預測原發性醛固酮症腎上腺切除術後之結果：臨床生化特徵之機器學習模型暨腎上腺電腦斷層影像分割

黃郁文; Yu-Wen Huang

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/96828

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	陳中明	zh_TW
dc.contributor.advisor	Chung-Ming Chen	en
dc.contributor.author	黃郁文	zh_TW
dc.contributor.author	Yu-Wen Huang	en
dc.date.accessioned	2025-02-24T16:08:57Z	-
dc.date.available	2025-02-25	-
dc.date.copyright	2025-02-24	-
dc.date.issued	2025	-
dc.date.submitted	2025-01-06	-
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Williams et al., "Outcomes after adrenalectomy for unilateral primary aldosteronism: an international consensus on outcome measures and analysis of remission rates in an international cohort," Lancet Diabetes Endocrinol, vol. 5, no. 9, pp. 689-699, Sep 2017, doi: 10.1016/S2213-8587(17)30135-3. [6] A. C. A. Westphalen and B. N. Joe, "CT and MRI of Adrenal Masses," Applied Radiology, vol. 35(8), pp. 10-26, 2006. [Online]. Available: https://www.medscape.com/s/viewarticle/543510_2?form=fpf. [7] G. Y. Zhang and Z. W. Li, "An Adrenal Segmentation Model Based on Shape Associating Level Set in Sequence of CT Images," (in English), J Signal Process Sys, vol. 91, no. 10, pp. 1169-1177, Oct 2019, doi: 10.1007/s11265-018-1433-0. [8] M. Morisaki et al., "Predictors of Clinical Success After Surgery for Primary Aldosteronism in the Japanese Nationwide Cohort," (in English), J Endocr Soc, vol. 3, no. 11, pp. 2012-2022, Nov 2019, doi: 10.1210/js.2019-00295. [9] J. Burrello et al., "The Primary Aldosteronism Surgical Outcome Score for the Prediction of Clinical Outcomes After Adrenalectomy for Unilateral Primary Aldosteronism," Ann Surg, vol. 272, no. 6, pp. 1125-1132, Dec 2020, doi: 10.1097/SLA.0000000000003200. [10] Y. Yang et al., "Nomogram-Based Preoperative Score for Predicting Clinical Outcome in Unilateral Primary Aldosteronism," J Clin Endocrinol Metab, vol. 105, no. 12, Dec 1 2020, doi: 10.1210/clinem/dgaa634. [11] H. Kaneko et al., "Machine learning-based models for predicting clinical outcomes after surgery in unilateral primary aldosteronism," Sci Rep, vol. 12, no. 1, p. 5781, Apr 6 2022, doi: 10.1038/s41598-022-09706-8. [12] Z. Li et al., "Predictive model for persistent hypertension after surgical intervention of primary aldosteronism," Scientific Reports, vol. 13, 2023, Art no. 11868, doi: 10.1038/s41598-023-39028-2. [13] A. Saadi et al., "Predictors of successful outcome after adrenalectomy for unilateral primary aldosteronism," (in English), Frontiers in Endocrinology, Original Research vol. 14, 2023-August-11 2023, doi: 10.3389/fendo.2023.1205988. [14] R. Zarnegar et al., "The aldosteronoma resolution score: predicting complete resolution of hypertension after adrenalectomy for aldosteronoma," (in eng), Ann Surg, vol. 247, no. 3, pp. 511-8, Mar 2008, doi: 10.1097/SLA.0b013e318165c075. [15] G. Luo, Q. Yang, T. Chen, T. Zheng, W. Xie, and H. Sun, "An optimized two-stage cascaded deep neural network for adrenal segmentation on CT images," Comput Biol Med, vol. 136, p. 104749, Sep 2021, doi: 10.1016/j.compbiomed.2021.104749. [16] C. Robinson-Weiss et al., "Machine Learning for Adrenal Gland Segmentation and Classification of Normal and Adrenal Masses at CT," Radiology, vol. 306, no. 2, p. e220101, Feb 