Aligning Knowledge Concepts to Whole Slide Images for Precise Histopathology Image Analysis
Due to the large size and lack of fine-grained annotation, Whole Slide Images (WSIs) analysis is commonly approached as a Multiple Instance Learning (MIL) problem. However, previous studies only learn from training data, posing a stark contrast to how human clinicians teach each other and reason abo...
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| creator | Zhao, Weiqin Guo, Ziyu Fan, Yinshuang Jiang, Yuming Yeung, Maximus Yu, Lequan |
| description | Due to the large size and lack of fine-grained annotation, Whole Slide Images
(WSIs) analysis is commonly approached as a Multiple Instance Learning (MIL)
problem. However, previous studies only learn from training data, posing a
stark contrast to how human clinicians teach each other and reason about
histopathologic entities and factors. Here we present a novel knowledge
concept-based MIL framework, named ConcepPath to fill this gap. Specifically,
ConcepPath utilizes GPT-4 to induce reliable diseasespecific human expert
concepts from medical literature, and incorporate them with a group of purely
learnable concepts to extract complementary knowledge from training data. In
ConcepPath, WSIs are aligned to these linguistic knowledge concepts by
utilizing pathology vision-language model as the basic building component. In
the application of lung cancer subtyping, breast cancer HER2 scoring, and
gastric cancer immunotherapy-sensitive subtyping task, ConcepPath significantly
outperformed previous SOTA methods which lack the guidance of human expert
knowledge. |
| doi_str_mv | 10.48550/arxiv.2411.18101 |
| format | Article |
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(WSIs) analysis is commonly approached as a Multiple Instance Learning (MIL)
problem. However, previous studies only learn from training data, posing a
stark contrast to how human clinicians teach each other and reason about
histopathologic entities and factors. Here we present a novel knowledge
concept-based MIL framework, named ConcepPath to fill this gap. Specifically,
ConcepPath utilizes GPT-4 to induce reliable diseasespecific human expert
concepts from medical literature, and incorporate them with a group of purely
learnable concepts to extract complementary knowledge from training data. In
ConcepPath, WSIs are aligned to these linguistic knowledge concepts by
utilizing pathology vision-language model as the basic building component. In
the application of lung cancer subtyping, breast cancer HER2 scoring, and
gastric cancer immunotherapy-sensitive subtyping task, ConcepPath significantly
outperformed previous SOTA methods which lack the guidance of human expert
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(WSIs) analysis is commonly approached as a Multiple Instance Learning (MIL)
problem. However, previous studies only learn from training data, posing a
stark contrast to how human clinicians teach each other and reason about
histopathologic entities and factors. Here we present a novel knowledge
concept-based MIL framework, named ConcepPath to fill this gap. Specifically,
ConcepPath utilizes GPT-4 to induce reliable diseasespecific human expert
concepts from medical literature, and incorporate them with a group of purely
learnable concepts to extract complementary knowledge from training data. In
ConcepPath, WSIs are aligned to these linguistic knowledge concepts by
utilizing pathology vision-language model as the basic building component. In
the application of lung cancer subtyping, breast cancer HER2 scoring, and
gastric cancer immunotherapy-sensitive subtyping task, ConcepPath significantly
outperformed previous SOTA methods which lack the guidance of human expert
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(WSIs) analysis is commonly approached as a Multiple Instance Learning (MIL)
problem. However, previous studies only learn from training data, posing a
stark contrast to how human clinicians teach each other and reason about
histopathologic entities and factors. Here we present a novel knowledge
concept-based MIL framework, named ConcepPath to fill this gap. Specifically,
ConcepPath utilizes GPT-4 to induce reliable diseasespecific human expert
concepts from medical literature, and incorporate them with a group of purely
learnable concepts to extract complementary knowledge from training data. In
ConcepPath, WSIs are aligned to these linguistic knowledge concepts by
utilizing pathology vision-language model as the basic building component. In
the application of lung cancer subtyping, breast cancer HER2 scoring, and
gastric cancer immunotherapy-sensitive subtyping task, ConcepPath significantly
outperformed previous SOTA methods which lack the guidance of human expert
knowledge.</abstract><doi>10.48550/arxiv.2411.18101</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Computer Science - Computer Vision and Pattern Recognition Computer Science - Learning |
| title | Aligning Knowledge Concepts to Whole Slide Images for Precise Histopathology Image Analysis |
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