I O Ayupova, A Yu Makhota, A V Kolsanov, N V Popov, M A Davidyuk, I A Nekrasov, P A Romanova, A M Khamadeeva
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引用次数: 0
Abstract
The aim of the study was a systematic review of modern methods of three-dimensional cephalometric analysis, and the assessment of their efficiency. The scientific papers describing modern diagnostic methods of MFA in dental practice were searched in databases PubMed, Web of Science, eLIBRARY.RU, as well as in a searching system Google Scholar by the following key words: three-dimensional cephalometry, three-dimensional cephalometric analysis, orthodontics, asymmetric deformities, maxillofacial anomalies, 3D cephalometry, CBCT. The literature analysis showed many methods of cephalometric analysis described as three-dimensional to use two-dimensional reformates for measurements. True three-dimensional methods are not applicable for practical purposes due to the fragmentary nature of the studies. There is the disunity in choosing landmarks and supporting planes that makes the diagnosis difficult and costly. The major issue is the lack of uniform standards for tree-dimensional measurements of anatomical structures of the skull, and the data revealed can be compared to them. In this regard, the use of artificial neuron networks and in-depth study technologies to process three-dimensional images and determining standard indicators appear to be promising.
该研究的目的是一个系统的回顾三维头测量分析的现代方法,并评估其效率。在PubMed、Web of Science、eLIBRARY等数据库中检索描述牙科临床MFA现代诊断方法的科学论文。RU,以及在谷歌Scholar检索系统中通过以下关键词:三维头测,三维头测分析,正畸,不对称畸形,颌面畸形,三维头测,CBCT。文献分析表明,许多头测量分析方法被描述为三维,使用二维格式进行测量。由于研究的碎片性,真正的三维方法并不适用于实际目的。在选择地标和支持飞机方面存在不统一,这使得诊断变得困难和昂贵。主要的问题是对颅骨解剖结构的三维测量缺乏统一的标准,而揭示的数据可以与它们进行比较。在这方面,使用人工神经元网络和深入研究技术来处理三维图像和确定标准指标似乎是有希望的。
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