[安氏I类磨牙关系中虚拟咬合定义准确性的评估]
[Evaluation of accuracy of virtual occlusal definition in Angle class I molar relationship].
作者信息
Wu L, Liu X J, Li Z L, Wang X
机构信息
Department of Maxillofacial Surgery, Peking University School and Hospital of Stomatology & National Engineering Laboratory for Digital and Material Technology of Stomatology & Beijing Key Laboratory of Digital Stomatology, Beijing 100081, China.
出版信息
Beijing Da Xue Xue Bao Yi Xue Ban. 2018 Feb 18;50(1):154-159.
OBJECTIVE
To evaluate the accuracy of virtual occlusal definition in non-Angle class I molar relationship, and to evaluate the clinical feasibility.
METHODS
Twenty pairs of models of orthognathic patients were included in this study. The inclusion criteria were: (1) finished with pre-surgical orthodontic treatment and (2) stable final occlusion. The exclusion criteria were: (1) existence of distorted teeth, (2) needs for segmentation, (3) defect of dentition except for orthodontic extraction ones, and (4) existence of tooth space. The tooth-extracted test group included 10 models with two premolars extracted during preoperative orthodontic treatment. Their molar relationships were not Angle class I relationship. The non-tooth-extracted test group included another 10 models without teeth extracted, therefore their molar relationships were Angle class I. To define the final occlusion in virtual environment, two steps were included: (1) The morphology data of upper and lower dentition were digitalized by surface scanner (Smart Optics/Activity 102; Model-Tray GmbH, Hamburg, Germany); (2) the virtual relationships were defined using 3Shape software. The control standard of final occlusion was manually defined using gypsum models and then digitalized by surface scanner. The final occlusion of test group and control standard were overlapped according to lower dentition morphology. Errors were evaluated by calculating the distance between the corresponding reference points of testing group and control standard locations.
RESULTS
The overall errors for upper dentition between test group and control standard location were (0.51±0.18) mm in non-tooth-extracted test group and (0.60±0.36) mm in tooth-extracted test group. The errors were significantly different between these two test groups (P<0.05). However, in both test groups, the errors of each tooth in a single dentition does not differ from one another. There was no significant difference between errors in tooth-extracted test group and 1 mm (P>0.05); and the accuracy of non-tooth-extracted group was significantly smaller than 1 mm (P<0.05).
CONCLUSION
The error of virtual occlusal definition of none class I molar relationship is higher than that of class I relationship, with an accuracy of 1 mm. However, its accuracy is still feasible for clinical application.
目的
评估非安氏I类磨牙关系中虚拟咬合定义的准确性,并评估其临床可行性。
方法
本研究纳入20对正颌患者模型。纳入标准为:(1)完成术前正畸治疗;(2)最终咬合稳定。排除标准为:(1)存在牙齿扭曲;(2)需要分割;(3)除正畸拔牙外的牙列缺损;(4)存在牙间隙。拔牙试验组包括10个模型,这些模型在术前正畸治疗期间拔除了两颗前磨牙。它们的磨牙关系不是安氏I类关系。非拔牙试验组包括另外10个未拔牙的模型,因此它们的磨牙关系是安氏I类。为了在虚拟环境中定义最终咬合,包括两个步骤:(1)使用表面扫描仪(Smart Optics/Activity 102;Model-Tray GmbH,汉堡,德国)对上下牙列的形态数据进行数字化;(2)使用3Shape软件定义虚拟关系。最终咬合的对照标准使用石膏模型手动定义,然后通过表面扫描仪进行数字化。根据下牙列形态将试验组的最终咬合与对照标准进行重叠。通过计算试验组与对照标准位置的相应参考点之间的距离来评估误差。
结果
非拔牙试验组试验组与对照标准位置之间上牙列的总体误差为(0.51±0.18)mm,拔牙试验组为(0.60±0.36)mm。这两个试验组之间的误差有显著差异(P<0.05)。然而,在两个试验组中,单个牙列中每颗牙齿的误差彼此无差异。拔牙试验组的误差与1mm之间无显著差异(P>0.05);非拔牙组的准确性显著小于1mm(P<0.05)。
结论
非I类磨牙关系的虚拟咬合定义误差高于I类关系,准确性为1mm。然而,其准确性在临床应用中仍然可行。
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