Since 2016, Camci-Unal has been conducting tissue engineering research in her lab using finely crushed eggshells to create the scaffolds where bone cells can grow and proliferate. The resulting bone ...

A new, easily adopted, 3D-printed device will enable scientists to create models of human tissue with even greater control ...

The field of 3D bioprinting technology is witnessing rapid advancements, offering new possibilities in regenerative medicine, ...

Aside from bone tissue engineering, other potential applications for eggshell-reinforced scaffold composites include dental restorations as well as skull, face and jaw repairs, bone to cartilage ...

and mimicking the natural process of bone development. More information: Timothy Hopkins et al, Engineering growth factor gradients to drive spatiotemporal tissue patterning in organ-on-a-chip systems ...

While traditional tissue engineering typically relies on specialized 33D bioprinters ... The real magic happens when stem cells called bone marrow mesenchymal stem cells (BM-MSCs) are introduced to ...

Nanoscale structure-property relationships of biological materials, genetic and molecular origins of soft joint tissue diseases, biomaterials under extreme conditions, coupling between ...

Despite extensive research on different types of bioactive glass or ceramics for bone tissue engineering, there is limited research on targeted and controlled release of anti-cancer agents to ...

Journal of Environmental Engineering, 2019; 145(10): 04019066. Salifu AA, Lekakou C, Labeed F. Electrospun oriented gelatin-hydroxyapatite fiber scaffolds for bone tissue engineering. Journal of ...

The conventional approach in tissue engineering involves seeding cells ... liver tissues, cartilage, bone, skin, and more. 2 The selection of the scaffold's specific material and any potential ...

Building on this knowledge, bone tissue engineering and dental tissue regeneration have gained the attention of researchers worldwide. Recent reports suggest that microRNAs (miRNAs)—small ...