2023, doi: 10.1148/radiol.220101. [17] T. M. Kim et al., "Fully automatic volume measurement of the adrenal gland on CT using deep learning to classify adrenal hyperplasia," Eur Radiol, vol. 33, no. 6, pp. 4292-4302, Jun 2023, doi: 10.1007/s00330-022-09347-5. [18] J. Li et al., "MCNet: A multi-level context-aware network for the segmentation of adrenal gland in CT images," Neural Netw, vol. 170, pp. 136-148, Feb 2024, doi: 10.1016/j.neunet.2023.11.028. [19] J. You, X. Ma, D. Ding, M. Kochenderfer, and J. Leskovec, "Handling missing data with graph representation learning," presented at the Proceedings of the 34th International Conference on Neural Information Processing Systems, Vancouver, BC, Canada, 2020. [20] V. Jackins, S. Vimal, M. Kaliappan, and M. Y. Lee, "AI-based smart prediction of clinical disease using random forest classifier and Naive Bayes," The Journal of Supercomputing vol. 77, pp. 5198-5219, 2021, doi: 10.1007/s11227-020-03481-x. [21] J. Zhang et al., "Enhancing Trauma Care: A Machine Learning Approach with XGBoost for Predicting Urgent Hemorrhage Interventions Using NTDB Data," Bioengineering (Basel), vol. 11, no. 8, Jul 30 2024, doi: 10.3390/bioengineering11080768. [22] G. Ke et al., "LightGBM: A highly efficient gradient boosting decision tree," presented at the Proceedings of the 31st International Conference on Neural Information Processing Systems, Long Beach, California, USA, 2017. [23] P. Veličković, G. Cucurull, A. Casanova, A. Romero, P. Liò, and Y. Bengio, "Graph Attention Networks," 6th International Conference on Learning Representations, 2018. [24] yolov5-pytorch. (2023). GitHub. [Online]. Available: https://github.com/bubbliiiing/yolov5-pytorch	-
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/96828	-
dc.description.abstract	原發性醛固酮症是一種內分泌疾病，常見症狀為高血壓與低血鉀，主要分為醛固酮分泌腺瘤及雙側腎上腺增生等兩種亞型。單側腎上腺切除手術是治療醛固酮分泌腺瘤之首選，然而，儘管大多數患者在術後低血鉀症狀獲得改善，達到生化面向之完全成功，平均卻只有 37% 的患者能達到臨床面向之完全成功，亦即術後不必服用降血壓藥物，便可使血壓維持在正常標準下。本研究以預測原發性醛固酮症患者經過腎上腺切除術後之結果為主軸，分為兩部分。第一部分利用 640 位生化完全成功之患者的術前臨床生化特徵，以機器學習模型預測術後的臨床結果。結果顯示，在 7 種機器學習模型中，隨機森林有最佳的分類表現，其 AUC 在 5 次分層 5 折交叉驗證上可達到 0.750±0.009 。第二部分則結合圖像神經網路與 U-Net 架構，設計出一深度學習影像分割模型，從 190 位原發性醛固酮症患者的腹部靜脈相電腦斷層細切影像中，劃分出腎上腺的確切區域。經由 4 次 5 折交叉驗證，本研究所提出之方法用於腎上腺分割的 DSC 為 0.800±0.002 。本研究比較了不同前處理方式與機器學習分類模型的表現，證實隨機森林在預測術後臨床結果的潛力，並提出了有效的腎上腺影像分割方法，提高自動化分析腎上腺的可能性。期望未來能結合影像與臨床生化數據，對原發性醛固酮症患者的術後結果進行更加全面而準確的預測，將有助於臨床醫師根據個別患者的術前資料，制定更精確的治療計畫。	zh_TW
dc.description.abstract	Primary aldosteronism (PA) is an endocrine disorder characterized by hypertension and hypokalemia. It is classified into two main subtypes: aldosterone-producing adenoma and bilateral adrenal hyperplasia. Unilateral adrenalectomy is the preferred treatment for aldosterone-producing adenoma. While most patients achieve complete biochemical success (resolution of hypokalemia) after surgery, only 37% on average achieve complete clinical success, defined as maintaining normal blood pressure without antihypertensive medications. This study investigates the prediction of postoperative outcomes for PA patients undergoing adrenalectomy, comprising two main components. The first component utilizes preoperative clinical and biochemical features from 640 patients who achieved complete biochemical success to develop machine