Sakai F, Gamsu G, Dillon W P, Lynch D A, Gilbert T J
Department of Radiology, University of California Medical Center, San Francisco 94143-0628.
J Comput Assist Tomogr. 1990 Jan-Feb;14(1):60-71. doi: 10.1097/00004728-199001000-00010.
The normal magnetic resonance (MR) anatomy of the larynx at high field strength (1.5 T) was studied in 2 normal excised larynges and 62 subjects without laryngopharyngeal disease. The two normal excised larynges were imaged using a 1.5 T MR scanner with a 3 in diameter circular surface coil and a GE 9800 CT scanner. The larynges were sectioned transversely and the MR and CT images compared to gross and histologic sections. Unossified hyaline cartilage was intermediate in signal intensity on T1-weighted and proton density images and low in intensity on T2-weighted images. The signal intensity from ossified cartilage was determined by the amount of fatty marrow and was high in intensity on T1-weighted and proton density images and low to intermediate in intensity on T2-weighted images. A chemical shift artifact from high intensity fatty marrow obscured the calcified or ossified cortex of the major laryngeal cartilages along the frequency encoding axis. The epiglottic cartilage demonstrated an intermediate signal intensity on T1-weighted images and higher intensity on proton density and T2-weighted images. The intralaryngeal muscles were well demonstrated as low intensity structures. The conus elasticus and the vocal ligaments were not recognized as distinct structures. However, the quadrangular membrane and a previously undescribed membrane separating the preepiglottic and paralaryngeal spaces were shown on MR as low intensity linear structures. In the 62 subjects, MR at 1.5 T proved excellent for demonstrating the anatomical details of the major laryngeal cartilages, extra- and intralaryngeal muscles, ligaments, and soft tissues including the vocal cords, false vocal cords, laryngeal ventricles, aryepiglottic folds, preepiglottic space, and paralaryngeal spaces. Visibility and intensity of muscles, ligaments, and soft tissues did not depend on age or sex. The intensity pattern of the thyroid and cricoid cartilages demonstrated wide variations in the same sex and age groups, depending on the degree of ossification. However, they did show more high intensity foci in older men than in younger women. Magnetic resonance showed better contrast resolution and finer detail than CT scans in the same subjects. Magnetic resonance imaging at 1.5 T, with either a saddle-shaped neck surface coil or a 3 in diameter circular surface coil, provides high contrast and high spatial resolution images and could be useful for the diagnosis of lesions of the larynx.(ABSTRACT TRUNCATED AT 400 WORDS)
对2个正常切除的喉和62名无喉咽疾病的受试者进行了高场强(1.5T)下喉的正常磁共振(MR)解剖研究。使用一台配备直径3英寸圆形表面线圈的1.5T MR扫描仪和一台GE 9800 CT扫描仪对2个正常切除的喉进行成像。将喉横向切片,并将MR和CT图像与大体和组织学切片进行比较。未骨化的透明软骨在T1加权和质子密度图像上信号强度中等,在T2加权图像上强度低。骨化软骨的信号强度取决于脂肪骨髓的量,在T1加权和质子密度图像上强度高,在T2加权图像上强度低至中等。高强度脂肪骨髓产生的化学位移伪影沿频率编码轴模糊了主要喉软骨的钙化或骨化皮质。会厌软骨在T1加权图像上显示中等信号强度,在质子密度和T2加权图像上显示较高信号强度。喉内肌肉显示为低强度结构。弹性圆锥和声带未被识别为不同的结构。然而,方形膜和一个先前未描述的分隔会厌前间隙和喉旁间隙的膜在MR上显示为低强度线性结构。在62名受试者中,1.5T的MR被证明在显示主要喉软骨、喉外和喉内肌肉、韧带以及包括声带、假声带、喉室、杓会厌襞、会厌前间隙和喉旁间隙在内的软组织的解剖细节方面非常出色。肌肉、韧带和软组织的可见性和强度不取决于年龄或性别。甲状腺和环状软骨的强度模式在同性别和年龄组中显示出很大差异,这取决于骨化程度。然而,老年男性比年轻女性显示出更多的高强度灶。在同一受试者中,磁共振显示出比CT扫描更好的对比分辨率和更精细的细节。1.5T的磁共振成像,使用鞍形颈部表面线圈或直径3英寸的圆形表面线圈,可提供高对比度和高空间分辨率图像,对喉部病变的诊断可能有用。(摘要截短至400字)
