PV26 Speakers

Subject to change.

 

 

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Anil Parwani, MD, PhD, MBA

Chair of Pathology, The Ohio State University


Dr. Anil Parwani is a Professor of Pathology and Biomedical Informatics at The Ohio State University. He serves as the Donald A. Senhauser Chair of the Department of Pathology and the Chief of Pathology Services for the Health System. Dr. Parwani has authored over four hundred peer-reviewed articles in major scientific journals and several books and book chapters. Dr. Parwani is the Editor-in-chief of Diagnostic Pathology and Co-editor of the Journal of Pathology Informatics. His research focuses on diagnostic and prognostic markers in bladder, prostate, and renal cancers. Dr. Parwani has expertise in surgical pathology and pathology informatics, including biobanking, digital imaging, telepathology, AI, and lab automation.

 

 

SESSIONS

Pixelomics: Unlocking the Pixelome to Power Precision Pathology
   Sat, Oct 17
   3:35 PM - 3:55 PM PT
  Seaport F

Whole-slide imaging (WSI) has transformed glass slides into gigapixel datasets containing billions of data points per case. Yet routine practice and most artificial intelligence (AI) applications still extract only a fraction of the biologically and clinically meaningful information embedded within these images. This presentation introduces the concept of the 'pixelome' i.e., the total complement of diagnostic, prognostic, predictive, and mechanistic insights encoded in WSI pixels, and proposes 'pixelomics' as its systematic, omics-style interrogation. Drawing on the historical evolution of genomics, proteomics, and systems biology, pixelomics reframes digital pathology from task-specific image analysis toward a comprehensive, image-centric omics discipline. We will outline the technological foundations enabling this shift, including advances in whole-slide infrastructure, quality control, harmonization strategies, and scalable computational pipelines. Emphasis will be placed on transformer-based architectures, self-supervised learning, and large pathology-specific foundation models that generate reusable, generalizable representations across organs, diseases, and clinical contexts. Beyond representation learning, the session will explore how pixelomic features integrate with genomics, spatial transcriptomics, radiomics, and clinical metadata to create a spatially grounded multi-omics framework for precision pathology. Emerging multimodal and generative AI approaches further expands this paradigm by linking image, text, and molecular data within unified models. Finally, we will discuss key challenges including standardization, interpretability, governance, and deployment readiness, and outline a roadmap for translating pixelomics from research environments into routine diagnostic workflows. By repositioning computational pathology within an omics framework, pixelomics establishes digital pathology as a central, integrative engine of precision medicine.

Learning Objectives:

  1. Understand the Conceptual Shift from Computational Pathology to Pixelomics, and why this re-framing is necessary in 202
  2. Describe how foundation models enable scalable, generalizable analysis of whole-slide images through an omics-approach
  3. Understand how pixelomics integrates with genomics, radiomics, and clinical data in precision pathology
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