learning models for predicting clinical outcomes. Among seven machine learning models, random forest demonstrated the best performance, achieving an AUC of 0.750±0.009 in 5 times repeated 5-fold stratified cross-validation. The second component introduces a deep learning segmentation model combining Graph Neural Networks (GNN) with a U-Net architecture to delineate adrenal regions from abdominal venous-phase CT images of 190 PA patients. The proposed method achieved a Dice Similarity Coefficient (DSC) of 0.800±0.002 through 4 times repeated 5-fold cross-validation. This study confirms the potential of random forest for predicting postoperative clinical outcomes and presents an effective adrenal segmentation approach that enhances the efficiency of automated adrenal analysis. Future work will aim to integrate imaging and clinico-biochemical data for more comprehensive and precise outcome predictions, providing valuable guidance for clinicians in tailoring treatment plans for PA patients.	en
dc.description.provenance	Submitted by admin ntu (admin@lib.ntu.edu.tw) on 2025-02-24T16:08:57Z No. of bitstreams: 0	en
dc.description.provenance	Made available in DSpace on 2025-02-24T16:08:57Z (GMT). No. of bitstreams: 0	en
dc.description.tableofcontents	口試委員會審定書 i 中文摘要 ii 英文摘要 iii 第一章緒論 1 第一節背景介紹 1 第二節研究動機 3 第三節研究目的 4 第二章文獻探討 6 第一節預測原發性醛固酮症之術後結果 6 第二節腎上腺電腦斷層影像分割 8 第三章材料與方法 10 第一節研究材料 10 一、臨床生化數據 10 二、腎上腺電腦斷層影像 13 第二節資料前處理 13 一、處理臨床數據之缺失值 13 二、腎上腺電腦斷層影像之前處理 17 第三節臨床生化特徵之機器學習分類模型 19 一、特徵選擇 19 二、邏輯斯迴歸 21 三、 KNN 22 四、 SVM 23 五、隨機森林 24 六、 XGBoost 26 七、 Kaneko 之方法 [11] 27 第四節腎上腺影像之深度學習分割模型 28 一、門控卷積 29 二、 Spatial Dropout 30 三、 ASPP 30 四、擴張因果卷積 32 五、 GNN 32 六、注意力閘（Attention Gate） 33 七、訓練參數 34 八、分割結果之後處理 35 九、測試方法 36 十、 Luo 之方法 [15] 38 第四章結果與討論 40 第一節術後結果分類 40 第二節腎上腺分割 54 第五章結論 68 第一節結論 68 第二節研究限制 69 第三節未來展望 69 參考文獻 71	-
dc.language.iso	zh_TW	-
dc.subject	深度學習	zh_TW
dc.subject	術後結果預測	zh_TW
dc.subject	腎上腺分割	zh_TW
dc.subject	電腦斷層	zh_TW
dc.subject	機器學習	zh_TW
dc.subject	臨床生化特徵	zh_TW
dc.subject	原發性醛固酮症	zh_TW
dc.subject	primary aldosteronism	en
dc.subject	Adrenal segmentation	en
dc.subject	clinical biochemical features	en
dc.subject	computed tomography	en
dc.subject	deep learning	en
dc.subject	machine learning	en
dc.subject	postoperative outcome prediction	en
dc.title	預測原發性醛固酮症腎上腺切除術後之結果：臨床生化特徵之機器學習模型暨腎上腺電腦斷層影像分割	zh_TW
dc.title	Predicting Outcomes After Adrenalectomy for Primary Aldosteronism: Machine Learning Model of Clinico-biochemical Characteristics and Segmentation of Adrenal Gland Computed Tomography Images	en
dc.type	Thesis	-
dc.date.schoolyear	113-1	-
dc.description.degree	碩士	-
dc.contributor.oralexamcommittee	闕士傑;李佳燕	zh_TW
dc.contributor.oralexamcommittee	Jeff Chueh;Chia-Yen Lee	en
dc.subject.keyword	原發性醛固酮症,深度學習,術後結果預測,腎上腺分割,電腦斷層,機器學習,臨床生化特徵,	zh_TW
dc.subject.keyword	Adrenal segmentation,clinical biochemical features,computed tomography,deep learning,machine learning,postoperative outcome prediction,primary aldosteronism,	en
dc.relation.page	73	-
dc.identifier.doi	10.6342/NTU202404447	-
dc.rights.note	同意授權(全球公開)	-
dc.date.accepted	2025-01-06	-
dc.contributor.author-college	工學院	-
dc.contributor.author-dept	醫學工程學系	-
dc.date.embargo-lift	2025-02-25	-
顯示於系所單位：	醫學工程學研究所

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