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7 results on '"Chhor, Guillaume"'

1. PLUTO: Pathology-Universal Transformer

Author

Juyal, Dinkar, Padigela, Harshith, Shah, Chintan, Shenker, Daniel, Harguindeguy, Natalia, Liu, Yi, Martin, Blake, Zhang, Yibo, Nercessian, Michael, Markey, Miles, Finberg, Isaac, Luu, Kelsey, Borders, Daniel, Javed, Syed Ashar, Krause, Emma, Biju, Raymond, Sood, Aashish, Ma, Allen, Nyman, Jackson, Shamshoian, John, Chhor, Guillaume, Sanghavi, Darpan, Thibault, Marc, Yu, Limin, Najdawi, Fedaa, Hipp, Jennifer A., Fahy, Darren, Glass, Benjamin, Walk, Eric, Abel, John, Pokkalla, Harsha, Beck, Andrew H., and Grullon, Sean

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Pathology is the study of microscopic inspection of tissue, and a pathology diagnosis is often the medical gold standard to diagnose disease. Pathology images provide a unique challenge for computer-vision-based analysis: a single pathology Whole Slide Image (WSI) is gigapixel-sized and often contains hundreds of thousands to millions of objects of interest across multiple resolutions. In this work, we propose PathoLogy Universal TransfOrmer (PLUTO): a light-weight pathology FM that is pre-trained on a diverse dataset of 195 million image tiles collected from multiple sites and extracts meaningful representations across multiple WSI scales that enable a large variety of downstream pathology tasks. In particular, we design task-specific adaptation heads that utilize PLUTO's output embeddings for tasks which span pathology scales ranging from subcellular to slide-scale, including instance segmentation, tile classification, and slide-level prediction. We compare PLUTO's performance to other state-of-the-art methods on a diverse set of external and internal benchmarks covering multiple biologically relevant tasks, tissue types, resolutions, stains, and scanners. We find that PLUTO matches or outperforms existing task-specific baselines and pathology-specific foundation models, some of which use orders-of-magnitude larger datasets and model sizes when compared to PLUTO. Our findings present a path towards a universal embedding to power pathology image analysis, and motivate further exploration around pathology foundation models in terms of data diversity, architectural improvements, sample efficiency, and practical deployability in real-world applications.

Published
2024

2. P1246: CELL TYPE IDENTIFICATION USING MULTIPLEX IMMUNOFLUORESCENCE (MIF) GUIDED MACHINE LEARNING IN DLBCL

Author

Chhor, Guillaume, primary, Vilchez, Samuel, additional, Chang, Patrick, additional, Novitskaya, Tatiana, additional, Hedvat, Cyrus, additional, Yu, Limin, additional, Resnick, Murray, additional, Franze, Kai, additional, Aguilar, Brizelle, additional, Barch, Mariya, additional, Jesudason, Raj, additional, Trotter, Ben, additional, Brosnan-Cashman, Jacqueline, additional, Liu, Yi, additional, Wapinski, Ilan, additional, Giltnane, Jennifer, additional, Hennek, Stephanie, additional, Zijlstra, Andries, additional, and Mcginnis, Lisa, additional

Published
2023
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3. Abstract 5705: Digital pathology based prognostic & predictive biomarkers in metastatic non-small cell lung cancer

Author

Qamra, Aditi, primary, Srivastava, Minu K., additional, Fuentes, Eloisa, additional, Trotter, Ben, additional, Biju, Raymond, additional, Chhor, Guillaume, additional, Cowan, James, additional, Gendreau, Steven, additional, Lincoln, Webster, additional, McGinnis, Lisa, additional, Molinero, Luciana, additional, Patil, Namrata S., additional, Schedlbauer, Amber, additional, Schulze, Katja, additional, Stanford-Moore, Adam, additional, Chambre, Laura, additional, Wapinski, Ilan, additional, Shames, David S., additional, Koeppen, Hartmut, additional, Hennek, Stephanie, additional, Fridlyand, Jane, additional, Giltnane, Jennifer M., additional, and Amitai, Assaf, additional

Published
2023
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4. Abstract CT112: AI-powered and manual assessment of PD-L1 are comparable in predicting response to neoadjuvant atezolizumab in patients (pts) with resectable non-squamous, non-small cell lung cancer (NSCLC)

Author

Abel, John, primary, Rivard, Christopher, additional, Kos, Filip, additional, Chhor, Guillaume, additional, Liu, Yi, additional, Giltnane, Jennifer, additional, Hoffman, Sara, additional, Resnick, Murray, additional, Hedvat, Cyrus, additional, Taylor-Weiner, Amaro, additional, Khalil, Farah, additional, Nicholas, Alan, additional, Fishbein, Gregory A., additional, Sholl, Lynette M., additional, Rekhtman, Natasha, additional, Hennek, Stephanie, additional, Wapinski, Ilan, additional, Johnson, Ann, additional, Montalto, Michael, additional, Schulze, Katja, additional, Johnson, Bruce E., additional, Carbone, David P., additional, Shilo, Konstantin, additional, Beck, Andrew H., additional, Dacic, Sanja, additional, Travis, William D., additional, and Wistuba, Ignacio, additional

Published
2022
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5. Abstract LB016: Deep learning identifies pathobiological features within H&E images associated with genomic alterations and progression on anti-PD(L)1 in HUDSON, an AstraZeneca-sponsored Phase II clinical trial

Author

Dillon, Laura, primary, Hernandez, Marylens, additional, Glass, Ben, additional, Chhor, Guillaume, additional, Hoffman, Sara, additional, Chinnaobireddy, Varsha, additional, Gullapally, Sai Chowdary, additional, Sachsenmeier, Kris, additional, Beck, Andy, additional, and Hipp, Jason, additional

Published
2021
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