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Correlation of proton transverse relaxation rates (R2) with iron concentrations in postmortem brain tissue from alzheimer's disease patients.阿尔茨海默病患者死后脑组织中质子横向弛豫率(R2)与铁浓度的相关性
Magn Reson Med. 2007 Jan;57(1):172-80. doi: 10.1002/mrm.21118.
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Clinical features and natural history of neuroferritinopathy caused by the FTL1 460InsA mutation.由FTL1 460InsA突变引起的神经铁蛋白病的临床特征和自然病史。
Brain. 2007 Jan;130(Pt 1):110-9. doi: 10.1093/brain/awl319. Epub 2006 Dec 2.
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Neurodegeneration with brain iron accumulation: from genes to pathogenesis.伴脑铁沉积的神经退行性疾病:从基因到发病机制
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Wilson's disease tremor is associated with magnetic resonance imaging lesions in basal ganglia structures.威尔逊病震颤与基底节结构的磁共振成像病变有关。
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PLA2G6, encoding a phospholipase A2, is mutated in neurodegenerative disorders with high brain iron.编码磷脂酶A2的PLA2G6在脑铁含量高的神经退行性疾病中发生突变。
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Aceruloplasminemia in an asymptomatic patient with a new mutation. Diagnosis and family genetic analysis.一名具有新突变的无症状患者的血浆铜蓝蛋白缺乏症。诊断及家系遗传学分析。
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MR imaging of cerebral cortical involvement in aceruloplasminemia.血清铜蓝蛋白缺乏症脑皮质受累的磁共振成像
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Aceruloplasminemia with juvenile-onset diabetes mellitus caused by exon skipping in the ceruloplasmin gene.由于铜蓝蛋白基因外显子跳跃导致的伴有青少年型糖尿病的无铜蓝蛋白血症。
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T2*和快速自旋回波磁共振成像(FSE MRI)可区分脑铁沉积性神经退行性变的四种亚型。

T2* and FSE MRI distinguishes four subtypes of neurodegeneration with brain iron accumulation.

作者信息

McNeill A, Birchall D, Hayflick S J, Gregory A, Schenk J F, Zimmerman E A, Shang H, Miyajima H, Chinnery P F

机构信息

Department of Neurology, Regional Neurosciences Centre, Newcastle upon Tyne Hospitals NHS Foundation Trust, Newcastle upon Tyne, UK.

出版信息

Neurology. 2008 Apr 29;70(18):1614-9. doi: 10.1212/01.wnl.0000310985.40011.d6.

DOI:10.1212/01.wnl.0000310985.40011.d6
PMID:18443312
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2706154/
Abstract

BACKGROUND

Neurodegeneration with brain iron accumulation (NBIA) defines a group of genetic disorders characterized by brain iron deposition and associated with neuronal death. The known causes of NBIA include pantothenate kinase-associated neurodegeneration (PKAN), neuroferritinopathy, infantile neuroaxonal dystrophy (INAD), and aceruloplasminemia.

OBJECTIVE

To define the radiologic features of each NBIA subtype.

METHODS

Brain MRIs from patients with molecularly confirmed PKAN (26 cases), neuroferritinopathy (21 cases), INAD (four cases), and aceruloplasminemia (10 cases) were analyzed blindly to delineate patterns of iron deposition and neurodegeneration.

RESULTS

In most cases of PKAN, abnormalities were restricted to globus pallidus and substantia nigra, with 100% having an eye of the tiger sign. In a minority of PKAN cases there was hypointensity of the dentate nuclei (1/5 on T2* sequences, 2/26 on fast spin echo [FSE]). In INAD, globus pallidus and substantia nigra were involved on T2* and FSE scans, with dentate involvement only seen on T2*. By contrast, neuroferritinopathy had consistent involvement of the dentate nuclei, globus pallidus, and putamen, with confluent areas of hyperintensity due to probable cavitation, involving the pallida and putamen in 52%, and a subset having lesions in caudate nuclei and thalami. More uniform involvement of all basal ganglia and the thalami was typical in aceruloplasminemia, but without cavitation.

CONCLUSIONS

In the majority of cases, different subtypes of neurodegeneration associated with brain iron accumulation can be reliably distinguished with T2* and T2 fast spin echo brain MRI, leading to accurate clinical and subsequent molecular diagnosis.

摘要

背景

脑铁沉积神经变性病(NBIA)定义了一组以脑铁沉积为特征并与神经元死亡相关的遗传性疾病。NBIA的已知病因包括泛酸激酶相关神经变性病(PKAN)、神经铁蛋白病、婴儿神经轴索性营养不良(INAD)和无铜蓝蛋白血症。

目的

明确每种NBIA亚型的放射学特征。

方法

对分子确诊的PKAN患者(26例)、神经铁蛋白病患者(21例)、INAD患者(4例)和无铜蓝蛋白血症患者(10例)的脑部MRI进行盲法分析,以描绘铁沉积和神经变性的模式。

结果

在大多数PKAN病例中,异常仅限于苍白球和黑质,100%有虎眼征。在少数PKAN病例中,齿状核呈低信号(T2序列上1/5,快速自旋回波[FSE]序列上2/26)。在INAD中,T2和FSE扫描显示苍白球和黑质受累,仅在T2*上可见齿状核受累。相比之下,神经铁蛋白病中齿状核、苍白球和壳核持续受累,由于可能的空洞形成,出现高信号融合区,52%累及苍白球和壳核,一部分患者尾状核和丘脑有病变。无铜蓝蛋白血症中所有基底节和丘脑受累更均匀,但无空洞形成。

结论

在大多数情况下,通过T2*和T2快速自旋回波脑部MRI能够可靠地区分与脑铁沉积相关的不同神经变性亚型,从而实现准确的临床及后续分子诊断。