初步选定的测量项目有四部分136项,颅颌面硬组织立体形态图具有能多方向观察、光滑、透视感强等特点。
Four parts items consisting of 136 items are selected first and 3-D perspective curving illustrations may be rotated for viewing in all directions.
结论:该模型可用于颅颌面硬组织在正中矢状面上的形态特征及因生长、正畸矫治、正颌手术引起的形态变化研究。
Conclusions:This model may be applied for the study of morphologic characteristics and changes induced by growth, orthodontic treatment and orthognathic operation on middle sagittal plane.
本文介绍了一种用于颅颌面硬组织三维形态分析的新方法。
The paper presents a new method for analysing 3-d morphology of craniofacial hard - tissue.
提示通过这套数字医学系统,可实现颅颌面骨形态结构生物材料的三维仿真,为下颌骨骨缺损的精确修复打下基础。
This pilot study suggests that custom-made PGA/PLA scaffolds could accurately reconstruct craniomaxillofacial bone injuries by our digital medical support system.
提示通过这套数字医学系统,可实现颅颌面骨形态结构生物材料的三维仿真,为下颌骨骨缺损的精确修复打下基础。
This pilot study suggests that custom-made PGA/PLA scaffolds could accurately reconstruct craniomaxillofacial bone injuries by our digital medical support system.
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