利用上颌同源模型进行法医鉴定的新方法。

IF 1.9 4区医学 Q2 DENTISTRY, ORAL SURGERY & MEDICINE

Journal of oral science Pub Date : 2025-01-01 DOI:10.2334/josnusd.24-0332

Isuruni Kuruppuarachchige, Upul Cooray, Toshihiko Suzuki, Moe Kosaka, Yuka Hatano

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引用次数: 0

摘要

目的：随着三维（3D）口腔内扫描在现代牙科中越来越流行，它们也为法医鉴定提供了一种新的死亡数据。本研究提出了一种基于上颌骨三维同源模型的个体识别新方法。方法：使用100例上颌石膏模型，其中同卵双生体模型40例，异卵双生体模型28例，单卵双生体模型32例。从最初的样本中，随机选择10个铸型，重复4次，得到40个重复铸型。这些被分成四组，并受到以下改变：磨牙磨损（n = 10），犬齿磨损（n = 10），磨牙和犬齿磨损（n = 10），没有改变（n = 10）。将所有模型转换为3D模型，然后使用具有24个地标的模板转换为同源模型。然后计算同源模型中每个顶点的三维坐标，并使用平均Hausdorff距离统计比较两个给定的同源模型之间的相似性。结果：四组患者均获得了与上颌铸型的准确匹配，且平均Hausdorff距离最小。结论：该方法对包括同卵双胞胎在内的个体进行了准确的鉴定，并且对轻微的牙齿磨损具有稳健性，证明了该方法在实际法医环境中作为鉴定方法的可行性。

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Novel approach for forensic dental identification using maxillary homologous models.

Purpose: As three-dimensional (3D) intraoral scans are becoming popular in modern dentistry, they also offer a new category of antemortem data for forensic identification. This study proposes a novel methodology for individual identification based on 3D homologous models of the maxilla.

Methods: Data from 100 maxillary plaster casts (40 monozygotic twin casts, 28 dizygotic twin casts and 32 singleton casts) were used. From the initial sample, 10 casts were randomly chosen and duplicated four times, resulting in 40 duplicates. These were divided into four groups and subjected to the following alterations: molar attrition (n = 10), canine attrition (n = 10), molar and canine attrition (n = 10), and no alteration (n = 10). All the casts were converted to 3D models and then to homologous models using a template with 24 landmarks. The 3D coordinates of each vertex in the homologous model were then calculated and used for statistical comparison of similarity between two given homologous models using the average Hausdorff distance.

Results: All four groups achieved accurate matching with their original maxillary casts, with a minimal average Hausdorff distance.

Conclusion: This method accurately identified individuals, including monozygotic twins, and exhibited robustness against minor tooth attrition, demonstrating its feasibility as an identification method in actual forensic settings.

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来源期刊

Journal of oral science DENTISTRY, ORAL SURGERY & MEDICINE-MATERIALS SCIENCE, BIOMATERIALS

CiteScore

3.80

自引率

0.00%

发文量

期刊介绍： Information not localized