently experienced
rapid growth. One area that is currently receiving significant attention from the scientific …

Additive manufacturing, also known as 3D printing, has emerged over the past 3 decades as
a disruptive technology for rapid prototyping and manufacturing. Vat polymerization, powder …

Currently, one of the most promising strategies in bone tissue engineering focuses on the
development of biomimetic scaffolds. Ceramic-based scaffolds with favorable osteogenic …

Alloplasts are synthetic, inorganic, biocompatible bone substitutes that function as defect
fillers to repair skeletal defects. The acceptance of these substitutes by host tissues is …

Compared with non-degradable materials, biodegradable biomaterials play an increasingly
important role in the repairing of severe bone defects, and have attracted extensive attention …

Periodontal diseases involve injuries to the supporting structures of the tooth and, if left
untreated, can lead to the loss of the tooth. Regenerative periodontal therapies aim, ideally …

The solution-mediated formation of calcium sulfate minerals, ie gypsum, anhydrite and
bassanite, is a common process in both natural and engineered settings. It plays a key role …

Tissue engineering provides great possibilities to manage tissue damages and injuries in
modern medicine. The involvement of hard biocompatible materials in tissue engineering …

Bone cements such as polymethyl methacrylate and calcium phosphates have been widely
used for the reconstruction of bone. Despite their remarkable clinical success, the low …