A new computed tomography protocol to assess the olfactory cleft

T V Souza, E S Guimarães, A V Giannetti, C S Caixeta, L O G Vasconcelos, G F Freitas
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Abstract

INTRODUCTION: The olfactory cleft is a region of significant importance within the nasal cavity, given the heightened focus on olfactory disorders in recent years. It is considered a 3-dimensional space that starts at the most anterior olfactory filament and ends just anteriorly to the sphenoid sinus. This study aimed to outline the profile of the olfactory cleft as an anatomical area of extreme relevance in the diagnosis of diseases of the nose, paranasal sinuses and olfactory disorders. The aim to establish parameters of radiological normality for the olfactory cleft enables us to recognize and differentiate nasal disorders by identifying the widening or narrowing of the olfactory cleft during the preoperative assessment, thus facilitating the planning of the optimal treatment. This supports a theory about the evolution and development of the nose (Evo Devo Theory) that shows the olfactory nose (ethmoid and olfactory cleft) represents the seat of most diseases of the nose and paranasal sinuses. MATERIALS AND METHODS: 700 random CT scans of the nose and sinuses have been studied. A homogeneous group of CT scans of patients without paranasal sinus diseases were included in this study, seeking to define a reference anatomical measure as a criterion for tomographic normality. Measurements of the olfactory cleft were taken in the lateral-lateral direction between the middle concha and the septum on each side of the nose cavity at three specific anatomical points in the anterior skull base in the anteroposterior direction, corresponding to the beginning, middle and end of the olfactory cleft. For data analysis, exploratory statistical techniques have been used that allowed a better visualization of the general characteristics of the data. The appropriate statstical analysis was performed using Statistical Package for Social Sciences (SPSS). RESULTS: According to the statistical analysis performed, the reference values that were found evaluating and studying the three points were: at the first point - First Olfactory Neuron Point (FONP) – was 1.3 to 2.1 mm, at the second point - Middle Point (MP) was 1.1 to 1.6 mm, and at the third point – Sphenoethmoidal recess point (SERP) was 1.1 to 1.8 mm. The average in the first point was 1.78 mm, while in the second and third points were 1.41 and 1.48 mm, respectively. CONCLUSION: It is concluded that the tomographic olfactory cleft reference values are respectively: at the first point – First Olfactory Neuron Point- 1.3 to 2.1 mm, at the second point - Middle Point - 1.1 to 1.6 mm, and at the third point – Sphenoethmoidal recess point -1.1 to 1.8 mm.
一种新的评估嗅觉裂的计算机断层扫描方法
摘要:近年来,人们对嗅觉障碍的关注越来越高,因此嗅觉裂是鼻腔内一个非常重要的区域。它被认为是一个三维空间,从最前面的嗅丝开始,在蝶窦前面结束。本研究旨在概述嗅觉裂的轮廓,作为一个解剖区域,在诊断鼻、鼻窦和嗅觉疾病方面具有极端的相关性。目的是建立嗅觉裂的放射学正常参数,使我们能够在术前评估中通过识别嗅觉裂的变宽或变窄来识别和区分鼻疾病,从而便于规划最佳治疗。这支持了一个关于鼻子进化和发展的理论(Evo Devo理论),该理论表明嗅觉鼻(筛鼻和嗅裂)代表了大多数鼻子和副鼻窦疾病的根源。材料和方法:对700例随机CT扫描的鼻和鼻窦进行了研究。本研究纳入了一组无副鼻窦疾病患者的均匀CT扫描,试图定义一个参考解剖学测量作为断层扫描正常的标准。在前颅底三个特定解剖点的前后方向,分别在鼻腔两侧的中耳甲和鼻中隔之间的外侧方向测量嗅裂,对应嗅裂的开始、中间和结束。对于数据分析,已经使用了探索性统计技术,可以更好地可视化数据的一般特征。使用社会科学统计软件包(SPSS)进行适当的统计分析。结果:经统计分析,评价和研究这3个点的参考值为:第一嗅神经元点(FONP)为1.3 ~ 2.1 mm,第二嗅神经元点(MP)为1.1 ~ 1.6 mm,蝶筛隐窝点(SERP)为1.1 ~ 1.8 mm。第1点的平均值为1.78 mm,第2点和第3点的平均值分别为1.41和1.48 mm。结论:层析嗅裂参考值分别为:第一嗅神经元点1.3 ~ 2.1 mm,第二嗅神经元点1.1 ~ 1.6 mm,蝶筛隐窝点1.1 ~ 1.8 mm。
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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