Toward the aim of personalized treatment, three-dimensional (3D) printing technology has
been widely used in bone tissue engineering owing to its advantage of a fast, precise, and …

This review focuses on the advancements in additive manufacturing techniques that are
utilized for fabricating bioceramic scaffolds and their characterizations leading to bone tissue …

Trauma and bone loss from infections, tumors, and congenital diseases make bone repair
and regeneration the greatest challenges in orthopedic, craniofacial, and plastic surgeries …

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

Ceramic bone implants have potential properties ideal for long-term implantation
applications. On comparison with other materials, ceramic biomaterials have advantages …

The surge of population led to the urgency of a novel array of devised biofunctional
frameworks, adapted to revitalize the functionality of degenerative tissues, and to lift patient's …

This study summarizes the recent research status and development of three-dimensional
(3D)-printed porous ceramic scaffolds in bone tissue engineering. Recent literature on 3D …

The suffering from organ dysfunction due to damaged or diseased tissue/bone has been
globally on the rise. Current treatment strategies for non-union bone defects include: the use …

Critical-sized bone defect repair remains a substantial challenge in clinical settings and
requires bone grafts or bone substitute materials. However, existing biomaterials often do …

Clinically, the treatment of bone defects remains a significant challenge, as it requires
autogenous bone grafts or bone graft substitutes. However, the existing biomaterials often …