先进的定量核磁共振成像揭示丘脑微结构变化,反映多发性硬化症的疾病进展。

IF 7.8 1区 医学 Q1 CLINICAL NEUROLOGY Neurology® Neuroimmunology & Neuroinflammation Pub Date : 2024-09-13 DOI:10.1212/nxi.0000000000200299
Alessandro Cagol,Mario Ocampo-Pineda,Po-Jui Lu,Matthias Weigel,Muhamed Barakovic,Lester Melie-Garcia,Xinjie Chen,Antoine Lutti,Pasquale Calabrese,Jens Kuhle,Ludwig Kappos,Maria Pia Sormani,Cristina Granziera
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This cross-sectional and longitudinal study aimed to comprehensively characterize in vivo pathologic changes within thalamic microstructure in PwMS using advanced multiparametric quantitative MRI (qMRI).\r\n\r\nMETHODS\r\nThalamic microstructural integrity was evaluated using quantitative T1, magnetization transfer saturation, multishell diffusion, and quantitative susceptibility mapping (QSM) in 183 PwMS and 105 healthy controls (HCs). The same qMRI protocol was available for 127 PwMS and 73 HCs after a 2-year follow-up period. Inclusion criteria for PwMS encompassed either an active relapsing-remitting MS (RRMS) or inactive progressive MS (PMS) disease course. Thalamic alterations were compared between PwMS and HCs and among disease phenotypes. In addition, the study investigated the relationship between thalamic damage and clinical and conventional MRI measures of disease severity.\r\n\r\nRESULTS\r\nCompared with HCs, PwMS exhibited substantial thalamic alterations, indicative of microstructural and macrostructural damage, demyelination, and disruption in iron homeostasis. These alterations extended beyond focal thalamic lesions, affecting normal-appearing thalamic tissue diffusely. Over the follow-up period, PwMS displayed an accelerated decrease in myelin volume fraction [mean difference in annualized percentage change (MD-ApC) = -1.50; p = 0.041] and increase in quantitative T1 (MD-ApC = 0.92; p < 0.0001) values, indicating heightened demyelinating and neurodegenerative processes. The observed differences between PwMS and HCs were substantially driven by the subgroup with PMS, wherein thalamic degeneration was significantly accelerated, even in comparison with patients with RRMS. Thalamic qMRI alterations showed extensive correlations with conventional MRI, clinical, and cognitive disease burden measures. Disability progression over follow-up was associated with accelerated thalamic degeneration, as reflected by enhanced diffusion (β = -0.067; p = 0.039) and QSM (β = -0.077; p = 0.027) changes. Thalamic qMRI metrics emerged as significant predictors of neurologic and cognitive disability even when accounting for other established markers including white matter lesion load and brain and thalamic atrophy.\r\n\r\nDISCUSSION\r\nThese findings offer deeper insights into thalamic pathology in PwMS, emphasizing the clinical relevance of thalamic damage and its link to disease progression. 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引用次数: 0

