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http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/100226完整後設資料紀錄
| DC 欄位 | 值 | 語言 |
|---|---|---|
| dc.contributor.advisor | 郭生興 | zh_TW |
| dc.contributor.advisor | Sang-Heng Kok | en |
| dc.contributor.author | 黃炯菱 | zh_TW |
| dc.contributor.author | Jyong-Ling Huang | en |
| dc.date.accessioned | 2025-09-30T16:04:50Z | - |
| dc.date.available | 2025-10-01 | - |
| dc.date.copyright | 2025-09-30 | - |
| dc.date.issued | 2025 | - |
| dc.date.submitted | 2025-07-03 | - |
| dc.identifier.citation | Chapter 7 References
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Conventional angular and linear measures. American Journal of Orthodontics, 1971. 60(5): p. 505-517. 7. E Kvam and O Krogstad, Variability in tracings of lateral head plates for diagnostic orthodontic purposes. Amethodologic study. Acta Odontologica Scandinavica, 1969. 27(4): p. 359-369. 8. A Richardson, An investigation into the reproducibility of some points, planes, and lines used in cephalometric analysis. American Journal of Orthodontics, 1966. 52(9): p. 637-651. 9. PJ Sandler, Reproducibility of cephalometric measurements. British Journal of Orthodontics, 1988. 15(2): p. 105-110. 10. LP Tourne, RL Bevis, and G Cavanaugh, A validity test of cephalometric variables as a measure of clinical applicability in anteroposterior profile assessment. International Journal of Adult Orthodontics and Orthognathic Surgery, 1993. 8(2): p. 95-112. 11. C Tulloch, C Phillips, and C Dann, Cephalometric measures as indicators of facial attractiveness. International Journal of Adult Orthodontics and Orthognathic Surgery, 1993. 8(3): p. 171-179. 12. M Hönn and G Göz, The ideal of facial beauty: a review. Journal of Orofacial Orthopedics, 2007. 68(1): p. 6-16. 13. S Matoula and H Pancherz, Skeletofacial morphology of attractive and nonattractive faces. Angle Orthodontist, 2006. 76(2): p. 204-210. 14. LF Andrews, The six elements of orofacial harmony. Andrews Journal of Orthodontics and Orofacial Harmony, 2000. 1: p. 13-22. 15. WA Andrews, AP relationship of the maxillary central incisors to the forehead in adult white females. Angle Orthodontist, 2008. 78(4): p. 662-669. 16. MJ Carruitero, XM Ambrosio-Vallejos, and C Flores-Mir, Glabellar vertical line as a reference goal for anteroposterior maxillary position. Dental Press Journal of Orthodontics, 2019. 24(03): p. 45. e1-45. e5. 17. MP Gidaly, et al., Optimal antero-posterior position of the maxillary central incisors and its relationship to the forehead in adult African American females. Angle Orthodontist, 2019. 89(1): p. 123-128. 18. WK Darkwah, et al., Cephalometric study of the relationship between facial morphology and ethnicity. Translational Research in Anatomy, 2018. 12: p. 20-24. 19. Y Gu, et al., Comparison of craniofacial characteristics of typical Chinese and Caucasian young adults. European Journal of Orthodontics, 2011. 33(2): p. 205-211. 20. HS Hwang, WS Kim, and JA McNamara, Jr., Ethnic differences in the soft tissue profile of Korean and European-American adults with normal occlusions and well-balanced faces. Angle Orthodontist, 2002. 72(1): p. 72-80. 