Repair of lateral temporo-sphenoidal encephalocoele via an endoscopic transorbital approach: ex vivo 3D printed simulation followed by in vivo deployment.

IF 0.8 4区医学 Q4 CLINICAL NEUROLOGY

British Journal of Neurosurgery Pub Date : 2025-08-01 Epub Date: 2024-01-10 DOI:10.1080/02688697.2023.2297878

Barbora Krivankova, Megan Burns, Imogen Gasser, Cailin Dewet, Rohit Gohil, Iain Hathorn, Jennifer Paxton, Mohamed Okasha, Rob Peden, Mark A Hughes

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引用次数: 0

Abstract

Background: A temporo-sphenoidal encephalocoele occurs when temporal lobe herniates through a defect in the greater wing of the sphenoid bone into the sphenoid air sinus. The natural history is not well-understood, though presentation in adulthood with CSF rhinorrhoea and/or meningitis is typical. Lateral pneumatisation of the sphenoid sinus and elevated BMI may be contributory.

Aims: We explored the feasibility of a transorbital approach (TOA) for repair, using a combination of 3D modelling and simulation. We then successfully deployed this technique in vivo.

Methods: CT imaging for three patients who had previously undergone transcranial repair of lateral temporo-sphenoidal encephalocoele was used to generate data allowing 3D printed models of the skull base to be produced. The transorbital approach was simulated by performing a lateral orbitotomy followed by drilling of the sphenoid wing to expose the antero-basal middle fossa. 3D object scanning was used to create virtual models of the skull base post-surgery, from which surgical access was quantified in two ways: the area (mm²) of the middle fossa exposed by the TOA and the vertical attack angle.

Results: The mean surface area of the cranial access window achieved by simulated TOA was 325mm². The mean vertical attack angle was 25°. One patient was subsequently treated successfully via TOA with no recurrence of their CSF leak, no orbital morbidity, excellent cosmesis, but resolving V2 numbness (follow-up 7 months).

Conclusions: We have shown that the transorbital approach provides adequate surgical access. In our single case, surgical repair of a lateral temporo-sphenoidal encephalocoele via TOA was feasible, safe, and effective. This approach may offer some advantages compared with transcranial or endonasal approaches.

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通过内窥镜经眶入路修复颞侧蝶窦：体外 3D 打印模拟，然后进行体内部署。

背景：当颞叶通过蝶骨大翼的缺损疝入蝶窦时，就会发生颞-蝶窦脑裂。该病的自然病史尚不清楚，但成年后出现鼻出血和/或脑膜炎是其典型症状。目的：我们结合三维建模和模拟，探索了经眶入路（TOA）修复的可行性。然后，我们成功地在体内应用了这一技术：方法：我们利用三位曾接受经颅修复侧颞侧蝶鞍脑裂患者的 CT 成像生成数据，并制作了颅底的 3D 打印模型。模拟经眶入路的方法是先进行侧眶切开术，然后在蝶骨翼钻孔以暴露前基底中窝。三维物体扫描用于创建手术后的颅底虚拟模型，并通过两种方式对手术通道进行量化：TOA暴露的中窝面积（平方毫米）和垂直攻击角：结果：通过模拟 TOA 实现的颅骨入路窗口的平均表面积为 325 平方毫米。平均垂直攻击角度为 25°。一名患者随后通过 TOA 成功接受了治疗，脑脊液漏没有复发，没有眼眶疾病，外观极佳，但 V2 麻木症状有所缓解（随访 7 个月）：结论：我们的研究表明，经眶入路可提供充分的手术入路。在我们的单个病例中，通过 TOA 手术修复侧颞侧蝶骨脑裂是可行、安全和有效的。与经颅或鼻内入路相比，这种入路可能具有一些优势。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

British Journal of Neurosurgery 医学-临床神经学

CiteScore

2.30

自引率

9.10%

发文量

139

审稿时长

3-8 weeks

期刊介绍： The British Journal of Neurosurgery is a leading international forum for debate in the field of neurosurgery, publishing original peer-reviewed articles of the highest quality, along with comment and correspondence on all topics of current interest to neurosurgeons worldwide. Coverage includes all aspects of case assessment and surgical practice, as well as wide-ranging research, with an emphasis on clinical rather than experimental material. Special emphasis is placed on postgraduate education with review articles on basic neurosciences and on the theory behind advances in techniques, investigation and clinical management. All papers are submitted to rigorous and independent peer-review, ensuring the journal’s wide citation and its appearance in the major abstracting and indexing services.