A High-Throughput Platform for Culture and 3D Imaging of Organoids

Gianluca Grenci; Florian Dilasser; Saburnisha Binte Mohamad Raffi; Marion Marchand; Mona Suryana; Geetika Sahni; Virgile Viasnoff; Anne Beghin

doi:10.3791/64405

Organoidlerin kültürü ve 3D görüntülenmesi için yüksek verimli bir platform

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Biology

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JoVE Journal Biology

A High-Throughput Platform for Culture and 3D Imaging of Organoids

Organoidlerin kültürü ve 3D görüntülenmesi için yüksek verimli bir platform

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07:42 min

October 14, 2022

DOI: 10.3791/64405-v

Gianluca Grenci^1,2, Florian Dilasser¹, Saburnisha Binte Mohamad Raffi¹, Marion Marchand¹, Mona Suryana¹, Geetika Sahni¹, Virgile Viasnoff^1,3,4, Anne Beghin^1,5

¹Mechanobiology Institute (MBI),National University of Singapore, ²Biomedical Engineering Department,National University of Singapore, ³Department of Biological Sciences,National University of Singapore, ⁴IRL 3639 CNRS, ⁵Department of Microbiology & Immunology, Immunology Translational Research Program, Yong Loo Lin School of Medicine,National University of Singapore

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Overview

This study introduces a microtextured cell culture dish designed for the cultivation of hundreds of organoids while ensuring compatibility with long-term imaging and microscopy. The protocol provides detailed procedural guidance for generating effective organoid cultures essential for biomedical applications, particularly in drug screening and cancer research.

Key Study Components

Research Area

Organoid culture techniques
Biomedical applications
Microscopy for imaging

Background

Importance of effective organoid cultivation in research
Compatibility with long-term imaging
Applications in drug testing and cancer biology

Methods Used

Microfabrication methods for culture dishes
Cell seeding and handling
High-resolution imaging and microscopy techniques

Main Results

Successfully fabricated microcontainers for organoid growth
Detailed protocols for cell seeding resulted in organized growth
Validated imaging techniques allowed visualization of organoid development

Conclusions

The study demonstrates a novel approach to organoid culture that facilitates advanced imaging.
This work is relevant for ongoing research in cancer biology and drug discovery.

Frequently Asked Questions

What are organoids?

Organoids are miniature, simplified versions of organs produced in vitro that can mimic some of the functions of the real organs.

How does the microtexture improve organoid culture?

The microtexture increases the surface area for cell attachment and supports structured growth while enabling easy observation under a microscope.

Can this method be applied to different cell types?

Yes, the protocol is adaptable for various cell types, making it versatile for different research applications.

What kind of microscopy is utilized in this study?

The protocol utilizes high-resolution techniques, such as spinning disc confocal microscopy, to observe the organoid development.

Is this protocol user-friendly for beginners?

Yes, the protocol is designed to be mastered easily by those with prior laboratory experience and an understanding of optical microscopy.

What are the implications of this research for cancer studies?

This research enhances the capacity for long-term observation of organoids, crucial for understanding cancer progression and drug responses.

How long does it take for organoids to form?

Organoids were observed to form between days two and fifteen of culturing, showcasing the dynamic growth potential in the microcontainers.

Bu yazıda, organoidlerin yüksek çözünürlüklü mikroskopi kullanılarak kültürlenebildiği ve gözlemlenebildiği^mm2 başına yüzlerce mikro konteynere sahip yeni bir kültür substratı türü için bir üretim protokolü sunulmaktadır. Hücre tohumlama ve immün boyama protokolleri de detaylandırılmıştır.

Bu protokol, malzeme bilgisi olan ve mikroskopi ile tamamen uyumlu yüzlerce organoidin büyümesi için tasarlanmış bir mikrodoku hücre kültürü çanağını göstermektedir. Tekniğimiz, uzun süreli görüntüleme ve uzun süreli hücre kültürü ile tamamen uyumlu, binlerce organoid üretilmesini verimli bir şekilde sağlar. Bu protokol, ilaç tarama boru hattı ve kanser araştırma alanları gibi biyomedikal uygulamalar için büyük ilgi görmektedir.

Bu protokolde sunulan tekniğin, laboratuvar prosedürleri ve optik mikroskopi konusunda tecrübesi olan herkes tarafından yapılan birkaç denemeden sonra ustalaşması kolaydır. Başlamak için, PDMS kalıbının küçük kısımlarını son cihaz için gereken boyuta kesin. Bunları dizinin XY yönlerine paralel olarak kesin.

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