14° Congresso da Sociedade Latino Americana de Biomateriais, Orgãos Artificiais e Engenharia de Tecidos – SLABO
(5ª Edição do Workshop de Biomateriais, Engenharia de Tecidos e Orgãos Artificiais – OBI)
20 a 24 de Agosto de 2017 - Maresias - SP - Brasil

Taciana Pereira, Bioengineer at BioBots (Philadelphia, PA, USA) 2017-Present; Bachelor of Science in Bioengineering, Harvard University (Cambridge, MA, USA) 2013-2017; Undergraduate Researcher at the Wyss Institute for Biologically Inspired Engineering Advisor: David Mooney, PhD (Cambridge, MA, USA) 2015-2017


BioBots: Automating Research and 3D Printing with Life

Taciana Pereira


2D cell cultures have been the standard way to perform research in biologically related fields for over one hundred years. However, these simplified methods are time consuming and lack physiological relevance. As a result, 3D cell cultures have increasingly gained ground as a means for performing experiments that are more translatable to human applications1. Though more relevant, this kind of research is extremely time consuming and limited by several manual procedures. In this presentation, I will introduce the BioBot: a bioprinter that allows for the automation of 3D biology, solving a wide range of problems. I will highlight the work that is being done with our printing platform in different labs around the world. One lab from the Harvard Medical School has used the Biobots platform to create a model of thrombosis on a chip2 in a faster and more realistic manner than with conventional methods. Another lab at the Wake Forest Institute for Regenerative Medicine has used the BioBots technology to create several “mini-tumors” from cancer patient tumor cells in order to personalize drugs for treatment. This kind of work, powered through the automation of 3D biology, gives great hope to not only create better, faster and more relevant experiments in bioengineering, but also to print organs and end the organ transplant waiting list. This is extremely important for countries like Brazil, whose public organ transplant system is the largest in the world3.
(1) Huh, Dongeun, Geraldine A. Hamilton, and Donald E. Ingber. "From 3D cell culture to organs-on-chips." Trends in cell biology 21.12 (2011): 745-754.
(2) Zhang, Yu Shrike, et al. "Bioprinted thrombosis-on-a-chip." Lab on a Chip 16.21 (2016): 4097-4105.
(3) "Número De Brasileiros Doadores De órgãos Bate Recorde Em 2016." Portal Brasil. 9 Mar. 2017.

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Órgãos Artificiais e Biomecânica,Biomateriais,Normatização de Biomateriais,Liberação Controlada de Fármacos e Genes,Engenharia de Tecidos, Testes in vivo e in vitro, Medicina Regenerativa,Biopreservação,Materiais para Odontologia