In recent years, there have been increasingly rapid advances of using bioactive materials in
tissue engineering applications. Bioactive materials constitute many different structures …

Chitosan is a biopolymer obtained from chitin, one of the most abundant and renewable
materials on Earth. Chitin is a primary component of cell walls in fungi, the exoskeletons of …

The present article describes the state of the art in the rapidly develo** field of bone tissue
engineering, where many disciplines, such as material science, mechanical engineering …

The advent of 3D-printing/additive manufacturing in biomedical engineering field has
introduced great potential for the preparation of 3D structures that can mimic native tissues …

Over the last years, chitosan has demonstrated unparalleled characteristics for regenerative
medicine applications. Beside excellent antimicrobial and wound healing properties, this …

Despite considerable advances in microsurgical techniques over the past decades, bone
tissue remains a challenging arena to obtain a satisfying functional and structural restoration …

In recent years, bone tissue engineering has emerged as a promising solution to the
limitations of current gold standard treatment options for bone related-disorders such as …

Promoting bone regeneration and repairing defects are urgent and critical challenges in
orthopedic clinical practice. Research on bone substitute biomaterials is essential for …

Polysaccharides are the most abundant naturally available carbohydrate polymers;
composed of monosaccharide units covalently connected together. Chitosan is the most …

Titanium (Ti) and its alloys offer favorable biocompatibility, mechanical properties and
corrosion resistance, which makes them an ideal material choice for dental implants …