Basic Science Workshop, Part 1: Decoding Liver Biology Through Spatial Multi-Omics—From Architecture to Disease Mechanisms

Nov 07 2026
Convention Center: Bluebird Ballroom 2ABC
8:00 AM - 9:30 AM
CE Credits CE Credits

Description

The spatial organization and zonation of the liver are fundamental to its functions and ability to repair and regenerate. Disruption of this spatial organization during inflammation and injury impairs hepatic function contributing to chronic liver diseases. Recent advances in spatial multi-omic technologies now allow researchers to visualize how gene expression and cellular pathways vary across hepatic zones, revealing how structural context governs metabolic specialization, regenerative capacity, and disease susceptibility. This 2-part workshop brings together leading experts applying these technologies to investigate the liver in health and disease. Presentations encompass the mechanisms that preserve tissue organization and support repair to the cellular interactions driving fibrosis and metabolic dysfunction. Attendees learn how spatial transcriptomic, proteomic, lipidomic, and epigenomic analyses are redefining our understanding of liver biology and opening new avenues for biomarker discovery and therapeutic innovation.

Presentations

8:00 AM - 8:05 AM
Convention Center - Bluebird Ballroom 2ABC

Introduction

Reben Raeman, MS, PhD | Moderator
8:05 AM - 8:25 AM
Convention Center - Bluebird Ballroom 2ABC

Spatial Organization of the Liver: How Architecture Shapes Metabolism, Regeneration, and Disease

Satdarshan (Paul) S Monga, MD, FAASLD | Presenter
8:25 AM - 8:45 AM
Convention Center - Bluebird Ballroom 2ABC

Mapping the Epigenomic Architecture of the Liver to Decode Zonation and Cellular Function

Jochen Hampe, MD | Presenter

Objectives

  • Describe how advances in spatial multi-omic approaches are aiding in the study of liver biology.
  • Review how spatial analyses uncover the coordinated cellular responses that underlie liver zonation, injury repair, and regeneration.
  • Explain how integrating spatial technologies into experimental and clinical research can lead to the identification of therapeutic targets and advancement of precision medicine.