21. JHH Ng, et al., The reliability of analytical reference lines for determining esthetically pleasing lip position: An assessment of consistency, sensitivity, and specificity. American Journal of Orthodontics and Dentofacial Orthopedics, 2023. 164(1): p. e14-e26. 22. AP Siddiqui, R Nazir, and A Mahmood, Effect of sagittal position of maxilla and maxillary incisors inclination on the position of the upper lip. Pakistan Orthodontic Journal, 2017. 9(1): p. 8-14. 23. P Paryani, et al., Correlation between Nasolabial Angle and Maxillary Incisors Inclination in 18–25-Year-Old Chhattisgarh Population Using Pre-and Post-Treatment Lateral Cephalograms: A Retrospective Study. Indian Journal of Dental Research, 2023. 34(4): p. 413-416. 24. A Ashraf, H Khan, and N Iqbal, Correlation of nasolabial angle with maxillary incisor inclination and upper lip thickness. Pakistan Oral and Dental Journal, 2018. 38(3): p. 317-319. 25. TE Glovsky, et al., Orthognathic surgery effects on temporomandibular joint compressive stresses. Orthodontics and Craniofacial Research, 2023. 26 Suppl 1: p. 142-150. 26. XJ Wang, YM Zhang, and YH Zhou, Orthodontic orthognathic treatment stability in skeletal class III malocclusion patients. Beijing Da Xue Xue Bao Yi Xue Ban, 2019. 51(1): p. 86-92. 27. SD Yang and CH Suhr, F-H to AB plane angle (FABA) for assessment of anteroposterior jaw relationships. Angle Orthodontist, 1995. 65(3): p. 223-31; discussion 232. 28. F Lundström and A Lundström, Natural head position as a basis for cephalometric analysis. American Journal of Orthodontics and Dentofacial Orthopedics, 1992. 101(3): p. 244-247. 29. A Lundström, et al., Natural head position and natural head orientation: basic considerations in cephalometric analysis and research. European Journal of Orthodontics, 1995. 17(2): p. 111-120. 30. Al Barbera, WJ Sampson, and GC Townsend, Variation in natural head position and establishing corrected head position. Homo, 2014. 65(3): p. 187-200. 31. Al Barbera, WJ Sampson, and GC Townsend, An evaluation of head position and craniofacial reference line variation. Homo, 2009. 60(1): p. 1-28. 32. F Hernández-Alfaro, et al., Variation between natural head orientation and Frankfort horizontal planes in orthognathic surgery patients: 187 consecutive cases. International Journal of Oral and Maxillofacial Surgery, 2021. 50(9): p. 1226-1232. 33. DJ Halazonetis, Estimated natural head position and facial morphology. American Journal of Orthodontics and Dentofacial Orthopedics, 2002. 121(4): p. 364-368. 34. TID Santos, et al., Reproducibility of a three-dimensional skeletal-based craniofacial orientation method for virtual surgical planning. British Journal of Oral and Maxillofacial Surgery, 2022. 60(6): p. 823-829. 35. GN Hughes, et al., There is variability in our perception of the standard head orientation. International Journal of Oral and Maxillofacial Surgery, 2017. 46(11): p. 1512-1516. 36. PH Sutton, et al., Both the observer's expertise and the subject's facial symmetry can affect anatomical position of the head. Journal of Oral and Maxillofacial Surgery, 2019. 77(2): p. 406. e1-406. e9. 37. D Cho, et al., Changes in natural head position after orthognathic surgery in skeletal Class III patients. American Journal of Orthodontics and Dentofacial Orthopedics, 2015. 147(6): p. 747-754. 