腦中風患者之心房顫動預測模型開發與驗證：使用自然語言處理與機器學習技術

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楊于璇(Yu-Hsuan Yang) 查詢紙本館藏

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論文名稱

腦中風患者之心房顫動預測模型開發與驗證：使用自然語言處理與機器學習技術

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至系統瀏覽論文 (2029-7-1以後開放)

摘要(中)

突發性腦血管疾病，俗稱中風，是全球第二大致命原因和第三大導致失能的原因，而在台灣則是第五大致命原因。其中，最常復發者為缺血性中風。心房顫動是中風的潛在風險因素之一，由於其具有陣發性或無症狀的特點，難以在短時間內進行檢測，這可能導致患者未能及時採取應對措施，進一步增加再次中風的風險。考慮到醫療資源有限，因此需要建立一個良好的風險預測模型，以幫助醫師更詳細地對高風險患者進行檢查。本研究的目的是利用電子病歷中的結構化和非結構化資料，透過不同的分類技術建立預測模型，並使用實際的電子病歷數據進行驗證。除了在聯新國際醫院進行內部驗證外，考慮到模型的通用性，另外將使用嘉義基督教醫院的資料進行外部驗證。

摘要(英)

Acute cerebrovascular disease, commonly known as stroke, ranks as the second leading cause of death globally and the third leading cause of disability. In Taiwan, it is the fifth leading cause of death. The most common recurrence among these cases is ischemic stroke. Atrial fibrillation is identified as one of the key risk factors for stroke. However, due to its intermittent or asymptomatic presentation, detecting it promptly is challenging, potentially delaying necessary interventions and heightening the risk of recurrent stroke. Given these challenges and the constraints of medical resources, it is imperative to develop a robust risk prediction model. Such a model would aid physicians in conducting thorough assessments of high-risk patients. This study aims to leverage both structured and unstructured data from electronic health records to develop predictive models using various classification techniques. Validation will be performed using real-world electronic health record data. Internal validation will initially take place within the same hospital, with external validation planned using data from other hospitals to ensure the model′s generalizability across different settings.

關鍵字(中)

★ 心房顫動
★ 腦中風
★ 電子病歷
★ 文字探勘
★ 臨床支援決策

關鍵字(英)

★ Atrial Fibrillation
★ Stroke
★ Electronic Medical Records
★ Text Mining
★ Clinical decision support system

論文目次

摘要 i
Abstract ii
誌謝 iii
目錄 iv
圖目錄 vi
表目錄 vii
第一章、緒論 1
1.1 研究背景 1
1.2 研究動機 3
1.3 研究目的 5
第二章、文獻探討 6
2.1 電子病歷用於臨床決策支援之研究 6
2.2 心房顫動預測應用之研究 9
2.3 結構化與非結構化資料用於預測模型之研究 14
第三章、研究方法 17
3.1 資料來源 19
3.2 依變數定義 20
3.3 自變數定義 22
3.4 文字前處理 24
3.4.1 Term Frequency-Inverse Document Frequency (TF-IDF) 25
3.4.2 Doc2Vec (D2V) 26
3.4.3 MetaMap 27
3.4.4 Bidirectional Encoder Representations from Transformers (Bert) 29
3.5 訓練集與測試集切分 30
3.6 分類技術 31
3.6.1 支援向量機(Support Vector Machine, SVM) 32
3.6.2 簡單貝氏(Naive Bayes, NB) 32
3.6.3 決策樹(Decision Tree, DT) 33
3.6.4 隨機森林(Random Forest, RF) 33
3.6.5 邏輯迴歸(Logistic Regression, LR) 35
3.6.6 K-近鄰演算法(K-Nearest Neighbor, KNN) 35
3.6.7 極限梯度提升(Extreme Gradient Boosting, XGB) 35
3.6.8 類別型梯度提升(Categorical Boosting, CatBoost) 36
3.6.9 輕量化梯度提升(Light Gradient Boosting Machine, LightGBM) 36
3.7 實驗設計與分析技術 36
3.8 預測模型評估指標 38
第四章、實驗結果 40
4.1 敘述式統計與檢定 40
4.2 實驗結果 42
4.2.1 實驗1 45
4.2.2 實驗2 47
4.2.3 實驗3 49
4.3 討論 53
第五章、研究結論與建議 66
5.1 研究結論 66
5.2 研究限制 67
5.3 未來研究方向與建議 67
第六章、參考文獻 68
附錄一 96
附錄二 97
附錄三 98
附錄四 99
附錄五 100
附錄六 101
附錄七 102

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指導教授

胡雅涵(Ya-Han Hu)

審核日期

2024-7-19

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