Guyomarc'h Pierre, Dutailly Bruno, Couture Christine, Coqueugniot Hélène
Université Bordeaux 1, UMR 5199-PACEA, Anthropologie des Populations Passées et Présentes (A3P), Talence, France.
J Forensic Sci. 2012 Sep;57(5):1271-5. doi: 10.1111/j.1556-4029.2012.02075.x. Epub 2012 Mar 5.
Accuracy of forensic facial approximation and superimposition techniques relies on the knowledge of anatomical correlations between soft and hard tissues. Recent studies by Stephan and collaborators (6,8,10) reviewed traditional guidelines leading to a wrong placement of the eyeball in the orbit. As those statements are based on a small cadaver sample, we propose a validation of these findings on a large database (n = 375) of living people. Computed tomography scans of known age and sex subjects were used to collect landmarks on three-dimensional surfaces and DICOM with TIVMI. Results confirmed a more superior and lateral position of the eyeball relatively to the orbital rims. Orbital height and breadth were used to compute regression formulae and proportional placement using percentages to find the most probable position of the eyeball in the orbit. A size-related sexual dimorphism was present but did not impact on the prediction accuracy.
法医面部复原和叠加技术的准确性依赖于软组织和硬组织之间解剖学关联的知识。斯蒂芬及其合作者最近的研究(6,8,10)回顾了导致眼球在眼眶中错误定位的传统指南。由于这些陈述基于少量尸体样本,我们建议在一个由375名活体人员组成的大型数据库上对这些发现进行验证。使用已知年龄和性别的受试者的计算机断层扫描来收集三维表面上的标志点,并通过TIVMI使用DICOM。结果证实,相对于眶缘,眼球的位置更靠上且更靠外侧。使用眼眶高度和宽度来计算回归公式,并使用百分比进行比例定位,以找到眼球在眼眶中最可能的位置。存在与大小相关的性别二态性,但这并未影响预测准确性。
