Tissue engineering research has undergone to a revolutionary improvement, thanks to
technological advancements, such as the introduction of bioprinting technologies. The ability …

Limitations associated with conventional bone substitutes such as autografts, increasing
demand for bone grafts, and growing elderly population worldwide necessitate development …

In-situ bioprinting is attractive for directly depositing the therapy bioink at the defective
organs to repair them, especially for occupations such as soldiers, athletes, and drivers who …

Pores play a crucial role in bone regeneration as they allow the exchange of nutrition and
oxygen, expulsion of waste products, and bone tissue and vascular ingrowth through the …

Porous bioceramic scaffolds were obtained by the 3D printing technique starting from a
mixture of hydroxypropyl methyl cellulose and a powder obtained by sol-gel method which …

Cancer is one of the major causes of death worldwide, and its prevalence is rising every
day. New methods and materials with multifunctional tasks such as simultaneous …

Injuries or bone defects are phenomena that are harmful to human health. In the field of
bone scaffold tissue engineering, hydroxyapatite nanoparticles have been considered due …

Bioabsorbable Mg and alloys have been used as metallic biomaterials for orthopedic
implant applications due to their similar mechanical properties to human natural bone. High …

Owing to great biocompatibility and high capacity of apatite formation, bioceramics,
especially calcium silicate‐based compounds, were extensively employed in orthopedic and …

In this work, calcium magnesium silicate ceramics were processed through the sol–gel
method in order to study the crystalline and morphological properties of the resulting …