3D Bio-Tissues (3DBT) is a biotech startup spun-out from Newcastle University in 2019. Our ambition is to produce bio-equivalent tissues for clinical and cellular agriculture. We apply novel bio-inspired manufacturing processes to generate complex struct
3D bioprinting has been used for the generation of multilayered skin, bone, liver, and cartilage tissue models in research, toxicology, and drug-screening studies. Learn more about the new Corning Matribot® bioprinter. Motility Models
Although all these methods are not reliable approaches to print pre-vascularized tissues, a faster bioprinter with higher resolution would be poised to solve some of the problems. Figure 3. Examples of future perspectives of 3D bioprinting cell-laden scaffolds for tissue regeneration. (A) ...
3D bioprinting of tissues and organs will find application in tissue engineering, research, drug discovery and toxicology. Additive manufacturing, otherwise known as three-dimensional (3D) printing, is driving major innovations in many areas, such as eng
Tissue adhesives are promising alternatives to sutures and staples for joining tissues, sealing defects, and immobilizing devices. However, existing adhesives mostly take the forms of glues or hydrogels, which offer limited versatility. We report a direc
Allevi 3D bioprinters and bioinks are trusted by bioprinting researchers globally for tissue engineering, organ on a chip, pharmaceuticals, and more.
42. Li T, Peng M, Yang Z et al (2018) 3D-printed IFN-γ-loading calcium silicate-β-tricalcium phosphate scaffold sequentially activates M1 and M2 polarization of macrophages to promote vascularization of tissue engineering bone. Acta Biomater 71:96–107. https://doi.org/10.1016/j.actbio.20...
"For instance, it may enhance the stability of bio-integrated sensors by providing a reliable interface for signal transfer. Similarly, it can facilitate localized drug delivery to tissues." The researchers hope to focus on soft tissue–interfacing device development, with the adhesive as a pivotal...
3D bioprinting has demonstrated its advantages as one of the major methods in fabricating simple tissues, yet it still faces difficulties to generate vasculatures and preserve cell functions in complex organ production. The researchers from the Chinese Academy of Sciences, Tsinghua University, the Unive...
The created structures must remain stable and interact safely with surrounding tissues to avoid infection. Efforts are ongoing to ensure these structures are biocompatible, stable, and long-lasting.10 Public awareness and education are needed to address ethical concerns and confusion regarding bio-...