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采用镜像技术对眼眶骨折进行定制钛重建,实现虚拟重建和 3D 模型打印。

Customized Titanium Reconstruction of Orbital Fractures Using a Mirroring Technique for Virtual Reconstruction and 3D Model Printing.

机构信息

Consultant, Clinic for Oral and Maxillofacial Surgery, University Hospital Zurich, Zurich, Switzerland.

Consultant, Policlinic for Oral Surgery, Centre of Dental Medicine Zurich, Zurich, Switzerland.

出版信息

J Oral Maxillofac Surg. 2021 Jan;79(1):200.e1-200.e9. doi: 10.1016/j.joms.2020.09.001. Epub 2020 Sep 6.

DOI:10.1016/j.joms.2020.09.001
PMID:33010215
Abstract

PURPOSE

Early operative reconstruction using titanium mesh is a technique often used for preventing sequelae after an orbital fracture. We sought to examine the utility of patient-specific molding of the mesh with a biomodel via virtual mirroring of the nonaffected side.

METHODS

We retrospectively assessed the clinical and radiological outcomes of orbital fracture reconstruction using a customized titanium mesh shaped on 3D-printed biomodels in 34 unilateral orbital fracture cases. Preoperative virtual orbital reconstruction images, using the mirroring technique, were superimposed on postoperative 3D images, and clinical data from patient charts were analyzed. Orbital reconstructions were rated, and the intention to revise results intraoperatively, or during inpatient or outpatient phases, was assessed by 2 consultants and 2 residents.

RESULTS

We found that most fractures arose from falls of <3 meters or from interpersonal violence. Ophthalmic injuries included subconjunctival bleeding, ocular contusion, enophthalmos, and diplopia. Long-term sequelae at last followup were diplopia (8.8%) and mild enophthalmos (11.8%).

CONCLUSION

Interrater reliabilities regarding consultants' intention to revise results were substantial to almost perfect at any time point. Therefore, using the mirroring technique for the virtual reconstruction of a fractured orbit and a 3D-printed biomodel to customize commercial titanium implants yields good and reliable results, enhances surgical precision, and decreases the need for intraoperative revision, as well as long-term sequelae of orbital fractures.

摘要

目的

钛网早期手术重建是一种常用于预防眼眶骨折后后遗症的技术。我们旨在通过对未受影响侧的虚拟镜像,检验使用生物模型对网片进行个体化塑形的效果。

方法

我们回顾性评估了 34 例单侧眼眶骨折患者使用基于 3D 打印生物模型定制钛网进行眼眶骨折重建的临床和影像学结果。采用镜像技术对术前虚拟眼眶重建图像进行叠加,并对患者病历中的临床数据进行分析。由 2 位顾问和 2 位住院医师对眼眶重建进行评分,并评估术中、住院或门诊阶段的手术修正意向。

结果

我们发现,大多数骨折是由<3 米的坠落或人际暴力引起的。眼部损伤包括球结膜下出血、眼球挫伤、眼球内陷和复视。末次随访时的长期后遗症为复视(8.8%)和轻度眼球内陷(11.8%)。

结论

顾问在任何时间点对手术修正意向的评估具有很高的组内可靠性。因此,使用镜像技术对骨折眼眶进行虚拟重建,并使用 3D 打印生物模型对商业钛植入物进行个体化定制,可获得良好且可靠的结果,提高手术精度,并减少术中修正以及眼眶骨折的长期后遗症的需要。

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