摘要

背景和目的:多发性硬化症(PwMS)患者在病程中会出现丘脑萎缩。然而,人们对导致丘脑体积缩小的机制以及丘脑微结构病理学与疾病进展之间的关系知之甚少。这项横断面和纵向研究旨在利用先进的多参数定量 MRI(qMRI)全面描述 PwMS 丘脑微观结构的体内病理变化。方法利用定量 T1、磁化传递饱和度、多壳扩散和定量易感性图谱(QSM)评估 183 名 PwMS 和 105 名健康对照组(HCs)的丘脑微观结构完整性。经过 2 年的随访,127 名 PwMS 和 73 名 HC 采用了相同的 qMRI 方案。PwMS的纳入标准包括活动性复发缓解型多发性硬化症(RRMS)或非活动性进行性多发性硬化症(PMS)病程。研究比较了 PwMS 和 HC 之间以及不同疾病表型之间丘脑的改变。此外,该研究还调查了丘脑损伤与疾病严重程度的临床和常规 MRI 测量之间的关系。结果与 HCs 相比,PwMS 表现出丘脑的实质性改变,表明存在微观结构和宏观结构损伤、脱髓鞘和铁平衡紊乱。这些改变超出了丘脑局灶性病变的范围,弥漫性地影响到外观正常的丘脑组织。在随访期间,PwMS患者的髓鞘体积分数加速下降[年化百分比变化的平均差异(MD-ApC)=-1.50;p = 0.041],定量T1值增加(MD-ApC = 0.92;p < 0.0001),表明脱髓鞘和神经退行性过程加剧。PwMS和HC之间观察到的差异主要是由PMS亚组引起的,即使与RRMS患者相比,丘脑变性也明显加快。丘脑qMRI改变与常规磁共振成像、临床和认知疾病负担测量结果显示出广泛的相关性。随访期间的残疾进展与丘脑退化加速有关,这反映在弥散(β = -0.067;p = 0.039)和QSM(β = -0.077;p = 0.027)变化的增强上。丘脑 qMRI 指标成为神经和认知障碍的重要预测指标,即使考虑到其他已确定的标记物,包括白质病变负荷以及脑和丘脑萎缩,也是如此。先进的 qMRI 生物标志物在指导旨在减轻丘脑神经退行性病变过程的干预措施方面显示出巨大的潜力。
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Advanced Quantitative MRI Unveils Microstructural Thalamic Changes Reflecting Disease Progression in Multiple Sclerosis.
BACKGROUND AND OBJECTIVES In patients with multiple sclerosis (PwMS), thalamic atrophy occurs during the disease course. However, there is little understanding of the mechanisms leading to volume loss and of the relationship between microstructural thalamic pathology and disease progression. This cross-sectional and longitudinal study aimed to comprehensively characterize in vivo pathologic changes within thalamic microstructure in PwMS using advanced multiparametric quantitative MRI (qMRI). METHODS Thalamic microstructural integrity was evaluated using quantitative T1, magnetization transfer saturation, multishell diffusion, and quantitative susceptibility mapping (QSM) in 183 PwMS and 105 healthy controls (HCs). The same qMRI protocol was available for 127 PwMS and 73 HCs after a 2-year follow-up period. Inclusion criteria for PwMS encompassed either an active relapsing-remitting MS (RRMS) or inactive progressive MS (PMS) disease course. Thalamic alterations were compared between PwMS and HCs and among disease phenotypes. In addition, the study investigated the relationship between thalamic damage and clinical and conventional MRI measures of disease severity. RESULTS Compared with HCs, PwMS exhibited substantial thalamic alterations, indicative of microstructural and macrostructural damage, demyelination, and disruption in iron homeostasis. These alterations extended beyond focal thalamic lesions, affecting normal-appearing thalamic tissue diffusely. Over the follow-up period, PwMS displayed an accelerated decrease in myelin volume fraction [mean difference in annualized percentage change (MD-ApC) = -1.50; p = 0.041] and increase in quantitative T1 (MD-ApC = 0.92; p < 0.0001) values, indicating heightened demyelinating and neurodegenerative processes. The observed differences between PwMS and HCs were substantially driven by the subgroup with PMS, wherein thalamic degeneration was significantly accelerated, even in comparison with patients with RRMS. Thalamic qMRI alterations showed extensive correlations with conventional MRI, clinical, and cognitive disease burden measures. Disability progression over follow-up was associated with accelerated thalamic degeneration, as reflected by enhanced diffusion (β = -0.067; p = 0.039) and QSM (β = -0.077; p = 0.027) changes. Thalamic qMRI metrics emerged as significant predictors of neurologic and cognitive disability even when accounting for other established markers including white matter lesion load and brain and thalamic atrophy. DISCUSSION These findings offer deeper insights into thalamic pathology in PwMS, emphasizing the clinical relevance of thalamic damage and its link to disease progression. Advanced qMRI biomarkers show promising potential in guiding interventions aimed at mitigating thalamic neurodegenerative processes.
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来源期刊
CiteScore
15.60
自引率
2.30%
发文量
219
审稿时长
8 weeks
期刊介绍: Neurology Neuroimmunology & Neuroinflammation is an official journal of the American Academy of Neurology. Neurology: Neuroimmunology & Neuroinflammation will be the premier peer-reviewed journal in neuroimmunology and neuroinflammation. This journal publishes rigorously peer-reviewed open-access reports of original research and in-depth reviews of topics in neuroimmunology & neuroinflammation, affecting the full range of neurologic diseases including (but not limited to) Alzheimer's disease, Parkinson's disease, ALS, tauopathy, and stroke; multiple sclerosis and NMO; inflammatory peripheral nerve and muscle disease, Guillain-Barré and myasthenia gravis; nervous system infection; paraneoplastic syndromes, noninfectious encephalitides and other antibody-mediated disorders; and psychiatric and neurodevelopmental disorders. Clinical trials, instructive case reports, and small case series will also be featured.
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