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Cost-Effective Evaluation of Asymmetric Sensorineural Hearing Loss with Focused Magnetic Resonance Imaging.聚焦磁共振成像对非对称性感音神经性听力损失的成本效益评估
Otolaryngol Head Neck Surg. 1997 Jun;116(6):567-574. doi: 10.1016/S0194-5998(97)70229-8.
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High-resolution MR imaging of the auditory pathway.听觉通路的高分辨率磁共振成像。
Magn Reson Imaging Clin N Am. 1998 Feb;6(1):195-217.
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A segment-interleaved motion-compensated acquisition in the steady state (SIMCAST) technique for high resolution imaging of the inner ear.
J Magn Reson Imaging. 1997 Nov-Dec;7(6):1060-8. doi: 10.1002/jmri.1880070619.
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Cost-effective screening for acoustic neuroma with unenhanced MR: a clinician's perspective.未增强磁共振成像对听神经瘤的成本效益筛查:临床医生视角
AJNR Am J Neuroradiol. 1996 Aug;17(7):1226-8.
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Detection of acoustic schwannoma: use of constructive interference in the steady state three-dimensional MR.听神经鞘瘤的检测:稳态三维磁共振成像中相长干涉的应用
AJNR Am J Neuroradiol. 1996 Aug;17(7):1219-25.
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T2-weighted MR characteristics of internal auditory canal masses.内耳道肿物的T2加权磁共振成像特征。
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Low-cost high-resolution fast spin-echo MR of acoustic schwannoma: an alternative to enhanced conventional spin-echo MR?听神经鞘瘤的低成本高分辨率快速自旋回波磁共振成像:传统增强自旋回波磁共振成像的替代方案?
AJNR Am J Neuroradiol. 1996 Aug;17(7):1205-10.
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High resolution 3D imaging of the inner ear with a modified fast spin-echo pulse sequence.采用改良快速自旋回波脉冲序列对内耳进行高分辨率三维成像。
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Hearing loss.
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Constructive interference in steady state-3DFT MR imaging of the inner ear and cerebellopontine angle.内耳及桥小脑角稳态三维傅里叶变换磁共振成像中的相长干涉
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内耳道肿瘤的评估:对比增强T1加权和稳态T2加权梯度回波磁共振成像的比较

Assessment of internal auditory canal tumors: a comparison of contrast-enhanced T1-weighted and steady-state T2-weighted gradient-echo MR imaging.

作者信息

Schmalbrock P, Chakeres D W, Monroe J W, Saraswat A, Miles B A, Welling D B

机构信息

Department of Radiology, The Ohio State University, Columbus 43210, USA.

出版信息

AJNR Am J Neuroradiol. 1999 Aug;20(7):1207-13.

PMID:10472973
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7055975/
Abstract

BACKGROUND AND PURPOSE

Although contrast-enhanced T1-weighted MR imaging is the standard of reference for diagnosing tumor in the cerebellopontine angle, high-resolution T2-weighted imaging may show more details of the seventh and eighth cranial nerve branches, resulting in more accurate tumor volume measurements. The purpose of this study was to compare two MR sequences for their ability to delineate internal auditory canal tumors.

METHODS

Twenty-seven ears in 21 patients with 16 confirmed schwannomas were studied with the 3D T2-weighted prototype segment-interleaved motion-compensated acquisition in steady state (SIMCAST) and the T1-weighted contrast-enhanced spoiled gradient-echo (SPGR) techniques. Twenty-eight axial sections were acquired using parameters of 17/3.3 (TR/TE), a 40 degrees flip angle, a 20 x 15-cm or 22 x 16-cm field of view (FOV), a 512 x 256 matrix, and a 0.4- or 1.2-mm section thickness for the SIMCAST technique, and 30/4.2, a 30 degrees flip angle, a 20 x 20-cm FOV, a 512 x 288 matrix, and a 1.5-mm section thickness for the SPGR technique. Tumor appearance and depiction of surrounding anatomy, including the cranial nerves, were evaluated. Tumor volumes were measured by manual tracing.

RESULTS

Both sequences clearly identified tumors that ranged in size from 0.06 to 3.0 cm3. Measurements on both sequences agreed, on average, within 14%. The information from both sequences was complementary. SIMCAST usually delineated the CSF spaces better, whereas SPGR more clearly showed the tumor/brain boundary.

CONCLUSION

SIMCAST and SPGR are suitable for tumor detection and volume measurements. SPGR has somewhat better contrast, but SIMCAST excels at depicting the surrounding anatomy and tumor involvement of the seventh and eighth cranial nerves.

摘要

背景与目的

尽管对比增强T1加权磁共振成像(MR成像)是诊断桥小脑角肿瘤的参考标准,但高分辨率T2加权成像可能会显示出第七和第八颅神经分支的更多细节,从而实现更准确的肿瘤体积测量。本研究的目的是比较两种MR序列描绘内耳道肿瘤的能力。

方法

对21例患者的27只耳朵进行研究,其中16例确诊为神经鞘瘤,采用三维T2加权原型分段交错运动补偿稳态采集(SIMCAST)和T1加权对比增强扰相梯度回波(SPGR)技术。使用17/3.3(TR/TE)、40°翻转角、20×15 cm或22×16 cm视野(FOV)、512×256矩阵以及0.4或1.2 mm层厚的参数采集28个轴向层面用于SIMCAST技术,使用30/4.2、30°翻转角、20×20 cm FOV、512×288矩阵以及1.5 mm层厚的参数采集用于SPGR技术。评估肿瘤表现以及包括颅神经在内的周围解剖结构的描绘情况。通过手动勾勒测量肿瘤体积。

结果

两种序列均能清晰识别大小在0.06至3.0 cm³之间的肿瘤。两种序列的测量结果平均相差在14%以内。两种序列提供的信息具有互补性。SIMCAST通常能更好地勾勒脑脊液间隙,而SPGR更清晰地显示肿瘤/脑边界。

结论

SIMCAST和SPGR适用于肿瘤检测和体积测量。SPGR的对比度稍好,但SIMCAST在描绘周围解剖结构以及第七和第八颅神经的肿瘤累及情况方面更胜一筹。