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Development of a Coaxial 3D Printing Platform for Biofabrication of Implantable Islet-Containing Constructs

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posted on 2024-11-16, 04:00 authored by Xiao LiuXiao Liu, Sarah-Sophia Carter, Max Renes, Juewan Kim, Darling Rojas-Canales, Daniella Penko, Cameron AngusCameron Angus, Stephen Beirne, Christopher Drogemuller, Zhilian YueZhilian Yue, Patrick T Coates, Gordon WallaceGordon Wallace
Over the last two decades, pancreatic islet transplantations have become a promising treatment for Type I diabetes. However, although providing a consistent and sustained exogenous insulin supply, there are a number of limitations hindering the widespread application of this approach. These include the lack of sufficient vasculature and allogeneic immune attacks after transplantation, which both contribute to poor cell survival rates. Here, these issues are addressed using a biofabrication approach. An alginate/gelatin-based bioink formulation is optimized for islet and islet-related cell encapsulation and 3D printing. In addition, a custom-designed coaxial printer is developed for 3D printing of multicellular islet-containing constructs. In this work, the ability to fabricate 3D constructs with precise control over the distribution of multiple cell types is demonstrated. In addition, it is shown that the viability of pancreatic islets is well maintained after the 3D printing process. Taken together, these results represent the first step toward an improved vehicle for islet transplantation and a potential novel strategy to treat Type I diabetes.

Funding

ARC Centre of Excellence for Electromaterials Science

Australian Research Council

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New dimensions in organic bionics

Australian Research Council

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History

Citation

Liu, X., Carter, S. D., Renes, M. Jurie., Kim, J., Rojas-Canales, D. Macarena., Penko, D., Angus, C., Beirne, S., Drogemuller, C. John., Yue, Z., Coates, P. T. & Wallace, G. G. (2019). Development of a Coaxial 3D Printing Platform for Biofabrication of Implantable Islet-Containing Constructs. Advanced Healthcare Materials, 8 (7), 1801181-1-1801181-12.

Journal title

Advanced Healthcare Materials

Volume

8

Issue

7

Language

English

RIS ID

132778

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