解放军医药杂志
解放軍醫藥雜誌
해방군의약잡지
MEDICAL&PHARMACEUTICAL JOURNAL OF CHINESE PEOPLE'S LIBERATION ARMY
2014年
8期
70-73
,共4页
陈磊%廉云敏%张英怀%高岚%王璞%怀海丽
陳磊%廉雲敏%張英懷%高嵐%王璞%懷海麗
진뢰%렴운민%장영부%고람%왕박%부해려
义齿,植入物支持%牙槽嵴增高术%计算机辅助设计%计算机辅助制造%快速成型技术%个体化钛网%固定钉
義齒,植入物支持%牙槽嵴增高術%計算機輔助設計%計算機輔助製造%快速成型技術%箇體化鈦網%固定釘
의치,식입물지지%아조척증고술%계산궤보조설계%계산궤보조제조%쾌속성형기술%개체화태망%고정정
Dentures,implant-supported%Alveolar ridge augmentation%Computer-aided design%Computer-as-sisted manufacturing%Rapid prototyping technique%Individual titanium mesh%Fixing screw
目的:探讨用于引导骨组织再生技术( GBR)的计算机辅助设计和制作的个体化三维钛网固定钉的植入精度。方法选择9个尸体颌骨标本,采用锥形束CT( CBCT)获取颌骨三维影像数据,蓝光光栅三维扫描仪重建数字牙弓模型。运用计算机技术和快速成型技术设计并制作个体化三维钛网、钛网的定位装置、钛网固定钉的植入导板。将钛网定位于尸体颌骨,采用导板引导固定钉植入并固定钛网。采用Guidemia软件将术后CBCT颌骨数据与术前数据配准,评价虚拟设计与实际植入固定钉的三维精度的差异。结果本研究为9个尸体颌骨标本共制作15个个体化三维钛网,共植入64颗固定钉。个体化三维钛网的实际固定钉和虚拟固定钉在上、下颌之间的偏移差异无统计学意义(P>0.05),固定钉中轴线在颈部、根端的线性偏移距离为(0.89±0.28)、(1.41±0.21)mm,角度偏移量为(1.92±0.31)°。结论个体化三维钛网固定钉的植入精度与既往研究报道的口腔种植规划软件种植体的植入精度相似,该技术能够满足临床要求。
目的:探討用于引導骨組織再生技術( GBR)的計算機輔助設計和製作的箇體化三維鈦網固定釘的植入精度。方法選擇9箇尸體頜骨標本,採用錐形束CT( CBCT)穫取頜骨三維影像數據,藍光光柵三維掃描儀重建數字牙弓模型。運用計算機技術和快速成型技術設計併製作箇體化三維鈦網、鈦網的定位裝置、鈦網固定釘的植入導闆。將鈦網定位于尸體頜骨,採用導闆引導固定釘植入併固定鈦網。採用Guidemia軟件將術後CBCT頜骨數據與術前數據配準,評價虛擬設計與實際植入固定釘的三維精度的差異。結果本研究為9箇尸體頜骨標本共製作15箇箇體化三維鈦網,共植入64顆固定釘。箇體化三維鈦網的實際固定釘和虛擬固定釘在上、下頜之間的偏移差異無統計學意義(P>0.05),固定釘中軸線在頸部、根耑的線性偏移距離為(0.89±0.28)、(1.41±0.21)mm,角度偏移量為(1.92±0.31)°。結論箇體化三維鈦網固定釘的植入精度與既往研究報道的口腔種植規劃軟件種植體的植入精度相似,該技術能夠滿足臨床要求。
목적:탐토용우인도골조직재생기술( GBR)적계산궤보조설계화제작적개체화삼유태망고정정적식입정도。방법선택9개시체합골표본,채용추형속CT( CBCT)획취합골삼유영상수거,람광광책삼유소묘의중건수자아궁모형。운용계산궤기술화쾌속성형기술설계병제작개체화삼유태망、태망적정위장치、태망고정정적식입도판。장태망정위우시체합골,채용도판인도고정정식입병고정태망。채용Guidemia연건장술후CBCT합골수거여술전수거배준,평개허의설계여실제식입고정정적삼유정도적차이。결과본연구위9개시체합골표본공제작15개개체화삼유태망,공식입64과고정정。개체화삼유태망적실제고정정화허의고정정재상、하합지간적편이차이무통계학의의(P>0.05),고정정중축선재경부、근단적선성편이거리위(0.89±0.28)、(1.41±0.21)mm,각도편이량위(1.92±0.31)°。결론개체화삼유태망고정정적식입정도여기왕연구보도적구강충식규화연건충식체적식입정도상사,해기술능구만족림상요구。
Objective To evaluate the accuracy of fixing screws for individual titanium mesh fabricated with computer-aided design-computer-assisted manufacturing ( CAD-CAM ) technique. Methods Jaw samples were taken from 9 human cadavers, and the 3-dimensional image data was obtained with cone-beam CT ( CBCT) , and the digital dental arch models were rebuilt using blue-light raster of triplex scanner. Individual 3-dimensional titanium mesh, loca-ting device for titanium mesh and surgical template for fixing screws were designed and fabricated using the CAD software and rapid prototyping technique. The mesh was fixed in the cadaver using surgical template guidance of fixed screws. The Guidemia software was used to match images of the planned and placed fixing screws, and the deviation of the 3-dimen-sional accuracy between planned and placed position was evaluated. Results A total of 15 individual meshes were fabri-cated, and 64 fixing screws were implanted. The deviations between planned and placed position in upper and lower man-dibles were not statistically significant (P>0. 05), and the mean linear deviation was (0. 89 ± 0. 28)mm at the fixing screw neck and (1. 41 ± 0. 21) mm at the fixing screw apex compared with those of the planned fixing screws, and the mean angular deviation was (1. 92 ± 0. 31)°. Conclusion The individual 3-dimensional titanium mesh with locating de-vice and surgical template for fixing screws is equally accurate in implantation, compared with oral cavity implanting soft-ware.
