Multiplexed Imaging to Understand the High-Dimensional Pathology of Human Cancer
Presented By: Sandro Santagata, MD, PhD
Speaker Biography: Sandro Santagata is an Associate Professor at Harvard Medical School and practices Neuropathology at Brigham and Women's Hospital where he directs a research laboratory in the Department of Pathology. He is a member of the Ludwig Center at Harvard, the Harvard Program in Therapeutic Science and the HMS Laboratory of Systems Pharmacology. He is leading efforts to generate tumor atlases as part of the NCI Moonshot Human Tumor Atlas Network (HTAN). His work in the field of high-dimensional pathology uses multiplexed tissue imaging of cancer resection specimens to understand the biological properties of tumor cells within their native microenvironment.
Webinar: Multiplexed Imaging to Understand the High-Dimensional Pathology of Human Cancer
Webinar Abstract: The recent development of highly multiplexed methods for imaging tissues from patients and mouse models promises to fundamentally advance research in tissue biology and disease. These new technologies enable the study of cell states, cell-cell interactions, and tissue architecture in normal and disease conditions. A common application of tissue imaging in oncology is identifying and enumerating immune cell types and mapping their locations relative to tumor and stromal cells. Such spatially-resolved data is pertinent to understanding the mechanisms of action of immunotherapies. These tools however can be applied to investigate a wide range of topics including stress responses and cell cycle regulation. The ability to extract high-dimensional information from single cells within their native context provides a distinct opportunity to understand complex cell biologic principles underlying disease pathogenesis.
Видео Multiplexed Imaging to Understand the High-Dimensional Pathology of Human Cancer канала LabRoots
Speaker Biography: Sandro Santagata is an Associate Professor at Harvard Medical School and practices Neuropathology at Brigham and Women's Hospital where he directs a research laboratory in the Department of Pathology. He is a member of the Ludwig Center at Harvard, the Harvard Program in Therapeutic Science and the HMS Laboratory of Systems Pharmacology. He is leading efforts to generate tumor atlases as part of the NCI Moonshot Human Tumor Atlas Network (HTAN). His work in the field of high-dimensional pathology uses multiplexed tissue imaging of cancer resection specimens to understand the biological properties of tumor cells within their native microenvironment.
Webinar: Multiplexed Imaging to Understand the High-Dimensional Pathology of Human Cancer
Webinar Abstract: The recent development of highly multiplexed methods for imaging tissues from patients and mouse models promises to fundamentally advance research in tissue biology and disease. These new technologies enable the study of cell states, cell-cell interactions, and tissue architecture in normal and disease conditions. A common application of tissue imaging in oncology is identifying and enumerating immune cell types and mapping their locations relative to tumor and stromal cells. Such spatially-resolved data is pertinent to understanding the mechanisms of action of immunotherapies. These tools however can be applied to investigate a wide range of topics including stress responses and cell cycle regulation. The ability to extract high-dimensional information from single cells within their native context provides a distinct opportunity to understand complex cell biologic principles underlying disease pathogenesis.
Видео Multiplexed Imaging to Understand the High-Dimensional Pathology of Human Cancer канала LabRoots
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