神经元微管功能障碍:影像学关联
Disorders of Microtubule Function in Neurons: Imaging Correlates.
作者信息
Mutch C A, Poduri A, Sahin M, Barry B, Walsh C A, Barkovich A J
机构信息
From the Department of Radiology and Biomedical Imaging (C.A.M., A.J.B.), University of California, San Francisco, San Francisco, California.
Epilepsy Genetics Program (A.P., B.B., C.A.W.), Division of Epilepsy and Clinical Neurophysiology F.M. Kirby Neurobiology Center (A.P., B.B., C.A.W.) Division of Genetics and Genomics (B.B., C.A.W.), Department of Medicine, Manton Center for Orphan Disease Research and Howard Hughes Medical Institute, Boston Children's Hospital, Boston, Massachusetts Department of Neurology (A.P., M.S., B.B., C.A.W.), Harvard Medical School, Boston, Massachusetts.
出版信息
AJNR Am J Neuroradiol. 2016 Mar;37(3):528-35. doi: 10.3174/ajnr.A4552. Epub 2015 Nov 12.
BACKGROUND AND PURPOSE
A number of recent studies have described malformations of cortical development with mutations of components of microtubules and microtubule-associated proteins. Despite examinations of a large number of MRIs, good phenotype-genotype correlations have been elusive. Additionally, most of these studies focused exclusively on cerebral cortical findings. The purpose of this study was to characterize imaging findings associated with disorders of microtubule function.
MATERIALS AND METHODS
MRIs from 18 patients with confirmed tubulin mutations (8 TUBA1A, 5 TUBB2B, and 5 TUBB3) and 15 patients with known mutations of the genes encoding microtubule-associated proteins (5 LIS1, 4 DCX, and 6 DYNC1H1) were carefully visually analyzed and compared. Specific note was made of the cortical gyral pattern, basal ganglia, and white matter to assess internal capsular size, cortical thickness, ventricular and cisternal size, and the size and contours of the brain stem, cerebellar hemispheres and vermis, and the corpus callosum of patients with tubulin and microtubule-associated protein gene mutations. Results were determined by unanimous consensus of the authors.
RESULTS
All patients had abnormal findings on MR imaging. A large number of patients with tubulin gene mutations were found to have multiple cortical and subcortical abnormalities, including microcephaly, ventriculomegaly, abnormal gyral and sulcal patterns (termed "dysgyria"), a small or absent corpus callosum, and a small pons. All patients with microtubule-associated protein mutations also had abnormal cerebral cortices (predominantly pachygyria and agyria), but fewer subcortical abnormalities were noted.
CONCLUSIONS
Comparison of MRIs from patients with known mutations of tubulin genes and microtubule-associated proteins allows the establishment of some early correlations of phenotype with genotype and may assist in identification and diagnosis of these rare disorders.
背景与目的
近期多项研究描述了微管及其相关蛋白成分发生突变时的皮质发育畸形。尽管对大量磁共振成像(MRI)进行了检查,但良好的表型-基因型相关性仍难以捉摸。此外,这些研究大多仅关注大脑皮质的表现。本研究的目的是描述与微管功能障碍相关的影像学表现。
材料与方法
对18例确诊为微管蛋白突变的患者(8例TUBA1A、5例TUBB2B和5例TUBB3)以及15例已知微管相关蛋白基因突变的患者(5例LIS1、4例DCX和6例DYNC1H1)的MRI进行仔细的视觉分析和比较。特别记录了皮质脑回模式、基底神经节和白质情况,以评估有微管蛋白和微管相关蛋白基因突变患者的内囊大小、皮质厚度、脑室和脑池大小以及脑干、小脑半球和蚓部以及胼胝体的大小和轮廓。结果由作者一致共识确定。
结果
所有患者的MRI均有异常表现。发现大量微管蛋白基因突变患者存在多种皮质和皮质下异常,包括小头畸形、脑室扩大、脑回和脑沟模式异常(称为“脑回异常”)、胼胝体小或缺失以及脑桥小。所有微管相关蛋白突变患者也有大脑皮质异常(主要为巨脑回和无脑回),但皮质下异常较少。
结论
对已知微管蛋白基因和微管相关蛋白基因突变患者的MRI进行比较,有助于建立表型与基因型的一些早期相关性,并可能有助于这些罕见疾病的识别和诊断。
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