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Webinar Abstract:

Drug discovery is increasingly multimodal, spanning small molecules, antibodies, RNA-based therapies, cell and gene therapies, and novel combinations like ADCs. Each modality generates unique biological questions and massive datasets, creating both opportunity and complexity. Making sense of this data is now central to advancing discovery.

A concrete example comes from the work of Alex Zagajewski and the team at Novo Nordisk Research Centre Oxford, a high-throughput cellular differentiation screening platform was developed on human adipocytes, integrating single-gene knockouts, time-course imaging, and multi-omic analyses. By applying AI/ML and mechanistic modeling, novel regulators of adipogenesis and potential therapeutic targets were identified—demonstrating how computational integration can unlock insights from complex biological data.

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Register for free to get video access

What you will learn:

  • How multimodal datasets (imaging, transcriptomics, proteomics, etc.) can drive new insights in drug discovery.
  • The role of AI/ML in translating large-scale biological complexity into actionable therapeutic hypotheses.
  • Case examples of integrating functional genomics and advanced analytics to identify novel targets.
  • Why cross-modality data integration is becoming a cornerstone of next-generation discovery pipelines.

Who should attend:

  • Scientists and researchers working across small molecule, biologic, RNA, cell, and gene therapy discovery.
  • Data scientists and computational biologists applying AI/ML to life sciences.
  • R&D leaders and decision-makers seeking strategies to accelerate multimodal drug discovery.
  • Translational and functional genomics teams looking to connect data complexity to therapeutic opportunity.

Speakers:

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Zev Wisotsky
PhD, Senior Principal Marketing Manager, Biologics Solutions, Revvity Signals

Zev Wisotsky is a Senior Principal Marketing Manager for Biologics Solutions at Revvity Signals. His scientific training and research background include neuroscience, biochemistry, molecular biology and drug discovery. He has spent almost 10 years in software in go-to-market teams across industries with a heavy focus on biopharma/biotech R&D.

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Alexander Zagajewski
AI/ML Research Scientist At Novo Nordisk

Alexander Zagajewski is a AI Research Scientist who specialized in computer vision, deep learning, computational biology, and early-stage drug discovery. At Novo Nordisk, Alexander led the development of AI/ML solutions for complex biomedical data, collaborating with wet-lab and engineering teams to drive innovation. Also served as a Visiting Scientist at the University of Oxford, contributing to biomedical AI research. Doctoral research at Oxford focused on a novel diagnostic assay for antimicrobial resistance detection using deep learning and microscopy, developed in collaboration with NHS clinicians. Previous roles at EMBL and the University of St Andrews advanced imaging technologies with industry partners, while teaching and mentoring positions at Oxford strengthened expertise in scientific computing and biochemistry education.