牙齒周圍支持骨與矯正治療的相關性研究

魏鴻任; Hung-Jen Wei

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完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	張瑞青	zh_TW
dc.contributor.advisor	Zwei-Chieng Chang	en
dc.contributor.author	魏鴻任	zh_TW
dc.contributor.author	Hung-Jen Wei	en
dc.date.accessioned	2025-09-16T16:07:35Z	-
dc.date.available	2025-09-17	-
dc.date.copyright	2025-09-16	-
dc.date.issued	2025	-
dc.date.submitted	2025-07-16	-
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dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/99562	-
dc.description.abstract	研究背景與目的：隨著矯正治療技術與骨性錨定裝置（如迷你骨釘、骨板）的廣泛應用，針對牙周狀況不佳患者執行全面性矯正治療逐漸成為臨床常態。然而，關於矯正治療是否會影響牙齒周圍支持骨的變化，文獻仍缺乏針對大臼齒三維移動方向的分析。本研究旨在探討：一、矯正治療是否增加「骨水平」（bone level）惡化與「根叉侵犯」的風險；二、不同矯正移動方式對牙周穩定性的影響；三、對咬牙之移動是否與牙齒周圍支持骨變化具關聯性。研究程序及方法：本研究為回顧性研究，篩選 2009 至 2020 年間於臺大醫療體系接受完整牙周及矯正治療之成人患者，共納入 70 位受試者與 394 顆大臼齒。利用數位模型、 X光影像及測顱疊圖進行大臼齒移動方向分析，評估矯正治療前後之牙齒支持周圍支持骨變化。評估骨質垂直缺損狀況主要觀察骨水平、根叉侵犯程度。其他指標亦分析測顱分析數值的變化，並進行單變項與多變項對數迴歸分析。研究結果：骨水平惡化風險與術前骨支持狀況不良、根叉區中重度侵犯、曾接受再生手術、矯正性突出及後牙未扶正等因子顯著相關。牙齒軸向扶正則與骨水平保護效果具正相關。根叉惡化則與術前中重度根叉侵犯、對咬牙下壓型移動具關聯。整體臼齒於追蹤期拔牙率僅 1.69 %，但事件數偏低，限制了部分統計檢定力。結論：在牙周穩定控制下施以適當矯正治療，多數臼齒可維持穩定預後。但對於基期條件不佳或曾接受牙周再生手術者，特定移動型態（如突出）仍可能導致牙齒周圍支持骨惡化。建議臨床治療應於矯正計畫擬定時充分評估牙周條件、移動方向與對咬牙因素，並針對高風險牙齒採取個別化力學策略與定期監測。	zh_TW
dc.description.abstract	Background and Objectives: With the advancement of orthodontic techniques and the widespread application of skeletal anchorage systems (such as mini-screws and bone plates), comprehensive orthodontic treatment in periodontally compromised patients has become increasingly common in clinical practice. However, evidence regarding the impact of orthodontic therapy on the surrounding alveolar bone remains limited, particularly in terms of analyzing the three-dimensional movement of molars. This study aimed to investigate: (1) whether orthodontic treatment increases the risk of deterioration in bone level and furcation involvement; (2) how different types of tooth movement influence periodontal stability; and (3) whether the movement pattern of opposing teeth is associated with changes in alveolar bone support. Materials and Methods: This retrospective study included 70 adult patients who received comprehensive periodontal and orthodontic treatment between 2009 and 2020 at the National Taiwan University healthcare system. A total of 394 molars were analyzed. Digital models, radiographs, and cephalometric superimpositions were used to assess molar movement vectors and changes in alveolar bone support before and after treatment. The primary periodontal outcome measures included vertical bone loss (bone level) and the degree of furcation involvement. Changes in cephalometric parameters were also