Eisenmenger Laura, Porter Marie-Claire, Carswell Christopher J, Thompson Andrew, Mead Simon, Rudge Peter, Collinge John, Brandner Sebastian, Jäger Hans R, Hyare Harpreet
Department of Radiology, University of Utah, Salt Lake City.
Medical Research Council Prion Unit, Department of Neurodegenerative Diseases, University College London Institute of Neurology, London, England.
JAMA Neurol. 2016 Jan;73(1):76-84. doi: 10.1001/jamaneurol.2015.3159.
Prion diseases represent the archetype of brain diseases caused by protein misfolding, with the most common subtype being sporadic Creutzfeldt-Jakob disease (sCJD), a rapidly progressive dementia. Diffusion-weighted imaging (DWI) has emerged as the most sensitive magnetic resonance imaging (MRI) sequence for the diagnosis of sCJD, but few studies have assessed the evolution of MRI signal as the disease progresses.
To assess the natural history of the MRI signal abnormalities on DWI in sCJD to improve our understanding of the pathogenesis and to investigate the potential of DWI as a biomarker of disease progression, with histopathological correlation.
DESIGN, SETTING, AND PARTICIPANTS: Gray matter involvement on DWI was assessed among 37 patients with sCJD in 26 cortical and 5 subcortical subdivisions per hemisphere using a semiquantitative scoring system of 0 to 2 at baseline and follow-up. A total brain score was calculated as the summed scores in the individual regions. In 7 patients, serial mean diffusivity measurements were obtained. Age at baseline MRI, disease duration, atrophy, codon 129 methionine valine polymorphism, Medical Research Council Rating Scale score, and histopathological findings were documented. The study setting was the National Prion Clinic, London, England. All participants had a probable or definite diagnosis of sCJD and had at least 2 MRI studies performed during the course of their illness. The study dates were October 1, 2008 to April 1, 2012. The dates of our analysis were January 19 to April 20, 2012.
Correlation of regional and total brain scores with disease duration.
Among the 37 patients with sCJD in this study there was a significant increase in the number of regions demonstrating signal abnormality during the study period, with 59 of 62 regions showing increased signal intensity (SI) at follow-up, most substantially in the caudate and putamen (P < .001 for both). The increase in the mean (SD) total brain score from 30.2 (17.3) at baseline to 40.5 (20.6) at follow-up (P = .001) correlated with disease duration (r = 0.47, P = .003 at baseline and r = 0.35, P = .03 at follow-up), and the left frontal SI correlated with the degree of spongiosis (r = 0.64, P = .047). Decreased mean diffusivity in the left caudate at follow-up was seen (P < .001). Eight patients demonstrated decreased SI in cortical regions, including the left inferior temporal gyrus and the right lingual gyrus.
Magnetic resonance images in sCJD show increased extent and degree of SI on DWI that correlates with disease duration and the degree of spongiosis. Although cortical SI may fluctuate, increased basal ganglia SI is a consistent finding and is due to restricted diffusion. Diffusion-weighted imaging in the basal ganglia may provide a noninvasive biomarker in future therapeutic trials.
朊病毒病是由蛋白质错误折叠引起的脑部疾病的典型代表,最常见的亚型是散发性克雅氏病(sCJD),这是一种快速进展的痴呆症。扩散加权成像(DWI)已成为诊断sCJD最敏感的磁共振成像(MRI)序列,但很少有研究评估疾病进展过程中MRI信号的演变。
评估sCJD患者DWI上MRI信号异常的自然病程,以增进我们对发病机制的理解,并研究DWI作为疾病进展生物标志物的潜力,并与组织病理学进行相关性分析。
设计、地点和参与者:使用0至2的半定量评分系统,在基线和随访时对37例sCJD患者每个半球的26个皮质和5个皮质下分区的灰质受累情况进行DWI评估。计算全脑总分为各个区域得分之和。对7例患者进行了系列平均扩散率测量。记录基线MRI时的年龄、病程、萎缩情况、密码子129甲硫氨酸缬氨酸多态性、医学研究委员会评定量表评分和组织病理学结果。研究地点为英国伦敦的国家朊病毒病诊所。所有参与者均确诊或疑似患有sCJD,且在病程中至少进行了2次MRI检查。研究日期为2008年10月1日至2012年4月1日。分析日期为2012年1月19日至4月20日。
区域和全脑得分与病程的相关性。
在本研究的37例sCJD患者中,研究期间显示信号异常的区域数量显著增加,62个区域中有59个在随访时信号强度(SI)增加,最明显的是尾状核和壳核(两者P均<0.001)。平均(标准差)全脑总分从基线时的30.2(17.3)增加到随访时的40.5(20.6)(P = 0.001),与病程相关(基线时r = 0.47,P = 0.003;随访时r = 0.35,P = 0.03),左侧额叶SI与海绵样变程度相关(r = 0.64,P = 0.047)。随访时左侧尾状核平均扩散率降低(P < 0.001)。8例患者皮质区域SI降低,包括左侧颞下回和右侧舌回。
sCJD的磁共振图像显示DWI上SI的范围和程度增加,与病程和海绵样变程度相关。尽管皮质SI可能波动,但基底节SI增加是一个持续存在的发现,且是由于扩散受限所致。基底节的扩散加权成像可能在未来的治疗试验中提供一种非侵入性生物标志物。
