Niño-Sandoval Tania Camila, Guevara Pérez Sonia V, González Fabio A, Jaque Robinson Andrés, Infante-Contreras Clementina
Universidad Nacional de Colombia - Bogotá, Faculty of Dentistry, Oral Health Department, Master of Dentistry, Craniofacial Growth and Development Research Group, Genetics Institute, Cll 53-Cra. 37 Ed. 426 Of. 213, Bogotá, Colombia.
Universidad Nacional de Colombia - Sede Bogotá, Faculty of Dentistry, Oral Health Department-Orthodontics, Craniofacial Growth and Development Research Group, 11001 Bogotá, Colombia.
Forensic Sci Int. 2017 Dec;281:187.e1-187.e7. doi: 10.1016/j.forsciint.2017.10.004. Epub 2017 Oct 12.
The prediction of the mandibular bone morphology in facial reconstruction for forensic purposes is usually performed considering a straight profile corresponding to skeletal class I, with application of linear and parametric analysis which limit the search for relationships between mandibular and craniomaxillary variables.
To predict the mandibular morphology through craniomaxillary variables on lateral radiographs in patients with skeletal class I, II and III, using automated learning techniques, such as Artificial Neural Networks and Support Vector Regression.
229 standardized lateral radiographs from Colombian patients of both sexes aged 18-25 years were collected. Coordinates of craniofacial landmarks were used to create mandibular and craniomaxillary variables. Mandibular measurements were selected to be predicted from 5 sets of craniomaxillary variables or input characteristics by using automated learning techniques, and they were evaluated through a correlation coefficient by a ridge regression between the real value and the predicted value.
Coefficients from 0.84 until 0.99 were obtained with Artificial Neural Networks in the 17 mandibular measures, and two coefficients above 0.7 were obtained with the Support Vector Regression.
The craniomaxillary variables used, showed a high predictability ability of the selected mandibular variables, this may be the key to facial reconstruction from specific craniomaxillary measures in the three skeletal classifications.
在法医学面部重建中,下颌骨形态的预测通常是基于对应骨骼I类的直面型进行的,采用线性和参数分析,这限制了对下颌骨与颅上颌变量之间关系的探索。
利用人工神经网络和支持向量回归等自动学习技术,通过颅上颌变量预测骨骼I类、II类和III类患者侧位片上的下颌形态。
收集了229例年龄在18 - 25岁的哥伦比亚男女患者的标准化侧位片。使用颅面标志点的坐标来创建下颌骨和颅上颌变量。通过自动学习技术从5组颅上颌变量或输入特征中选择要预测的下颌测量值,并通过实际值与预测值之间的岭回归相关系数进行评估。
人工神经网络在17项下颌测量中获得了0.84至0.99的系数,支持向量回归获得了两个高于0.7的系数。
所使用的颅上颌变量对所选下颌变量具有较高的预测能力,这可能是从三种骨骼分类中的特定颅上颌测量值进行面部重建的关键。
