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Dr. Anne Beghin
Dr. Anne Beghin

Dr. Anne Beghin

Assistant Professor, Research Mechanobiology Institute

Dr. Anne Beghin is a multidisciplinary scientist with fifteen years of extensive research experience across academia and industry. She obtained her PhD in oncology in 2007 at the University Claude Bernard in Lyon (France). She then moved to optical microscopy at the Université de Lyon, where she established the microscopy platform and developed live cell imaging solutions and image analysis services for 4 years.

In 2011, she was recruited by a biotechnology company based in Bordeaux, where she spent 3 years in charge of a tissue analysis service: from biologic samples (whole tissue sections and Tissue Micro Arrays) to image acquisition and analysis with database establishment. She has been part of the Interdisciplinary Institute of NeuroScience IINS for 3 years where she successfully developed a new platform linking the High Content Screening (HCS) approach with super resolution microscopy such as Single Molecule Light Microscopy (HCS-SMLM), a collaboration with pharmaceutical company, Sanofi. Subsequently, she moved to the MechanoBiology Institute (MBI) in Singapore to study organoids using advanced imaging and HCS. This work has resulted in a patent and publications are on-going.

Ask the Experts

Culture and Quantitative 3D Imaging of Organoids: Challenges and Solutions

Experts
Dr. Anne Beghin
Assistant Professor, Research Mechanobiology Institute
National University of Singapore
Turning organoids into impactful translational models includes being able to culture them and assess those that develop robustly with physiologically relevant architecture. However, quantitative comparisons and statistical analysis at high content, which are mandatory to describe the complexity of such multicellular 3D objects are not possible owing to the lack of high-throughput 3D imaging methods. We have thus engineered a versatile High Content Screening (HCS) device to streamline all the steps of organoid culture to exploit its potential in morphogenesis understanding. Our approach comprises a new generation of versatile scaffolding cell culture multiwell chips with embedded optical components (= lighting JeWells) that enables rapid 3D imaging.
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