Microsatellite Instability and High Tumor Mutational Burden is Concordant with Loss of Mismatch Repair Proteins
Back to course
Pdf Summary
Asset Subtitle
Presenting Author - Gokce Toruner, MD, PhD, FACMG; Co-Author - Richard K. Yang, MD, PhD; Co-Author - Hector Alvarez, MD, PhD; Co-Author - Sinhita Roy-Chowdhuri, MD, PhD; Co-Author - Asif Rashid, MBBS, PhD; Co-Author - Hui Chen, MD, PhD; Co-Author - Leomar Y. Ballester, MD, PhD; Co-Author - Mark Routbort, MD, PhD; Co-Author - Keyur P. Patel, MD, PhD; Co-Author - Raja Luthra, PhD; Co-Author - L. Jeffrey Medeiros, MD;
Meta Tag
Genetic Testing
Therapy
Co-Author Richard K. Yang, MD, PhD
Co-Author Hector Alvarez, MD, PhD
Co-Author Sinhita Roy-Chowdhuri, MD, PhD
Co-Author Asif Rashid, MBBS, PhD
Co-Author Hui Chen, MD, PhD
Co-Author Leomar Y. Ballester, MD, PhD
Co-Author Mark Routbort, MD, PhD
Co-Author Keyur P. Patel, MD, PhD
Co-Author Raja Luthra, PhD
Co-Author L. Jeffrey Medeiros, MD
Presenting Author Gokce Toruner, MD, PhD, FACMG
Keywords
DNA-based methods
mismatch repair deficiency
immunohistochemical analysis
mismatch repair proteins
next-generation sequencing
tumor mutational burden
microsatellite instability
IHC testing
neoplasms
immune checkpoint inhibitor therapy

© 2025 American College of Medical Genetics and Genomics. All rights reserved.

Powered By