连续脑部 MRI 能否预测 MPS II 的神经病变表型？

Can serial cerebral MRIs predict the neuronopathic phenotype of MPS II?

机构信息

Center for Lysosomal and Metabolic Diseases (Department of Pediatrics), Erasmus MC, University Medical Center, Rotterdam, The Netherlands.

Department of Pediatrics, Maastricht University Medical Center, Maastricht, The Netherlands.

出版信息

J Inherit Metab Dis. 2021 May;44(3):751-762. doi: 10.1002/jimd.12342. Epub 2021 Jan 25.

DOI:10.1002/jimd.12342

PMID:33330992

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8248480/

Abstract

OBJECTIVE

To advance the prediction of the neurocognitive development in MPS II patients by jointly analyzing MRI and neurocognitive data in mucopolysaccharidosis (MPS) II patients.

METHODS

Cognitive ability scores (CAS) were obtained by neuropsychological testing. Cerebral MRIs were quantified using a disease-specific protocol. MRI sumscores were calculated for atrophy, white-matter abnormalities (WMA) and Virchow-Robin spaces (VRS). To distinguish between atrophy and hydrocephalus the Evans' index and the callosal angle (CA) were measured. A random effects repeated measurement model was used to correlate CAS with the three MRI sumscores.

RESULTS

MRI (n = 47) and CAS scores (n = 78) of 19 male patients were analyzed. Ten patients were classified as neuronopathic and nine as non-neuronopathic. Neuronopathic patients had normal cognitive development until age 3 years. Mental age plateaued between ages 3 and 6, and subsequently declined with loss of skills at a maximum developmental age of 4 years. MRIs of neuronopathic patients showed abnormal atrophy sumscores before CAS dropped below the threshold for intellectual disability (<70). White-matter abnormalities (WMA) and brain atrophy progressed. The calculated sumscores were inversely correlated with CAS (r = -.90 for atrophy and -.69 for WMA). This was not biased by the influence of hydrocephalus as shown by measurement of the Evans' and callosal angle. Changes over time in the Virchow-Robin spaces (VRS) on MRI were minimal.

CONCLUSION

In our cohort, brain atrophy showed a stronger correlation to a decline in CAS when compared to WMA. Atrophy-scores were higher in young neuronopathic patients than in non-neuronopathic patients and atrophy was an important early sign for the development of the neuronopathic phenotype, especially when observed jointly with white-matter abnormalities.

摘要

目的

通过联合分析黏多糖贮积症（MPS）II 患者的 MRI 和神经认知数据，提高 MPS II 患者神经认知发育的预测能力。

方法

通过神经心理学测试获得认知能力评分（CAS）。采用特定疾病协议对脑 MRI 进行量化。计算脑萎缩、白质异常（WMA）和血管周围间隙（VRS）的 MRI 总和评分。为了区分脑萎缩和脑积水，测量了 Evans 指数和胼胝体角（CA）。采用随机效应重复测量模型将 CAS 与三个 MRI 总和评分相关联。

结果

分析了 19 名男性患者的 MRI（n=47）和 CAS 评分（n=78）。其中 10 名患者被归类为神经病变型，9 名患者被归类为非神经病变型。神经病变型患者的认知发育在 3 岁之前正常。3 至 6 岁时，心理年龄趋于平稳，随后在最大发育年龄 4 岁时技能丧失，认知能力下降。神经元病患者的 MRI 显示，在 CAS 下降到智力残疾阈值以下（<70）之前，就已经出现了异常的脑萎缩总和评分。白质异常（WMA）和脑萎缩进展。计算出的总和评分与 CAS 呈负相关（脑萎缩与 CAS 的相关系数为 -.90，WMA 与 CAS 的相关系数为 -.69）。这一结果不受脑积水影响的偏差，如 Evans 指数和胼胝体角的测量结果所示。MRI 上血管周围间隙（VRS）的时间变化很小。

结论

在我们的队列中，与白质异常相比，脑萎缩与 CAS 下降的相关性更强。与非神经病变型患者相比，年轻的神经元病患者的脑萎缩评分更高，且脑萎缩是神经元病变表型发展的重要早期标志，尤其是与白质异常联合观察时。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8be8/8248480/7dcc0fab5739/JIMD-44-751-g002.jpg

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连续脑部 MRI 能否预测 MPS II 的神经病变表型？

Can serial cerebral MRIs predict the neuronopathic phenotype of MPS II?

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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