中华口腔医学杂志
中華口腔醫學雜誌
중화구강의학잡지
Chinese Journal of Stomatology
2015年
10期
631-635
,共5页
侯瑜琳%赵一姣%王勇%王斯维%刘怡
侯瑜琳%趙一姣%王勇%王斯維%劉怡
후유림%조일교%왕용%왕사유%류이
锥束计算机体层摄影术%诊断,计算机辅助%正畸学,矫正%诊断性排牙
錐束計算機體層攝影術%診斷,計算機輔助%正畸學,矯正%診斷性排牙
추속계산궤체층섭영술%진단,계산궤보조%정기학,교정%진단성배아
Cone-beam computed tomography%Diagnosis,computer-assisted%Orthodontics,corrective%Diagnosis model set-up
目的 通过数字化技术模拟正畸诊断性排牙的牙根位置,探讨牙根信息在正畸诊断性排牙中的重要性.方法 选择安氏Ⅰ类减数和非减数患者各1例,激光扫描获得治疗前石膏模型牙冠表面三维数据,根据大视野锥形束CT数据,采用Mimics及Geomagic软件重建包含牙根的数字化模型Mo,冠根融合后各牙齿以STL格式独立保存.3名正畸医师和1名高年资正畸技师分别对治疗前石膏模型进行诊断性排牙,激光扫描排牙模型,以牙冠为重叠基准,将冠根融合后各牙齿分别重叠于排牙模型相应牙冠表面三维数据上,得到包含牙根的数字化排牙模型Ma、Mb、Mc、Md.同法构建治疗后数字化模型M.观察Ma~ Md牙根平行情况;以磨牙为重叠基准,分别将Ma ~ Md与Mo重叠,观察牙根外露情况;以磨牙为基准,将Ma~ Md分别与M重叠,通过距离偏差色阶图分析差异.结果 4名操作者对2例患者的8个排牙模型中均存在牙根不平行和多处牙根外露现象.排牙模型与治疗后数字化模型的上颌最大差异为8.79 mm,下颌最大差异为9.96 mm.结论 以牙冠为依据的诊断性排牙并不能避免牙根不平行以及牙根外露,将牙根纳入诊断性排牙过程并进行诊断设计非常必要.
目的 通過數字化技術模擬正畸診斷性排牙的牙根位置,探討牙根信息在正畸診斷性排牙中的重要性.方法 選擇安氏Ⅰ類減數和非減數患者各1例,激光掃描穫得治療前石膏模型牙冠錶麵三維數據,根據大視野錐形束CT數據,採用Mimics及Geomagic軟件重建包含牙根的數字化模型Mo,冠根融閤後各牙齒以STL格式獨立保存.3名正畸醫師和1名高年資正畸技師分彆對治療前石膏模型進行診斷性排牙,激光掃描排牙模型,以牙冠為重疊基準,將冠根融閤後各牙齒分彆重疊于排牙模型相應牙冠錶麵三維數據上,得到包含牙根的數字化排牙模型Ma、Mb、Mc、Md.同法構建治療後數字化模型M.觀察Ma~ Md牙根平行情況;以磨牙為重疊基準,分彆將Ma ~ Md與Mo重疊,觀察牙根外露情況;以磨牙為基準,將Ma~ Md分彆與M重疊,通過距離偏差色階圖分析差異.結果 4名操作者對2例患者的8箇排牙模型中均存在牙根不平行和多處牙根外露現象.排牙模型與治療後數字化模型的上頜最大差異為8.79 mm,下頜最大差異為9.96 mm.結論 以牙冠為依據的診斷性排牙併不能避免牙根不平行以及牙根外露,將牙根納入診斷性排牙過程併進行診斷設計非常必要.
목적 통과수자화기술모의정기진단성배아적아근위치,탐토아근신식재정기진단성배아중적중요성.방법 선택안씨Ⅰ류감수화비감수환자각1례,격광소묘획득치료전석고모형아관표면삼유수거,근거대시야추형속CT수거,채용Mimics급Geomagic연건중건포함아근적수자화모형Mo,관근융합후각아치이STL격식독립보존.3명정기의사화1명고년자정기기사분별대치료전석고모형진행진단성배아,격광소묘배아모형,이아관위중첩기준,장관근융합후각아치분별중첩우배아모형상응아관표면삼유수거상,득도포함아근적수자화배아모형Ma、Mb、Mc、Md.동법구건치료후수자화모형M.관찰Ma~ Md아근평행정황;이마아위중첩기준,분별장Ma ~ Md여Mo중첩,관찰아근외로정황;이마아위기준,장Ma~ Md분별여M중첩,통과거리편차색계도분석차이.결과 4명조작자대2례환자적8개배아모형중균존재아근불평행화다처아근외로현상.배아모형여치료후수자화모형적상합최대차이위8.79 mm,하합최대차이위9.96 mm.결론 이아관위의거적진단성배아병불능피면아근불평행이급아근외로,장아근납입진단성배아과정병진행진단설계비상필요.
Objective To investigate the importance of root information in diagnosis set-up by constructing three-dimensional(3D) digital models with individual anatomic roots.Methods Pretreatment cone-beam CT(CBCT) and laser scanning data were collected from two patients(extraction and non-extraction each) with skeletal Class Ⅰ malocclusion.Threshold segmentation of the CBCT was performed to generate a 3D digital model which has individually isolated tooth.This model and the scan model were superimposed to generate an integrated model(Mo) composed of high-resolution surface scan crowns sutured to the CBCT roots.Pretreatment dentition plaster model were made into set-up model.The diagnosis model set-up was performed successively by three orthodontists and one senior orthodontic technician.Set-up model scan of each patient after tooth alignment was obtained.The isolated composite teeth were individually superimposed onto the set-up model surface scan to creat set-up model(Ma,Mb,Mc,Md) containing root position.These isolated composite teeth were also superimposed onto the posttreatment surface scan depicting the posttreatment model(M).In order to observe whether diagnosis model set-up would cause exposure of the root,Ma-Md were compared with Mo,which showed the true positions of alveolus.In order to validate the accuracy of the expected root position setup,Ma-Md were compared with the true root position represented by M.Color displacement maps generated to measure the discrepancies of root positions.Results Nonparallel and exposure of the root was found in all setup models.Color displacement maps through molar superimpositions showed maximum differences of 8.79 mm for the maxillary teeth and 9.96 mm for the mandibular teeth.Conclusions Diagnosis model set-up based only on crown can not absolutely ensure the good alignment of roots without root exposure.It is necessary to construct the integrated model including root for diagnosis during tooth arrangement process.