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Impact of imaging modality, age, and gender on craniocervical junction angles in adults without structural pathology.成像方式、年龄和性别对无结构病变成年人颅颈交界角的影响。
J Craniovertebr Junction Spine. 2019 Oct-Dec;10(4):240-246. doi: 10.4103/jcvjs.JCVJS_125_19. Epub 2020 Jan 23.
3
Utility of the clivo-axial angle in assessing brainstem deformity: pilot study and literature review.斜坡-枢椎角在评估脑干畸形中的应用:初步研究与文献综述
Neurosurg Rev. 2018 Jan;41(1):149-163. doi: 10.1007/s10143-017-0830-3. Epub 2017 Mar 3.
4
Clivodens Angle: A New Diagnostic Method for Basilar Invagination at Computed Tomography.斜坡齿突角:计算机断层扫描诊断基底凹陷症的一种新方法。
Spine (Phila Pa 1976). 2016 Sep;41(17):1365-1371. doi: 10.1097/BRS.0000000000001509.
5
3D T2 MR Imaging-Based Measurements of the Posterior Cervical Thecal Sac in Flexion and Extension for Cervical Puncture.基于3D T2磁共振成像的颈椎屈伸位颈髓硬膜囊测量用于颈椎穿刺
AJNR Am J Neuroradiol. 2016 Mar;37(3):579-83. doi: 10.3174/ajnr.A4564. Epub 2015 Oct 29.
6
Correction of clivoaxial angle deformity in the setting of suboccipital craniectomy: technical note.颅颈交界区后路减压术中枕下区颅底角畸形的矫正:技术要点。
J Neurosurg Spine. 2015 Jul;23(1):8-15. doi: 10.3171/2014.11.SPINE14484. Epub 2015 Apr 10.
7
Computed tomography evaluation of the normal craniocervical junction craniometry in 100 asymptomatic patients.100例无症状患者正常颅颈交界区颅骨测量的计算机断层扫描评估
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8
Occipitocervical fusion with relief of odontoid invagination: atlantoaxial distraction method using cylindrical titanium cage for basilar invagination--case report.枕颈融合术治疗齿状突内陷:基底凹陷症使用圆柱形钛笼行寰枢椎分离的方法——病例报告。
Neurosurg Rev. 2014 Jul;37(3):519-24; discussion 524-5. doi: 10.1007/s10143-014-0531-0. Epub 2014 Feb 20.
9
Angular craniometry in craniocervical junction malformation.颅颈交界区畸形的颅角测量。
Neurosurg Rev. 2013 Oct;36(4):603-10; discussion 610. doi: 10.1007/s10143-013-0471-0. Epub 2013 May 3.
10
Surgical treatment of Klippel-Feil syndrome with basilar invagination.Klippel-Feil 综合征伴颅底凹陷的手术治疗。
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成人颈椎屈伸位磁共振成像扫描枢椎斜角的正常范围。

Normal range of clivoaxial angle in adults using flexion and extension cervical magnetic resonance imaging scans.

机构信息

Division of Neuroradiology, Department of Radiology, Medstar Georgetown University Hospital, USA.

Division of Neuroradiology, Department of Radiology, Medstar Washington Hospital Center, USA.

出版信息

Neuroradiol J. 2021 Aug;34(4):348-354. doi: 10.1177/1971400921998982. Epub 2021 Mar 8.

DOI:10.1177/1971400921998982
PMID:33678065
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8447823/
Abstract

OBJECTIVE

An abnormally decreased clivoaxial angle (CXA) is used during the clinical evaluation for corrective skull base surgery. Published normal ranges of CXA using x-ray, computed tomography, or magnetic resonance imaging (MRI) vary dramatically, especially with neck flexion or extension. The aim of this study was to use high-resolution MRI to determine the normal range of CXA in various neck positions using a reproducible measurement technique.

METHODS

The CXA was measured in 10 healthy volunteers on sagittal T2 SPACE c-spine MRI in supine and prone positions and with the neck both neck and extended. CXA is strictly defined as the angle between a line along the inferior third of the dorsal clival cortex and a line from the superior/posterior cortex of the dens to the posterior/inferior corner of the C2 body. Statistical analysis was performed in all positions and included mean CXA, range, standard deviation (), inter-reader agreement, and group comparisons.

RESULTS

The mean CXA overall was 156.92° (=4.23°; range 134-179°). The mean value for extension CXA was 169.20° (=5.81°), and the mean value for flexion CXA was 144.73° (=5.71°), the difference being statistically significant (<0.0001) regardless of supine or prone position. Concordant correlations of reader measurements showed substantial agreement in the supine position at 0.96, with lower agreement in the prone position at 0.87.

CONCLUSIONS

We report normal ranges for CXA in various neck positions based on 3D T2-weighted MRI, using a reproducible measurement method. There was a significant difference in the CXA values between neck extended and neck flexed positions but not between supine and prone positions.

摘要

目的

在颅底矫正手术的临床评估中,会用到异常减小的颅底斜坡角(CXA)。使用 X 射线、计算机断层扫描或磁共振成像(MRI)发表的 CXA 正常范围差异很大,尤其是在颈部屈伸时。本研究旨在使用高分辨率 MRI 确定在各种颈部位置下 CXA 的正常范围,并使用可重复的测量技术。

方法

10 名健康志愿者在仰卧位和俯卧位以及颈部伸展和弯曲时,在矢状 T2 SPACE c 脊柱 MRI 上测量 CXA。CXA 严格定义为沿颅底背侧皮质下三分之一的线与从 dens 上/后皮质到 C2 体后/下角的线之间的夹角。在所有位置均进行了统计分析,包括平均 CXA、范围、标准差()、读者间一致性和组间比较。

结果

总体而言,CXA 的平均值为 156.92°(=4.23°;范围 134-179°)。伸展位 CXA 的平均值为 169.20°(=5.81°),弯曲位 CXA 的平均值为 144.73°(=5.71°),差异具有统计学意义(<0.0001),无论仰卧位还是俯卧位。读者测量的一致性相关显示,在仰卧位时具有高度一致性(0.96),在俯卧位时一致性较低(0.87)。

结论

我们报告了基于 3D T2 加权 MRI 的各种颈部位置下的 CXA 正常范围,使用了可重复的测量方法。在颈部伸展和弯曲位置之间 CXA 值存在显著差异,但在仰卧位和俯卧位之间不存在差异。