Only a small subset of patients with clear cell Renal Cell Carcinoma (ccRCC) respond to immunotherapy with checkpoint inhibitors. Research has shown that additional mechanisms of inhibition prevent the majority of patients from successful treatment. Recent studies into the inhibitory role of macrophages portend that these cells are associated with lower survival rate in several different cancer types. In this webinar, Immunologist Prof Dr Elfriede Nößner will present her research on specific macrophages in RCC (“ercDCs”) which are associated with poor outcome and their potential as new targets in immune therapy.
Presented as a LabRoots webinar on January 19, 2021.
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- What is known about the role of macrophages in immuno-oncology in general and in RCC specifically
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- What are “ercDCs” and how do they interact with T-Cells in RCC?
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- Which possibilities exist to manipulate the ercDCs?
Dr Elfriede Nößner, Head of Immunoanalytics, Helmholtz Zentrum München, German Research Center for Environmental Health
Dr. Elfriede Noessner is professor at the Ludwig-Maximilians-University of Munich (LMU) in Munich, Germany, and employed by the Helmholtz Zentrum Munich, where she is the Head of Immunoanalytics Research Group. She is board certified in immunology by the German Society of Immunology. She spent 5 years at Stanford University. Her research topics include the biology of HLA proteins and the antigen presentation; the activation, maintenance and control of T cell responses; and the modulation of T and NK cells, as well as dendritic cells and macrophages in tissue milieus, including cancer.
Find out why Dr Rimm’s work suggests that a subset of cells that have lost beta-catenin expression may be associated with non-response. In this seminar recording from USCAP 2020, Dr Rimm explains how you can benefit from exploratory analysis using AI-powered phenotyping.
Learn how his group used Visiopharm AI-based software to help them get meaningful results from next-gen imaging technologies like Fluidigm’s IMC.
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- Methods of measurement –co-localization, compartmentalization, and measurement vs segmentation and counting
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- How his lab used tSNE plots to show differences between responders and non-responders to trastuzumab
David Rimm, MD, PhD, Professor of Pathology and Medicine (Oncology); Director of Yale Pathology Tissue Services. Yale School of Medicine
David has authored over 400 peer-reviewed papers and holds eight patents. His research lab group focuses on quantitative pathology using the AQUA® technology invented in his lab, and other quantitative methods, including Visiopharm´s phenotyping module.
His projects relate to predicting response to both targeted and immune- therapy in cancer and standardization of those assays for CLIA labs.