38. Y Yang, et al., Vertical Line through the Glabella Point as the Optimized Reference Line of Ideal Maxillary Sagittal Position During Orthognathic Surgery Planning for Chinese Adult Skeletal Malocclusion Patients: A Case-Control Study. 2023. 39. L Cao, et al., Effect of maxillary incisor labiolingual inclination and anteroposterior position on smiling profile esthetics. Angle Orthodontist, 2011. 81(1): p. 121-129. 40. F Hernández-Alfaro, et al., Barcelona line. A multicentre validation study of a facial projection reference in orthognathic surgery. British Journal of Oral and Maxillofacial Surgery, 2023. 61(1): p. 3-11. 41. MK Lee, O Sakai, and JH Spiegel, CT measurement of the frontal sinus - gender differences and implications for frontal cranioplasty. Journal of Cranio-Maxillofacial Surgery, 2010. 38(7): p. 494-500. 42. AH Ningtyas, R Widyaningrum, and RR Shantiningsih, Sex estimation using angular measurements of nasion, sella, and glabella on lateral cephalogram among Indonesian adults in Yogyakarta. Egyptian Journal of Forensic Sciences, 2023. 13(48). | - |
| dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/100226 | - |
| dc.description.abstract | 顏面協調性的評估對於齒顎矯正與正顎手術的治療規劃具有關鍵性的影響,其中上顎與上門牙的前後位置(antero-posterior position, AP position)為重要參考指標。許多學者提出各種方法來決定上顎的前後位置,包括以中臉部和嘴唇的相對關係(E line, S line, B line)或是額頭輪廓的定位點(glabella, nasion)來作為決定上顎前後位置的參考。然而這些方法的準確性與臨床實用性仍具爭議。此外,目前常用之分析方法多源自歐美族群,對於台灣華人的適用性尚待驗證。
本研究旨在探討台灣華裔成人中,額頭與上門牙間是否存在穩定的前後關係,並比較不同參考平面:法蘭克福平面(Frankfurt horizontal plane, FH plane)與自然頭導向位(natural head orientation, NHO),及不同軟組織定位點,軟組織眉間(soft tissue glabella, STG)與軟組織鼻根(soft tissue nasion, STN),於正顎手術規劃之應用潛力。本研究分為三個部分,第一部分針對上顎與上門牙位於前後位置合宜的病人,共收案30位台灣華裔成人(15男15女),收案後蒐集其X光與臨床側臉照,利用2D軟體以額頭至鼻尖輪廓對齊,調整至NHO,並匯入Dolphin軟體標記標誌點,同時在NHO及FH plane下量測上顎正中門牙(U0)至軟組織眉間垂直線(soft tissue glabella vertical, STGv)與軟組織鼻根垂直線(soft tissue nasion vertical, STNv)在水平面的距離。第二與第三部分則收案上顎明顯前突或後縮病人各30位,方法類似,但僅在NHO進行分析。研究結果顯示,在NHO上所建立的兩條垂直參考線:STGv與STNv,皆能有效區分前後位置合宜的上顎,與過度前突或後縮上顎間的差別,其中上門牙與軟組織眉間垂直線的距離(U0-STGv)相較於上門牙與軟組織鼻根垂直線的距離(U0-STNv)具更高之診斷準確性與一致性。在上顎前後位置合宜的組別,男女平均U0-STGv=-5.4 mm,男生平均U0-STGv=-6.0 mm,女生平均STGv=-4.8 mm。以STNv為參考線的話,男女平均U0-STNv都很接近-0.9mm。研究同時分析了U0-STGv和U0-STNv在區分上顎合宜、前突與後縮狀態時的臨界值,提供具體且量化的數據,作為正顎治療規劃的參考。區分上顎前突和上顎前後位置合宜的臨界值,男女平均為U0-STGv=-3.05 mm、U0-STNv=1.85 mm。女性平均為U0-STGv=-2.2 mm、U0-STNv=3.9 mm。男性平均為U0-STGv=-3.3 mm、U0-STNv=1.85 mm。區分上顎後縮和上顎前後位置合宜的臨界值,男女平均為U0-STGv=-7.4 mm、U0-STNv=-2.1 mm。女性平均為U0-STGv=-6.2 mm、U0-STNv=1.8 mm。男性平均為U0-STGv=-8.9 mm、U0-STNv=-5.0 mm。建議未來擴大樣本規模並結合三維影像進行驗證與補強,以提升其準確性與臨床可用性。 | zh_TW |
| dc.description.abstract | Assessment of facial harmony plays a critical role in the treatment planning of orthodontic and orthognathic procedures, with the antero-posterior (AP) position of the maxilla and upper incisors being a key diagnostic parameter. Various methods have been proposed to determine the AP position of the maxilla, including those based on the relative position of the midface and lips (e.g., E-line, S-line, B-line) or forehead-based landmarks (e.g., glabella, nasion). However, there are concerns regarding the accuracy and clinical applicability of these approaches. Moreover, many of these methods are developed from Western populations, and their relevance to Taiwanese individuals remains to be validated.