analyzed. Both univariate and multivariate logistic regression analyses were performed. Results: Deterioration in bone level was significantly associated with poor initial bone support, moderate-to-severe furcation involvement, a history of periodontal regenerative surgery, extrusion-type tooth movement, and the absence of molar uprighting. In contrast, molar uprighting was positively correlated with preservation of bone support. Furcation deterioration was associated with baseline moderate-to-severe furcation and vertical intrusion of opposing teeth. The overall molar extraction rate during the follow-up period was low (1.69%), but the limited number of events reduced the statistical power for some analyses. Conclusion: With stable periodontal control, most molars maintained a favorable prognosis following appropriately planned orthodontic treatment. However, in patients with poor initial periodontal conditions or those who had received regenerative therapy, certain types of tooth movement—such as extrusion—may still pose a risk of alveolar bone deterioration. Clinical treatment planning should carefully evaluate baseline periodontal condition, direction of tooth movement, and opposing occlusion. High-risk teeth may benefit from individualized biomechanics and close periodontal monitoring.	en
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dc.description.tableofcontents	誌謝 i 中文摘要 ii ABSTRACT iii 目次 v 圖次 ix 表次 x Chapter 1 緒論 1 1.1 研究背景 1 1.2 研究目的3 1.3 研究問題與假設 3 Chapter 2 文獻回顧5 2.1 矯正移動的生理性限制 5 2.1.1 Envelope of Discrepancy（齒顎矯正移動差異範圍）5 2.1.2 WALA 脊對於矯正生理性限制的意義 6 2.2 根叉侵犯的分級系統 (Classification of Furcation Involvement)7 2.2.1 Glickman 根叉病變分級 (Glickman Classification)7 2.2.2 Hamp、Nyman 和 Lindhe根叉病變水平附連喪失分級 (Hamp et al.,1975) 8 2.3 矯正治療對根叉侵犯牙齒的影響 8 2.3.1 對 II 級根叉侵犯的影響（犬隻研究）8 2.3.2 對 III 級根叉侵犯的影響（犬隻研究） 9 2.3.3 可能的風險與限制9 2.4 矯正性牙齒位移對牙周的影響 10 2.4.1 矯正性下壓內縮（ orthodontic intrusion）10 2.4.2 矯正性突出 (orthodontic extrusion)13 2.4.3 牙弓擴張（ arch expansion）15 2.4.4 咬合創傷（ occlusal trauma）與過度咬合力（ excessive occlusal force）16 2.5 針對牙周病患之臨床實務指引與矯正介入建議 17 Chapter 3 研究程序及方法 20 3.1 樣本篩選與納入（ Screening and Inclusion） 20 3.1.1 受試者篩選 20 3.1.2 排除條件 21 3.1.3 大臼齒的納入與排除 22 3.2 X 光攝影設備與參數 22 3.3 影像判讀與診斷標準 25 3.3.1 以 X 光影像為判讀牙周骨水平（ Periodontal bone level）標準 25 3.3.2 根叉侵犯（ Furcation Involvement）判讀標準 26 3.3.3 根叉 X 光影像分級 26 3.4 矯正疊圖方法 27 3.4.1 疊圖後測量與分析變化： 29 3.5 咬合平面圖疊圖方法 (Occlusaogram Superimposition Method) 29 3.5.1 上顎咬合平面圖疊圖 (Maxillary Superimposition)： 30 3.5.2 下顎咬合平面圖疊圖 (Mandibular Superimposition)：30 3.5.3 評估大臼齒移動.30 3.6 矯正治療前（ T0）收集牙齒周圍支持骨參數 31 3.7 矯正治療變因 32 3.7.1 矯正前後大臼齒牙齒周圍支持骨狀況變化 33 3.7.2 矯正後牙周狀況（ T1） 33 3.7.3 矯正後追蹤（ T2） 34 3.8 信賴度（ reliability）34 3.9 統計分析 34 Chapter 4 結果 36 