产前人类脑干髓鞘化的合成 MRI 和 MR 指纹衍生弛豫度：基于尸体的定量成像研究

AJNR. American journal of neuroradiology Pub Date : 2024-09-09 DOI:10.3174/ajnr.A8337

Victor U Schmidbauer, Intesar-Victoria Malla Houech, Jakob Malik, Martin L Watzenboeck, Rebecca Mittermaier, Patric Kienast, Christina Haberl, Ivana Pogledic, Christian Mitter, Gregor O Dovjak, Astrid Krauskopf, Florian Prayer, Marlene Stuempflen, Tim Dorittke, Nikolai A Gantner, Julia Binder, Dieter Bettelheim, Herbert Kiss, Christine Haberler, Ellen Gelpi, Daniela Prayer, Gregor Kasprian

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引用次数: 0

摘要

背景和目的：目前，产前对正在进行的髓鞘化的放射学评估还很有限。新的定量磁共振成像模式可提供与髓鞘生成相关的弛豫特性。在这项回顾性尸检成像研究中，研究人员调查了合成磁共振成像和磁共振指纹衍生弛豫测量法追踪胎儿髓鞘发育的能力。此外，还分析了这两种磁共振方法结果的一致性：在 26 个病例中，提供了胎儿死后脑部磁共振定量数据（胎龄范围为 15+1 至 32+1；女性/男性比例为 14/12）。利用合成磁共振成像/磁共振指纹识别专用后处理程序（合成磁共振成像和磁共振指纹识别鲁棒定量工具）测定了延髓和中脑的弛豫测量值（T1-/T2-反射时间）。采用皮尔逊相关性检测磁共振成像时 T1 缓解时间/T2 缓解时间指标与胎龄之间的关系。计算类内相关系数以评估两种模式所提供结果的一致性：结果：两种模式提供的定量数据均显示与磁共振成像时的胎龄呈负相关：合成 MR 成像衍生弛豫时间（延髓 [r = -0.459; P = .021]; 中脑 [r = -0.413; P = .040]）、T2-弛豫时间（延髓 [r = -0.625; P r = -0.571; P = .003]）、MR 指纹衍生的 T1 松弛时间（延髓[r = -0.433；P = .035]；中脑[r = -0.386；P = .062]）和 T2 松弛时间（延髓[r =-0.883；P r = -0.890；P 结论：15+1 胎龄以上胎儿大脑的死后合成磁共振成像和磁共振指纹定量髓鞘之间存在良好到极佳的一致性。髓鞘定量指标与胎龄之间的强相关性表明，定量磁共振成像技术具有在产前大脑发育阶段识别髓鞘化延迟或异常状态的潜力。

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Synthetic MRI and MR Fingerprinting-Derived Relaxometry of Antenatal Human Brainstem Myelination: A Postmortem-Based Quantitative Imaging Study.

Background and purpose: The radiologic evaluation of ongoing myelination is currently limited prenatally. Novel quantitative MR imaging modalities provide relaxometric properties that are linked to myelinogenesis. In this retrospective postmortem imaging study, the capability of Synthetic MR imaging and MR fingerprinting-derived relaxometry for tracking fetal myelin development was investigated. Moreover, the consistency of results for both MR approaches was analyzed.

Materials and methods: In 26 cases, quantitative postmortem fetal brain MR data were available (gestational age range, 15 + 1 to 32 + 1; female/male ratio, 14/12). Relaxometric measurements (T1-/T2-relexation times) were determined in the medulla oblongata and the midbrain using Synthetic MR imaging/MR fingerprinting-specific postprocessing procedures (Synthetic MR imaging and MR Robust Quantitative Tool for MR fingerprinting). The Pearson correlations were applied to detect relationships between T1-relaxation times/T2-relaxation times metrics and gestational age at MR imaging. Intraclass correlation coefficients were calculated to assess the consistency of the results provided by both modalities.

Results: Both modalities provided quantitative data that revealed negative correlations with gestational age at MR imaging: Synthetic MR imaging-derived relaxation times (medulla oblongata [r = -0.459; P = .021]; midbrain [r = -0.413; P = .040]), T2-relaxation times (medulla oblongata [r = -0.625; P < .001]; midbrain [r = -0.571; P = .003]), and MR fingerprinting-derived T1-relaxation times (medulla oblongata [r = -0.433; P = .035]; midbrain [r = -0.386; P = .062]), and T2-relaxation times (medulla oblongata [r =-0.883; P < .001]; midbrain [r = -0.890; P < .001]).The intraclass correlation coefficient analysis for result consistency between both MR approaches ranged between 0.661 (95% CI, 0.351-0.841) (T2-relaxation times: medulla oblongata) and 0.920 (95% CI, 0.82-0.965) (T1-relaxation times: midbrain).

Conclusions: There is a good-to-excellent consistency between postmortem Synthetic MR imaging and MR fingerprinting myelin quantifications in fetal brains older than 15 + 1 gestational age. The strong correlations between quantitative myelin metrics and gestational age indicate the potential of quantitative MR imaging to identify delayed or abnormal states of myelination at prenatal stages of cerebral development.

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AJNR. American journal of neuroradiology

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