牙体牙髓牙周病学杂志
牙體牙髓牙週病學雜誌
아체아수아주병학잡지
CHINESE JOURNAL OF CONSERVATIVE DENTISTRY
2015年
4期
229-233
,共5页
张大鹏%王书明%郑亚琪%孙冠阳%吴国锋
張大鵬%王書明%鄭亞琪%孫冠暘%吳國鋒
장대붕%왕서명%정아기%손관양%오국봉
上颌中切牙%牙冠%三维结构
上頜中切牙%牙冠%三維結構
상합중절아%아관%삼유결구
maxillary central incisor%crown%three-dimensional structure
目的:探索人上颌恒中切牙牙冠三维结构的建模方法,精确测量其釉质和牙本质解剖学参数。方法:选取牙冠形态、冠根比正常,无磨耗的西安地区人上颌恒中切牙30个,Micro CT扫描后,用Mimics和Geomagic Studio逆向工程软件重建上颌中切牙釉质帽、牙本质核和髓室三维模型,精确测量牙冠不同部位釉质和牙本质核的厚度以及近、远中髓角至各自切端和邻面的距离。结果:建立了人上颌中切牙釉质帽和牙本质核的三维模型,其厚度(mm)分别为:唇侧釉质(0.47±0.12)~(1.08±0.19),舌侧釉质(0.39±0.07)~(0.71±0.15);唇侧牙本质(0.46±0.09)~(2.17±0.48),舌侧牙本质(0.33±0.06)~(2.82±0.36),P"0.05;近中髓角至切端4.24±1.04,远中髓角至切端4.71±0.98;近中髓角至近中邻面2.09±0.26,远中髓角至远中邻面2.53±0.30,差异均有统计学意义(P"0.05)。结论:西安地区人上颌中切牙牙冠不同部位釉质帽和牙本质核厚度存在差异。
目的:探索人上頜恆中切牙牙冠三維結構的建模方法,精確測量其釉質和牙本質解剖學參數。方法:選取牙冠形態、冠根比正常,無磨耗的西安地區人上頜恆中切牙30箇,Micro CT掃描後,用Mimics和Geomagic Studio逆嚮工程軟件重建上頜中切牙釉質帽、牙本質覈和髓室三維模型,精確測量牙冠不同部位釉質和牙本質覈的厚度以及近、遠中髓角至各自切耑和鄰麵的距離。結果:建立瞭人上頜中切牙釉質帽和牙本質覈的三維模型,其厚度(mm)分彆為:脣側釉質(0.47±0.12)~(1.08±0.19),舌側釉質(0.39±0.07)~(0.71±0.15);脣側牙本質(0.46±0.09)~(2.17±0.48),舌側牙本質(0.33±0.06)~(2.82±0.36),P"0.05;近中髓角至切耑4.24±1.04,遠中髓角至切耑4.71±0.98;近中髓角至近中鄰麵2.09±0.26,遠中髓角至遠中鄰麵2.53±0.30,差異均有統計學意義(P"0.05)。結論:西安地區人上頜中切牙牙冠不同部位釉質帽和牙本質覈厚度存在差異。
목적:탐색인상합항중절아아관삼유결구적건모방법,정학측량기유질화아본질해부학삼수。방법:선취아관형태、관근비정상,무마모적서안지구인상합항중절아30개,Micro CT소묘후,용Mimics화Geomagic Studio역향공정연건중건상합중절아유질모、아본질핵화수실삼유모형,정학측량아관불동부위유질화아본질핵적후도이급근、원중수각지각자절단화린면적거리。결과:건립료인상합중절아유질모화아본질핵적삼유모형,기후도(mm)분별위:진측유질(0.47±0.12)~(1.08±0.19),설측유질(0.39±0.07)~(0.71±0.15);진측아본질(0.46±0.09)~(2.17±0.48),설측아본질(0.33±0.06)~(2.82±0.36),P"0.05;근중수각지절단4.24±1.04,원중수각지절단4.71±0.98;근중수각지근중린면2.09±0.26,원중수각지원중린면2.53±0.30,차이균유통계학의의(P"0.05)。결론:서안지구인상합중절아아관불동부위유질모화아본질핵후도존재차이。
AIM:To establish a 3-D structure model of human maxillary central incisor crown and to inves-tigate its anatomical parameters.METHODS:30 human maxillary central incisors from Xi'an area were elected at ran-dom,which had normal crown shape and no severe abrasion.All the teeth were scanned by Micro CT,and then recon-structed into the 3-D models,each 3-D model included 3 sub-models of the enamel cap,dentin core and pulp cham-ber.The reverse engineering software of Mimics and Geomagic Studio was applied to measure the thickness of different sites of sub-models.RESULTS:The fine 3-Dmodel of human maxillary central incisor crowns was acquired.The thickness(mm)of the enamel cap and dentin core were as below:labial enamel,0.47 ±0.12-1.08 ±0.19;lingual en-amel,0.39 ±0.07-0.71 ±0.15;labial dentin,0.46 ±0.09 -2.17 ±0.48;lingual dentin,0.33 ±0.06 -2.82 ± 0.36,P"0.05.The distances(mm)between the pulp chamber and enamel surface were as following:from mesial medullary angle to incisal edge,4.24 ±1.04;distal medullary angle to incisal,4.71 ±0.98;mesial medullary angle to mesial adjacent surface,2.09 ±0.26;distal medullary angle to distal adjacent surface,2.53 ±0.30,P"0.05. CONCLUSION:This study proved the obvious variances in the thickness of enamel cap and dentin core in different sites of the human maxillary central incisor crowns in Xi'an area.
