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Transforming tissue research with spatial omics workflows

Webinar

Wednesday, 9th October, 2024
14:00 to 15:00 CEST (Berlin, Paris, Madrid)

Register

Join this webinar to discover how spatial biology methods in microscopy can be used to elucidate complex biological mechanisms – with insights for cancer research, neuroscience and immunology. Learn about emerging technologies and workflows that leverages flourescence multiplexing, AI, laser microdissection and much more, to give greater spatial context to your tissue and cancer research. Dive into the challenges of multiplexed imaging and how to overcome them, including processing and obtaining data insights, as well as how AI guided laser microdissection can extract pure material down to single cell level and preserve spatial context for downstream omics.

For more information, please contact us at webinar@avantorsciences.com

Presented by:


Michael Smith

Michael Smith, Ph.D. is Application Manager at Leica Microsystems. He completed a Ph.D. in the genetics of DNA repair at Columbia University and a postdoctoral fellowship in genome integrity and cellular aging at Memorial Sloan Kettering Cancer Center, where he leveraged microscopy to understand the real-time dynamics of DNA homeostasis. His passion for answering biological questions using imaging technologies led him to his current position, where he provides technical expertise and customer support for a range of Leica products, focusing on spatial biology solutions.     

Presented by:


Daniel Smeets

Daniel Smeets is an Advanced Workflow Specialist at Leica Microsystems. He obtained his PhD in biology (Cell Biology and Epigenetics) from the University of Munich (LMU) in 2013 and during his PhD studies also spent over a year at the University of Oxford/UK. During his PhD studies he was interested in the higher-order structure of chromatin in the interphase nucleus of mammals and how this interplays with essential nuclear functions like transcription and replication. He used mammalian female X Chromosome inactivation as a model system which he studied with methods like super-resolution microscopy, confocal microscopy and FRAP, as well as immunochemistry, DNA- and RNA-FISH.