This study aimed to investigate whether a stable AP relationship exists between the forehead and upper incisors in Taiwanese adults. We also evaluated the clinical utility of different reference planes, the Frankfurt horizontal (FH) plane and natural head orientation (NHO), and various soft tissue landmarks, soft tissue glabella (STG) and soft tissue nasion (STN), for orthognathic treatment planning. This study included three parts. The first part analyzed 30 Taiwanese adults with ideal AP maxillary positions. Lateral cephalograms and profile photos were aligned to NHO, then analyzed using Dolphin software. The horizontal distances from the upper incisor tip (U0) to soft tissue glabella vertical (STGv) and soft tissue nasion vertical (STNv) were measured under both NHO and FH plane. The second and third parts used the same method for patients with maxillary protrusion or retrusion 30 patients with retruded maxilla but analyzed only under NHO. Results demonstrated that two vertical reference lines established under NHO, STGv and STNv, can effectively distinguish between optimal, protrusive, and retrusive maxillary positions. Among them, the distance from the upper incisor to STGv (U0-STGv) showed superior diagnostic accuracy and consistency compared to the distance from the upper incisor to STNv (U0-STNv). In the group with optimal maxillary position, the mean U0-STGv distance was –5.4 mm, with males averaging –6.0 mm and females –4.8 mm. Using STNv as the reference, the mean U0-STNv distance was close to–0.9 mm for both genders. The study also identified threshold values for U0-STGv and U0-STNv in the differentiation between optimal, protrusive and retrusive maxillary positions, providing quantitative and specific references for orthognathic treatment planning. The threshold values distinguishing maxillary protrusion from optimal AP position were, on average, U0-STGv = –3.05 mm and U0-STNv = 1.85 mm for both genders. For females, the thresholds were U0-STGv = –2.2 mm and U0-STNv = 3.9 mm; for males, U0-STGv = –3.3 mm and U0-STNv = 1.85 mm. To differentiate maxillary retrusion from optimal AP position, the mean thresholds were U0-STGv = –7.4 mm and U0-STNv = –2.1 mm for both genders. Specifically, females had thresholds of U0-STGv = –6.2 mm and U0-STNv = 1.8 mm, while males had U0-STGv = –8.9 mm and U0-STNv = –5.0 mm. Further research with larger sample sizes and incorporation of three-dimensional imaging is required to enhance the accuracy and clinical applicability of these findings. | en |
| dc.description.provenance | Submitted by admin ntu (admin@lib.ntu.edu.tw) on 2025-09-30T16:04:50Z No. of bitstreams: 0 | en |
| dc.description.provenance | Made available in DSpace on 2025-09-30T16:04:50Z (GMT). No. of bitstreams: 0 | en |
| dc.description.tableofcontents | Content
