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Modular 3D printed platform for fluidically connected human brain organoid culture

Authors :
Rezaei, Babak
Giacomoni, Jessica
Nilsson, Fredrik
Sozzi, Edoardo
Fiorenzano, Alessandro
Parmar, Malin
Keller, Stephan S.
Kajtez, Janko
Rezaei, Babak
Giacomoni, Jessica
Nilsson, Fredrik
Sozzi, Edoardo
Fiorenzano, Alessandro
Parmar, Malin
Keller, Stephan S.
Kajtez, Janko
Source :
Rezaei , B , Giacomoni , J , Nilsson , F , Sozzi , E , Fiorenzano , A , Parmar , M , Keller , S S & Kajtez , J 2023 , ' Modular 3D printed platform for fluidically connected human brain organoid culture ' , Biofabrication , vol. 16 , no. 1 , 015014 .
Publication Year :
2023

Abstract

Brain organoid technology has transformed both basic and applied biomedical research and paved the way for novel insights into developmental processes and disease states of the human brain. While the use of brain organoids has been rapidly growing in the past decade, the accompanying bioengineering and biofabrication solutions have remained scarce. As a result, most brain organoid protocols still rely on commercially available tools and culturing platforms that had previously been established for different purposes, thus entailing suboptimal culturing conditions and excessive use of plasticware. To address these issues, we developed a 3D printing pipeline for the fabrication of tailor-made culturing platforms for fluidically connected but spatially separated brain organoid array culture. This all-in-one platform allows all culturing steps-from cellular aggregation, spheroid growth, hydrogel embedding, and organoid maturation-to be performed in a single well plate without the need for organoid manipulation or transfer. Importantly, the approach relies on accessible materials and widely available 3D printing equipment. Furthermore, the developed design principles are modular and highly customizable. As such, we believe that the presented technology can be easily adapted by other research groups and fuel further development of culturing tools and platforms for brain organoids and other 3D cellular systems.

Details

Database :
OAIster
Journal :
Rezaei , B , Giacomoni , J , Nilsson , F , Sozzi , E , Fiorenzano , A , Parmar , M , Keller , S S & Kajtez , J 2023 , ' Modular 3D printed platform for fluidically connected human brain organoid culture ' , Biofabrication , vol. 16 , no. 1 , 015014 .
Notes :
application/pdf, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1426750403
Document Type :
Electronic Resource