Abstract WMP81: A ChatGLM-based stroke diagnosis and prediction tool
Background and purpose: Stroke as a world-wide prevalent disease, has brought a huge burden to health care and the national economy, accurate and fast stroke diagnosis can significantly increase reperfusion rate, mitigate disability, and reduce deaths. However, there exists a great discrepancy in ac...
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| Published in | Stroke (1970) Vol. 56; no. Suppl_1; p. AWMP81 |
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| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Hagerstown, MD
Lippincott Williams & Wilkins
01.02.2025
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0039-2499 1524-4628 |
| DOI | 10.1161/str.56.suppl_1.WMP81 |
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| Abstract | Background and purpose: Stroke as a world-wide prevalent disease, has brought a huge burden to health care and the national economy, accurate and fast stroke diagnosis can significantly increase reperfusion rate, mitigate disability, and reduce deaths. However, there exists a great discrepancy in acute stroke diagnosis and treatment due to the diverse medical information for making decisions. This study aims to develop a stroke diagnosis and prediction tool based on Large Language Models (LLM) to combine heterogeneous information for reasoning.
Methods: By taking the electronic health record's (EHR) free-text information combined with non-contrast computed tomography (NCCT) to improve stroke discovery and treatment, We randomly included 1885 stroke and non-stroke subjects admitted at neurology ER in a comprehensive stroke center as a training set. We developed an LLM based on ChatGLM3-6B by selecting optimal entry combinations, using external tools, Instruction Tuning, and Low-Rank Adaptation (LoRA) techniques to enhance the performance of key procedures in stroke diagnosis flow-chart, and finally validating the results at both internal and external datasets.
Results: The multimodal LLM based on clinical notes and NCCT has very high accuracy in stroke diagnosis (99.0% in the internal validation dataset, 95.5% and 79.1% in other 2 external test cohorts), distinguish ischemia and hemorrhage (100.0% in validation dataset, 99.1% and 97.1% in other test cohorts), LVO identification (80.0% in validation dataset, 88.6% and 83.3% in other test cohorts), and screening patients eligible for IVT (89.4% in validation dataset, 60.0% and 80.0% in other test cohorts).
Conclusion: We derived an LLM that utilizes clinical text and NCCT to identify stroke and guide recanalization therapy. Our results require wide-scale deployment validation but can potentially improve stroke identification and narrow reperfusion time. |
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| AbstractList | Abstract only
Background and purpose:
Stroke as a world-wide prevalent disease, has brought a huge burden to health care and the national economy, accurate and fast stroke diagnosis can significantly increase reperfusion rate, mitigate disability, and reduce deaths. However, there exists a great discrepancy in acute stroke diagnosis and treatment due to the diverse medical information for making decisions. This study aims to develop a stroke diagnosis and prediction tool based on Large Language Models (LLM) to combine heterogeneous information for reasoning.
Methods:
By taking the electronic health record's (EHR) free-text information combined with non-contrast computed tomography (NCCT) to improve stroke discovery and treatment, We randomly included 1885 stroke and non-stroke subjects admitted at neurology ER in a comprehensive stroke center as a training set. We developed an LLM based on ChatGLM3-6B by selecting optimal entry combinations, using external tools, Instruction Tuning, and Low-Rank Adaptation (LoRA) techniques to enhance the performance of key procedures in stroke diagnosis flow-chart, and finally validating the results at both internal and external datasets.
Results:
The multimodal LLM based on clinical notes and NCCT has very high accuracy in stroke diagnosis (99.0% in the internal validation dataset, 95.5% and 79.1% in other 2 external test cohorts), distinguish ischemia and hemorrhage (100.0% in validation dataset, 99.1% and 97.1% in other test cohorts), LVO identification (80.0% in validation dataset, 88.6% and 83.3% in other test cohorts), and screening patients eligible for IVT (89.4% in validation dataset, 60.0% and 80.0% in other test cohorts).
Conclusion:
We derived an LLM that utilizes clinical text and NCCT to identify stroke and guide recanalization therapy. Our results require wide-scale deployment validation but can potentially improve stroke identification and narrow reperfusion time. Background and purpose: Stroke as a world-wide prevalent disease, has brought a huge burden to health care and the national economy, accurate and fast stroke diagnosis can significantly increase reperfusion rate, mitigate disability, and reduce deaths. However, there exists a great discrepancy in acute stroke diagnosis and treatment due to the diverse medical information for making decisions. This study aims to develop a stroke diagnosis and prediction tool based on Large Language Models (LLM) to combine heterogeneous information for reasoning. Methods: By taking the electronic health record's (EHR) free-text information combined with non-contrast computed tomography (NCCT) to improve stroke discovery and treatment, We randomly included 1885 stroke and non-stroke subjects admitted at neurology ER in a comprehensive stroke center as a training set. We developed an LLM based on ChatGLM3-6B by selecting optimal entry combinations, using external tools, Instruction Tuning, and Low-Rank Adaptation (LoRA) techniques to enhance the performance of key procedures in stroke diagnosis flow-chart, and finally validating the results at both internal and external datasets. Results: The multimodal LLM based on clinical notes and NCCT has very high accuracy in stroke diagnosis (99.0% in the internal validation dataset, 95.5% and 79.1% in other 2 external test cohorts), distinguish ischemia and hemorrhage (100.0% in validation dataset, 99.1% and 97.1% in other test cohorts), LVO identification (80.0% in validation dataset, 88.6% and 83.3% in other test cohorts), and screening patients eligible for IVT (89.4% in validation dataset, 60.0% and 80.0% in other test cohorts). Conclusion: We derived an LLM that utilizes clinical text and NCCT to identify stroke and guide recanalization therapy. Our results require wide-scale deployment validation but can potentially improve stroke identification and narrow reperfusion time. |
| Author | Wang, Yueming Wu, Jian Wang, Jiayi Pi, Jingtao Song, Xiaowei Wei, Chenming Ma, Weizhi Gao, Ceshu |
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| Copyright | 2025 by American Heart Association, Inc. |
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| IssueTitle | Abstracts from the American Stroke Association's 2025 International Stroke Conference and State-of-the-Science Stroke Nursing Symposium 2025 |
| Keywords | Access to care Stroke Artificial Intelligence |
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| Notes | For author disclosure information, please visit the AHA International Stroke Conference website. |
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| Snippet | Background and purpose: Stroke as a world-wide prevalent disease, has brought a huge burden to health care and the national economy, accurate and fast stroke... Abstract only Background and purpose: Stroke as a world-wide prevalent disease, has brought a huge burden to health care and the national economy, accurate and... |
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| Title | Abstract WMP81: A ChatGLM-based stroke diagnosis and prediction tool |
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