未治疗的腭裂病例中用于修复性康复的传统模型与数字开发模型之间差异的评估

Evaluation of the Differences Between Conventional and Digitally Developed Models Used for Prosthetic Rehabilitation in a Case of Untreated Palatal Cleft.

作者信息

Beh Yew Hin, Farook Taseef Hasan, Jamayet Nafij Bin, Dudley James, Rashid Farah, Barman Aparna, Alam Mohammad Khursheed

机构信息

Prosthodontic Unit, School of Dental Sciences, 65271Universiti Sains Malaysia, Kelantan, Malaysia.

Centre for Restorative Dentistry, Faculty of Dentistry, Universiti Kebangsaan Malaysia, Kuala Lumpur, Malaysia.

出版信息

Cleft Palate Craniofac J. 2021 Mar;58(3):386-390. doi: 10.1177/1055665620950074. Epub 2020 Aug 18.

DOI:10.1177/1055665620950074

Abstract

OBJECTIVE

The virtual cone beam computed tomography-derived 3-dimensional model was compared with the scanned conventional model used in the fabrication of a palatal obturator for a patient with a large palatal defect.

DESIGN

A digitally derived 3-dimensional maxillary model incorporating the palatal defect was generated from the patient's existing cone beam computerized tomography data and compared with the scanned cast from the conventional impression for linear dimensions, area, and volume. The digitally derived cast was 3-dimensionally printed and the obturator fabricated using traditional techniques. Similarly, an obturator was fabricated from the conventional cast and the fit of both final obturator bulbs were compared in vivo.

RESULTS

The digitally derived model produced more accurate volumes and surface areas within the defect. The defect margins and peripheries were overestimated which was reflected clinically.

CONCLUSION

The digitally derived model provided advantages in the fabrication of the palatal obturator; however, further clinical research is required to refine consistency.

摘要

目的

将虚拟锥束计算机断层扫描衍生的三维模型与为一名患有大腭部缺损的患者制作腭托时使用的扫描传统模型进行比较。

设计

利用患者现有的锥束计算机断层扫描数据生成包含腭部缺损的数字衍生三维上颌模型，并与传统印模的扫描模型在长度尺寸、面积和体积方面进行比较。将数字衍生模型进行三维打印，并使用传统技术制作腭托。同样，从传统模型制作一个腭托，并在体内比较两个最终腭托球的贴合度。

结果

数字衍生模型在缺损区域内产生了更准确的体积和表面积。缺损边缘和周边被高估，这在临床上有所体现。

结论

数字衍生模型在腭托制作中具有优势；然而，需要进一步的临床研究来提高一致性。

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