Department of Otolaryngology, Head and Neck Surgery, University of Dundee, Ninewells Hospital, Dundee, United Kingdom.
Am J Rhinol Allergy. 2010 Jan-Feb;24(1):76-80. doi: 10.2500/ajra.2010.24.3374.
Endoscopic sinus surgery (ESS) has been the most important technical advance in surgical rhinology in the last 25 years. The technique is now used beyond its initial sinus confines but knowledge of the forces required to perform ESS is limited. Greater understanding of these forces will lead to improved surgical training and safety. The aim of this study was to quantify the magnitude of the forces exerted during punch osteotomy of the bony lamella of the paranasal sinuses and surrounding bony structures during ESS.
Fifteen formalin-fixed cadaveric heads underwent simulated ESS. Peak axial forces were measured using a pair of modified Blakesley forceps. Measurements were recorded during osteotomy of the paranasal sinus complex, skull base, and crests of the optic nerve and internal carotid artery. Statistical comparison between the mean forces was performed.
A mean force of 6.06 N was required to breach the lamellae of the ethmoid sinus complex. This was significantly less than the mean force required to breach the skull base, excluding the olfactory cleft (17.80 N; p < 0.0001), crests of the optic nerve (15.43 N; p < 0.001), and internal carotid artery (13.15 N; p < 0.001). There was no significant difference between the ethmoid lamella and the lamina papyracea (6.13; p = 0.67).
Significantly greater force was required to breach the skull base and other safety critical areas encountered in ESS, than the bony lamellae of the ethmoid sinus complex. Although this result is reassuring, in vivo studies are now required to validate this relationship in the operative patient.
内镜鼻窦手术(ESS)是过去 25 年来外科鼻科学最重要的技术进步。该技术现在已超出其最初的鼻窦范围,但对执行 ESS 所需的力的知识有限。对这些力的更大了解将导致更好的手术培训和安全性。本研究的目的是量化在 ESS 期间进行鼻旁窦骨板和周围骨结构的打孔截骨时施加的力的大小。
15 个福尔马林固定的尸体头进行了模拟 ESS。使用一对改良的 Blakeley 夹测量峰值轴向力。在鼻旁窦复合体、颅底以及视神经和颈内动脉嵴的截骨过程中记录测量值。对平均力进行了统计学比较。
需要 6.06N 的平均力才能突破筛窦复合体的板层。这明显小于突破颅底所需的平均力(不包括嗅裂 17.80N;p<0.0001)、视神经嵴(15.43N;p<0.001)和颈内动脉嵴(13.15N;p<0.001)。筛窦板层与纸样板层之间没有显著差异(6.13;p=0.67)。
突破 ESS 中遇到的颅底和其他安全关键区域所需的力明显大于筛窦复合体的骨板层。尽管这一结果令人欣慰,但现在需要进行体内研究来验证这种关系在手术患者中的有效性。
