Corvino Sergio, de Notaris Matteo, Sommer Doron, Kassam Amin, Kong Doo-Sik, Piazza Amedeo, Corrivetti Francesco, Cavallo Luigi Maria, Iaconetta Giorgio, Reddy Kesava
Division of Neurosurgery, Department of Neuroscience and Reproductive and Odontostomatological Sciences, Università degli Studi di Napoli "Federico II", Naples, Italy; PhD Program in Neuroscience, Department of Neuroscience and Reproductive and Odontostomatological Sciences, Università degli Studi di Napoli "Federico II", Naples, Italy.
Neurosurgical Clinic A.O.U. "San Giovanni di Dio e Ruggi d'Aragona", Salerno, Italy.
World Neurosurg. 2024 Dec;192:e198-e209. doi: 10.1016/j.wneu.2024.09.066. Epub 2024 Oct 5.
To verify the feasibility and discuss advantages and disadvantages of a piezoelectric orbitotomy during superior eyelid endoscopic transorbital approach (SETOA). An illustrative case demonstrating the application of this novel technique is also presented.
Exoscopic/endoscopic SETOA to middle cranial fossa was performed on 5 adult specimens. The surgical corridor was created via piezoelectric orbitotomy by performing 3 selective and safe micrometric bone cuts providing a 1-piece trapezoid bone flap, which was repositioned and secured at the end of the procedure. A three-dimensional scan of the bone flap allowed us to reconstruct a three-dimensional model and calculate its volume.
Anatomical-morphometric quantitative analysis showed a mean bone volume gain of 1574.26 mm by using piezoelectric orbitotomy. Piezoelectric orbitotomy also yielded concrete surgical advantages and theoretical benefits in terms of functional and esthetic outcomes. All osteotomies were micrometric clear-cut and precise, resulting in a very thin bone gap; complete sparing of soft tissues and neurovascular structures in and around the orbit was observed. Lateral orbital wall reconstruction by replacing the bone flap was performed to mitigate the risk of enophthalmos, proptosis, cerebrospinal leakage, pseudomeningocele, and pulsatile headache, which represent significant challenges.
Piezoelectric orbitotomy may offer a viable, selective, effective, safe alternative to high-speed drilling during SETOA, especially for patients with intra-axial pathologies, in which a watertight closure is mandatory. This procedure could prevent or decrease the risk of some of the main postoperative complications associated with standard SETOA, potentially resulting in better functional and esthetic outcomes.
验证在上睑内镜经眶入路(SETOA)中使用压电眼眶切开术的可行性,并探讨其优缺点。还介绍了一个说明该新技术应用的病例。
对5个成年标本进行外视镜/内镜下SETOA至中颅窝手术。通过压电眼眶切开术创建手术通道,进行3次选择性且安全的微米级骨切开,形成一块梯形骨瓣,在手术结束时将其重新定位并固定。对骨瓣进行三维扫描,以便重建三维模型并计算其体积。
解剖形态学定量分析显示,使用压电眼眶切开术平均骨体积增加1574.26立方毫米。压电眼眶切开术在功能和美学效果方面也产生了具体的手术优势和理论益处。所有截骨均为微米级清晰、精确,形成的骨间隙非常薄;观察到眼眶内及周围的软组织和神经血管结构完全未受损伤。通过更换骨瓣进行眶外侧壁重建,以降低眼球内陷、眼球突出、脑脊液漏、假性脑膜膨出和搏动性头痛的风险,这些都是重大挑战。
压电眼眶切开术可能为SETOA期间的高速钻孔提供一种可行、选择性、有效、安全的替代方法,特别是对于患有轴内病变且必须进行水密封闭的患者。该手术可预防或降低与标准SETOA相关的一些主要术后并发症的风险,可能带来更好的功能和美学效果。
