Jakuszyk Paweł, Podlecka-Piętowska Aleksandra, Kossowski Bartosz, Nojszewska Monika, Zakrzewska-Pniewska Beata, Juryńczyk Maciej
Laboratory of Brain Imaging, Polish Academy of Sciences, Nencki Institute of Experimental Biology, 02-093 Warsaw, Poland.
Department of Neurology, Medical University of Warsaw, 02-091 Warsaw, Poland.
Brain Commun. 2024 Aug 30;6(5):fcae295. doi: 10.1093/braincomms/fcae295. eCollection 2024.
Multiple sclerosis and aquaporin-4 antibody neuromyelitis optica spectrum disorders are distinct autoimmune CNS disorders with overlapping clinical features but differing pathology. Multiple sclerosis is primarily a demyelinating disease with the presence of widespread axonal damage, while neuromyelitis optica spectrum disorders is characterized by astrocyte injury with secondary demyelination. Diagnosis is typically based on lesion characteristics observed on standard MRI imaging and antibody testing but can be challenging in patients with in-between clinical presentations. Non-conventional MRI techniques can provide valuable diagnostic information by measuring disease processes at the microstructural level. We used non-conventional MRI to measure markers of axonal loss in specific white matter tracts in multiple sclerosis and neuromyelitis optica spectrum disorders, depending on their relationship with focal lesions. Patients with relapsing-remitting multiple sclerosis ( = 20), aquaporin-4 antibody-associated neuromyelitis optica spectrum disorders ( = 20) and healthy controls ( = 20) underwent a 3T brain MRI, including T-, T- and diffusion-weighted sequences, quantitative susceptibility mapping and phase-sensitive inversion recovery sequence. Tractometry was used to differentiate tract fibres traversing through white matter lesions from those that did not. Neurite density index was assessed using neurite orientation dispersion and density imaging model. Cortical damage was evaluated using T relaxation rates. Cortical lesions and paramagnetic rim lesions were identified using phase-sensitive inversion recovery and quantitative susceptibility mapping. In tracts traversing lesions, only one out of 50 tracts showed a decreased neurite density index in multiple sclerosis compared with neuromyelitis optica spectrum disorders. Among 50 tracts not traversing lesions, six showed reduced neurite density in multiple sclerosis (including three in the cerebellum and brainstem) compared to neuromyelitis optica spectrum disorders. In multiple sclerosis, reduced neurite density was found in the majority of fibres traversing (40/50) and not traversing (37/50) white matter lesions when compared to healthy controls. A negative correlation between neurite density in lesion-free fibres and cortical lesions, but not paramagnetic rim lesions, was observed in multiple sclerosis (39/50 tracts). In neuromyelitis optica spectrum disorders compared to healthy controls, decreased neurite density was observed in a subset of fibres traversing white matter lesions, but not in lesion-free fibres. In conclusion, we identified significant differences between multiple sclerosis and neuromyelitis optica spectrum disorders corresponding to their distinct pathologies. Specifically, in multiple sclerosis, neurite density reduction was widespread across fibres, regardless of their relationship to white matter lesions, while in neuromyelitis optica spectrum disorders, this reduction was limited to fibres passing through white matter lesions. Further studies are needed to evaluate the discriminatory potential of neurite density measures in white matter tracts for differentiating multiple sclerosis from neuromyelitis optica spectrum disorders.
多发性硬化症和水通道蛋白4抗体相关的视神经脊髓炎谱系障碍是不同的自身免疫性中枢神经系统疾病,它们具有重叠的临床特征,但病理情况不同。多发性硬化症主要是一种脱髓鞘疾病,伴有广泛的轴突损伤,而视神经脊髓炎谱系障碍的特征是星形胶质细胞损伤伴继发性脱髓鞘。诊断通常基于标准MRI成像观察到的病变特征和抗体检测,但对于临床表现介于两者之间的患者可能具有挑战性。非常规MRI技术可以通过在微观结构水平测量疾病过程来提供有价值的诊断信息。我们使用非常规MRI来测量多发性硬化症和视神经脊髓炎谱系障碍中特定白质束的轴突损失标志物,这取决于它们与局灶性病变的关系。复发缓解型多发性硬化症患者(n = 20)、水通道蛋白4抗体相关的视神经脊髓炎谱系障碍患者(n = 20)和健康对照者(n = 20)接受了3T脑部MRI检查,包括T1、T2和扩散加权序列、定量磁化率成像和相位敏感反转恢复序列。纤维束成像用于区分穿过白质病变的纤维束纤维和未穿过的纤维束纤维。使用神经突方向离散度和密度成像模型评估神经突密度指数。使用T2弛豫率评估皮质损伤。使用相位敏感反转恢复和定量磁化率成像识别皮质病变和顺磁性边缘病变。在穿过病变的纤维束中,与视神经脊髓炎谱系障碍相比,多发性硬化症中50条纤维束中只有1条显示神经突密度指数降低。在50条未穿过病变纤维束中,与视神经脊髓炎谱系障碍相比,多发性硬化症中有6条显示神经突密度降低(包括小脑和脑干中的3条)。与健康对照相比,在多发性硬化症中,大多数穿过(40/50)和未穿过(37/50)白质病变的纤维中发现神经突密度降低。在多发性硬化症中,在无病变纤维中的神经突密度与皮质病变之间观察到负相关,但与顺磁性边缘病变无关(39/50条纤维束)。与健康对照相比,在视神经脊髓炎谱系障碍中,在穿过白质病变的一部分纤维中观察到神经突密度降低,但在无病变纤维中未观察到。总之,可以确定多发性硬化症和视神经脊髓炎谱系障碍之间存在与其不同病理相对应的显著差异。具体而言,在多发性硬化症中,无论神经突与白质病变的关系如何,神经突密度降低在纤维中普遍存在,而在视神经脊髓炎谱系障碍中,这种降低仅限于穿过白质病变的纤维。需要进一步研究来评估白质束中神经突密度测量对于区分多发性硬化症和视神经脊髓炎谱系障碍的鉴别潜力。