Acknowledgement i 中文摘要 ii Abstract iv Content vii List of Figures xi List of Tables xiv Chapter 1 Introduction 1 1.1 Facial harmony 1 1.2 Andrews’ Analysis 2 1.3 Glabella vertical 4 1.4 Studies in Asian populations 6 1.5 Limitations of the previous studies 8 1.6 Determining the orientation of the head 10 1.7 The aims of the study 15 Chapter 2 Hypothesis and Specific Aims 16 2.1 Null hypothesis 16 2.2 Specific aims 17 Chapter 3 Materials and Methods 18 3.1 Participant selection and cephalometric data acquisition 18 3.2 Statistical analysis 21 3.2.1 Intrapersonal & interpersonal calibration 21 3.2.2 Comparison of U0-STGv and U0-STNv between the references of NHO and FH plane 22 3.2.3 Comparison of U0-STGv and U0-STNv between the groups with normal, protruded, and retruded maxilla 23 3.2.3 Comparison of incisor axis between the groups with protruded and retruded maxilla 24 3.2.4 Receiver operating characteristic (ROC) curve analysis 25 3.2.5 Optimal cut-off selection using Youden’s Index 27 3.2.6 Comparison of U0-STGv and U0-STNv between females and males 28 Chapter 4 Results 29 4.1 Intrapersonal & Interpersonal reliability (Table 3-1, Table 3-2) 29 4.1.1 Intrapersonal reliability 30 4.1.2 Interpersonal reliability 31 4.1.3 Overall reliability 32 4.2 Comparison of U0-STGv and U0-STNv between references of NHO and FH plane 33 4.3 Comparison of U0-STGv and U0-STNv between the groups with normal, protruded, and retruded maxilla and upper incisors in AP directions (Table 7) 35 4.3.1 Descriptive statistics 35 4.3.2 Normality testing (Table 8) 37 4.3.3 Kruskal-Wallis test (Figure 11, 12) 38 4.3.4 Pairwise comparisons (Table 9, 10) 39 4.3.5 Comparison of Incisor axis (Table X) 41 4.3.5 ROC curve analysis and cut-off selection 42 4.4 Comparison of U0-STGv and U0-STNv between females and males 55 4.4.1 Normality test (Table 17) 55 4.4.2 Independent t-test (Table 18-1, 18-2) 56 Chapter 5 Discussions 58 5.1 The influences of head orientation and reference frame: NHO versus FH plane 58 5.2 The AP-position of upper incisor edge in different patient groups: with normal, protruded, and retruded maxilla 60 5.3 Comparison between females and males 67 Chapter 6 Conclusions 69 Chapter 7 References 71 Chapter 8 Figures 75 Chapter 9 Tables 103 | - |
| dc.language.iso | en | - |
| dc.subject | 上顎前後位置 | zh_TW |
| dc.subject | 自然頭導向位 | zh_TW |
| dc.subject | 軟組織眉間垂直線 | zh_TW |
| dc.subject | 軟組織鼻根垂直線 | zh_TW |
| dc.subject | 正顎手術規劃 | zh_TW |
| dc.subject | Upper incisor position | en |
| dc.subject | Soft tissue glabella vertical | en |
| dc.subject | Soft tissue nasion vertical | en |
| dc.subject | Orthognathic surgery planning | en |
| dc.subject | Maxillary antero-posterior position | en |
| dc.subject | Natural head orientation | en |
| dc.title | 台灣成年人上顎正中門牙與額頭標誌點間最佳前後位置關係之研究 | zh_TW |
| dc.title | Optimal Antero-Posterior Relationship Between Maxillary Central Incisors and Forehead Landmarks in Adult Taiwanese | en |
| dc.type | Thesis | - |
| dc.date.schoolyear | 113-2 | - |
| dc.description.degree | 碩士 | - |
| dc.contributor.oralexamcommittee | 李正喆;方致元 | zh_TW |
| dc.contributor.oralexamcommittee | Jang-Jaer Lee;Chih-Yuan Fang | en |
| dc.subject.keyword | 上顎前後位置,自然頭導向位,軟組織眉間垂直線,軟組織鼻根垂直線,正顎手術規劃, | zh_TW |
| dc.subject.keyword | Maxillary antero-posterior position,Natural head orientation,Soft tissue glabella vertical,Soft tissue nasion vertical,Upper incisor position,Orthognathic surgery planning, | en |
| dc.relation.page | 134 | - |
| dc.identifier.doi | 10.6342/NTU202501411 | - |
| dc.rights.note | 未授權 | - |
| dc.date.accepted | 2025-07-03 | - |
| 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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