Tissue engineering has emerged as a new treatment approach for bone repair and
regeneration seeking to address limitations associated with current therapies, such as …

The encapsulation of living mammalian cells within a semi-permeable hydrogel matrix is an
attractive procedure for many biomedical and biotechnological applications, such as …

As a milestone in soft and hard tissue engineering, a precise control over the micropatterns
of scaffolds has lightened new opportunities for the recapitulation of native body organs …

Objectives Bioprinting of bone and cartilage suffers from low mechanical properties. Here
we have developed a unique inkjet bioprinting approach of creating mechanically strong …

Metastasis is one of the deadliest consequences of breast cancer, with bone being one of
the primary sites of occurrence. Insufficient 3D biomimetic models currently exist to replicate …

Inkjet bioprinting is one of the most promising additive manufacturing approaches for tissue
fabrication with the advantages of high speed, high resolution, and low cost. The limitation of …

Bioprinting based on thermal inkjet printing is a promising but unexplored approach in bone
tissue engineering. Appropriate cell types and suitable biomaterial scaffolds are two critical …

Fibrin gels, prepared from fibrinogen and thrombin, the key proteins involved in blood
clotting, were among the first biomaterials used to prevent bleeding and promote wound …

The nonhematopoietic component of bone marrow includes multipotent mesenchymal stem
cells (MSC) capable of differentiating into fat, bone, muscle, cartilage, and endothelium. In …

The treatment of craniofacial defects can present many challenges due to the variety of
tissue-specific requirements and the complexity of anatomical structures in that region. 3D …