4.1 樣本篩選與納入 36 4.1.1 排除條件36 4.1.2 研究對象基本資料37 4.1.3 矯正治療前（ T0）樣本基本顱顏與牙齒測量資料 37 4.1.4 大臼齒的納入與排除38 4.1.5 矯正後追蹤（ T2） 38 4.2 大臼齒矯正移動之三維分析 39 4.3 變項與牙齒周圍支持骨惡化之相關性分析39 4.3.1 骨水平惡化（ T1）之相關因子分析 39 4.3.2 根叉侵犯程度惡化（ T1）之相關因子分析 41 4.3.3 追蹤期間（ T2）臼齒缺牙情形與相關因素分析 43 4.4 信賴度 44 Chapter 5 討論 46 5.1 骨水平與根叉侵犯對矯正後牙齒周圍支持骨惡化之相關性 47 5.2 曾接受牙周再生手術者之牙齒周圍支持骨惡化風險較高 48 5.3 矯正治療中牙齒移動對牙齒周圍支持骨惡化之影響：多方向量化與風險評估 49 5.3.1 大臼齒垂直向突出與牙齒周圍支持骨惡化顯著相關 50 5.3.2 對咬牙下壓型移動與根叉侵犯惡化呈顯著相關 51 5.3.3 牙齒移動、樣本的顱顏分析特徵與顱顏分析治療變化（ T1-T0） 51 5.4 大臼齒長期存活率與缺牙相關因素分析 53 5.5 樣本數與統計檢定力分析（ Power analysis） 55 5.6 研究限制 56 Chapter 6 結論 59 Chapter 7 未來展望 61 參考文獻 63 附圖 69 附表 75 Figure 1. 以 X 光影像為判讀牙周骨水平（ bone level）標準（骨脊缺損高度/牙根長度比率）69 Figure 2. 根叉侵犯程度70 Figure 3. 測顱影像中大臼齒軸向角度量測 71 Figure 4. 上顎模型參考點疊合 72 Figure 5. 以測顱-咬合平面區域性疊圖評估大臼齒移動 73 Figure 6 樣本篩選與實驗流程圖（ Flowchart） 74 Table 1. 界標定義 75 Table 2. 測顱分析項目定義 76 Table 3. 矯正治療前（ T0）受試者基本顱顏與牙齒測量資料 77 Table 4. 大臼齒移動結果 77 Table 5. 骨水平惡化組與沒有惡化組的移動距離範圍 78 Table 6. 根叉侵犯惡化組與沒有惡化組的移動距離範圍 78 Table 7. 基線資料與矯正後骨水平惡化（ T1）之相關性分析（單變項分析） 79 Table 8. 基線資料與矯正後根叉侵犯惡化（ T1）之相關性分析（單變項分析） 81 Table 9. 各變項對牙齒骨水平與根叉侵犯惡化風險之多變項對數迴歸分析結果83 Table 10. 追蹤期間（ T2）臼齒缺牙情形與相關因素分析85 Table 11. 信賴度分析（ ICC）87 Table 12. 信賴度分析（ Kappa）87 Table 13. Weighted Kappa Classification Matrix（術前骨水平） 88 Table 14. Weighted Kappa Classification Matrix（術後骨水平） 88 Table 15. Weighted Kappa Classification Matrix（術前根叉侵犯程度）89 Table 16. Weighted Kappa Classification Matrix（術後根叉侵犯程度） 89	-
dc.language.iso	zh_TW	-
dc.subject	矯正性牙齒移動技術	zh_TW
dc.subject	牙周病	zh_TW
dc.subject	根叉缺損	zh_TW
dc.subject	齒槽骨流失	zh_TW
dc.subject	臼齒扶正	zh_TW
dc.subject	矯正疊圖技術	zh_TW
dc.subject	數位牙科模型	zh_TW
dc.subject	Periodontal disease	en
dc.subject	Digital dental models	en
dc.subject	Orthodontic superimposition	en
dc.subject	Molar uprighting	en
dc.subject	Alveolar bone loss	en
dc.subject	Furcation defects	en
dc.subject	Tooth movement techniques	en
dc.title	牙齒周圍支持骨與矯正治療的相關性研究	zh_TW
dc.title	Periodontal Supporting Bone and Orthodontic Treatment: A Retrospective Study	en
dc.type	Thesis	-
dc.date.schoolyear	113-2	-
dc.description.degree	碩士	-
dc.contributor.oralexamcommittee	郭彥彬;孫瑞昇	zh_TW
dc.contributor.oralexamcommittee	Mark Yen-Ping Kuo;Jui-Sheng Sun	en
dc.subject.keyword	矯正性牙齒移動技術,牙周病,根叉缺損,齒槽骨流失,臼齒扶正,矯正疊圖技術,數位牙科模型,	zh_TW
dc.subject.keyword	Tooth movement techniques,Periodontal disease,Furcation defects,Alveolar bone loss,Molar uprighting,Orthodontic superimposition,Digital dental models,	en
dc.relation.page	89	-
dc.identifier.doi	10.6342/NTU202501733	-
dc.rights.note	未授權	-
dc.date.accepted	2025-07-16	-
dc.contributor.author-college	醫學院	-
dc.contributor.author-dept	臨床牙醫學研究所	-
dc.date.embargo-lift	N/A	-
顯示於系所單位：	臨床牙醫學研究所

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