三维立体摄影测量法（3dMD™）在耳廓人体测量中的精度及其在小耳畸形重建中的应用

Precision of three-dimensional stereo-photogrammetry (3dMD™) in anthropometry of the auricle and its application in microtia reconstruction.

作者信息

Chen Zung-Chung, Albdour Mohammad Nayef, Lizardo Jesus Ablaza, Chen Ying-An, Chen Philip Kuo-Ting

机构信息

Craniofacial Research Center, Division of Craniofacial Surgery, Department of Plastic and Reconstructive Surgery, Chang Gung Memorial Hospital, Chang Gung Medical College and University, Taoyuan, 333, Taiwan.

出版信息

J Plast Reconstr Aesthet Surg. 2015 May;68(5):622-31. doi: 10.1016/j.bjps.2015.02.020. Epub 2015 Mar 9.

DOI:10.1016/j.bjps.2015.02.020

PMID:25892285

Abstract

BACKGROUND

The advent of three-dimensional stereo-photogrammetry in recent years has vastly helped the craniomaxillofacial field improve in terms of preoperative and intraoperative decision making. With regard to the auricle though, there is paucity of research as to the application of this promising technology.

METHODS

A total of 20 normal adult ears were included in this study. Thirteen anthropometric measurements were taken, twice by two plastic surgeons using direct measurement (DM) and through images captured via 3dMD™. The purpose was to compare the reliability of measurements involving the two instruments.

RESULTS

The overall mean absolute differences (MADs) of all ear anthropometries of DM and 3dMD™ were 0.52 mm (range: 0.28-0.72 mm) and 0.27 mm (range: 0.15-0.53 mm), respectively, and the grand mean relative error magnitudes (REMs) were 2.85% (range: 1.01-5.99%) and 1.57% (range: 0.48-3.62%), respectively, across observers. Thus, the precision of all ear anthropometries across observers was high in both methods, but the precision of 3dMD was better than DM irrespective of observers. In addition, the MADs were less than a millimeter across all measurements.

CONCLUSION

The application of three-dimensional technology in microtia surgery for both template production and soft tissue analysis leads to improved planning and satisfactory results with fewer complications. We believe that with further refinement and enhancement, the use of this innovation will pave the way for prefabricated, individualized autologous or biocompatible alloplastic implantable frameworks based on an accurate mirror image of each patient's normal ear in unilateral cases and in bilateral cases, appropriately sized.

摘要

背景

近年来，三维立体摄影测量技术的出现极大地促进了颅颌面领域在术前和术中决策方面的发展。然而，关于该技术在耳廓方面的应用，相关研究较少。

方法

本研究共纳入20只正常成人耳朵。两位整形外科医生分别使用直接测量法（DM）和通过3dMD™拍摄的图像进行了13项人体测量，各测量两次。目的是比较两种测量工具的可靠性。

结果

DM测量和3dMD™测量所有耳部人体测量指标的总体平均绝对差值（MAD）分别为0.52毫米（范围：0.28 - 0.72毫米）和0.27毫米（范围：0.15 - 0.53毫米），总体平均相对误差幅度（REM）分别为跨观察者的2.85%（范围：1.01 - 5.99%）和1.57%（范围：0.48 - 3.62%）。因此，两种方法中跨观察者的所有耳部人体测量指标的精度都很高，但无论观察者如何，3dMD的精度均优于DM。此外，所有测量的MAD均小于1毫米。

结论

三维技术在小耳畸形手术中用于模板制作和软组织分析，可改善手术规划并取得更满意的效果，并发症更少。我们相信，随着技术的进一步完善和提升，这项创新技术的应用将为基于单侧病例中每个患者正常耳朵的精确镜像以及双侧病例中尺寸合适的预制、个性化自体或生物相容性异体可植入框架铺平道路。

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三维立体摄影测量法（3dMD™）在耳廓人体测量中的精度及其在小耳畸形重建中的应用

Precision of three-dimensional stereo-photogrammetry (3dMD™) in anthropometry of the auricle and its application in microtia reconstruction.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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