9th PRESENTIAL EDITION

3 DAYS OF PRACTICAL IMMERSION

TURMA ENCERRADA!

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3 ONLINE MODULES
+ 15 RECORDED LESSONS
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DISCUSSION FORUM
INTERNATIONAL STARTUPS

The best opportunity for scientists and technicians, with basic knowledge in cell culture, to strengthen into three-dimensional culture, its applicability, advantages, disadvantages and the best model for the needs of your project.

3D CELL GROWTH

Goal

Biotechnology through its technologies moves the nascent field of regenerative medicine and tissue engineering. Understanding the biology of cells, in particular stem cells of mesenchymal origin and induced pluripotency (iPS) is of paramount importance for the development of these new technologies. Furthermore, the fact that these cells are embedded in a 3D microenvironment in tissues is the driving force for the development of increasingly complex tissue engineering technologies, including bioprinting.

The objective of the course is to understand the mechanisms of interaction between cells and tissue regeneration from stem cells, culminating in the importance of 3D culture models for in vitro models of tissue engineering for drug and infection testing, including the virus. SARS-CoV-2 causing COVID-19. Promising technologies in the area of 3D cell culture will also be discussed, such as bioprinting for regenerative medicine and for the area of drug development and testing.

Target Audience

Professors, researchers, graduate and undergraduate students in the biological area with prior knowledge in cell biology.