Data generation with Filtered β-VAE for the preoperative prediction of adverse events
Adverse events after surgery not only affect the patient's recovery but also increase the burden on doctors and patients due to prolonged hospitalization. Predicting adverse events from patient data before surgery with a machine learning method is highly expected. It is difficult to collect a l...
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| Veröffentlicht in: | IEEE access 2023-01, Vol.11, p.1-1 |
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| creator | Yamasaki, Yuki Doi, Chiaki Kitagawa, Shiori Seki, Hiroyuki Shigeno, Hiroshi |
| description | Adverse events after surgery not only affect the patient's recovery but also increase the burden on doctors and patients due to prolonged hospitalization. Predicting adverse events from patient data before surgery with a machine learning method is highly expected. It is difficult to collect a large amount of patient data since the number of surgeries in a year is limited and predict the occurrence of adverse events accurately since patient data are imbalanced data. To improve the accuracy of adverse event prediction, this paper proposes data generation with Filtered β-VAE for the preoperative prediction of adverse events. Filtered β-VAE has filters by the reconstruction error and by a machine learning method. After β-VAE generates minority class data, the two layers of filtering are used to remove low-quality minority class data that have little contribution to the adverse event prediction. In the evaluations, patient data obtained from Tokyo Dental University Ichikawa General Hospital were used. The proposed method can predict adverse events with a recall of 0.848, which is 5.6% more accurate than existing methods. The effects of filtering in Filtered β-VAE are visualized, and the reasons for the improvement in prediction accuracy are clarified. Furthermore, this paper shows that β-VAE can generate arbitrary patient data even in table data, corresponding to the distribution of the original patient data. |
| doi_str_mv | 10.1109/ACCESS.2023.3276783 |
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Predicting adverse events from patient data before surgery with a machine learning method is highly expected. It is difficult to collect a large amount of patient data since the number of surgeries in a year is limited and predict the occurrence of adverse events accurately since patient data are imbalanced data. To improve the accuracy of adverse event prediction, this paper proposes data generation with Filtered β-VAE for the preoperative prediction of adverse events. Filtered β-VAE has filters by the reconstruction error and by a machine learning method. After β-VAE generates minority class data, the two layers of filtering are used to remove low-quality minority class data that have little contribution to the adverse event prediction. In the evaluations, patient data obtained from Tokyo Dental University Ichikawa General Hospital were used. The proposed method can predict adverse events with a recall of 0.848, which is 5.6% more accurate than existing methods. The effects of filtering in Filtered β-VAE are visualized, and the reasons for the improvement in prediction accuracy are clarified. Furthermore, this paper shows that β-VAE can generate arbitrary patient data even in table data, corresponding to the distribution of the original patient data.</description><identifier>ISSN: 2169-3536</identifier><identifier>EISSN: 2169-3536</identifier><identifier>DOI: 10.1109/ACCESS.2023.3276783</identifier><identifier>CODEN: IAECCG</identifier><language>eng</language><publisher>Piscataway: IEEE</publisher><subject>Adverse events ; Biomedical imaging ; Data generation ; Diseases ; Filtration ; Generative adversarial networks ; Hospitals ; Linear programming ; Machine learning ; Medical ; Surgery</subject><ispartof>IEEE access, 2023-01, Vol.11, p.1-1</ispartof><rights>Copyright The Institute of Electrical and Electronics Engineers, Inc. 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Predicting adverse events from patient data before surgery with a machine learning method is highly expected. It is difficult to collect a large amount of patient data since the number of surgeries in a year is limited and predict the occurrence of adverse events accurately since patient data are imbalanced data. To improve the accuracy of adverse event prediction, this paper proposes data generation with Filtered β-VAE for the preoperative prediction of adverse events. Filtered β-VAE has filters by the reconstruction error and by a machine learning method. After β-VAE generates minority class data, the two layers of filtering are used to remove low-quality minority class data that have little contribution to the adverse event prediction. In the evaluations, patient data obtained from Tokyo Dental University Ichikawa General Hospital were used. The proposed method can predict adverse events with a recall of 0.848, which is 5.6% more accurate than existing methods. The effects of filtering in Filtered β-VAE are visualized, and the reasons for the improvement in prediction accuracy are clarified. 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Predicting adverse events from patient data before surgery with a machine learning method is highly expected. It is difficult to collect a large amount of patient data since the number of surgeries in a year is limited and predict the occurrence of adverse events accurately since patient data are imbalanced data. To improve the accuracy of adverse event prediction, this paper proposes data generation with Filtered β-VAE for the preoperative prediction of adverse events. Filtered β-VAE has filters by the reconstruction error and by a machine learning method. After β-VAE generates minority class data, the two layers of filtering are used to remove low-quality minority class data that have little contribution to the adverse event prediction. In the evaluations, patient data obtained from Tokyo Dental University Ichikawa General Hospital were used. The proposed method can predict adverse events with a recall of 0.848, which is 5.6% more accurate than existing methods. 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| subjects | Adverse events Biomedical imaging Data generation Diseases Filtration Generative adversarial networks Hospitals Linear programming Machine learning Medical Surgery |
| title | Data generation with Filtered β-VAE for the preoperative prediction of adverse events |
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