在 7T 下使用 QSM 和 R 2 * 测量正常老化大脑中的铁负荷：SENIOR 队列的研究结果。

Frontiers in neuroimaging Pub Date : 2024-10-21 eCollection Date: 2024-01-01 DOI:10.3389/fnimg.2024.1359630

Miguel Guevara, Stéphane Roche, Vincent Brochard, Davy Cam, Jacques Badagbon, Yann Leprince, Michel Bottlaender, Yann Cointepas, Jean-François Mangin, Ludovic de Rochefort, Alexandre Vignaud

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引用次数: 0

摘要

背景：铁在衰老过程中会在大脑中积累，是深入研究的重点，因为异常负荷，尤其是深层灰质（DGM）中的异常负荷，与神经变性有关。磁共振成像（MRI）指标，如定量易感图（QSM）和表观横向弛豫速率 R 2 *，可用于跟踪体内铁的情况。虽然年龄和性别对铁含量的影响已有报道，但仍需仔细考虑神经元风险因素并提高灵敏度，以确定正常的演变过程：方法：利用超高磁场磁共振成像的 QSM 和 R 2 *，通过一组经过仔细特征描述的健康老年脑（SENIOR）来研究 DGM 中的铁。对 77 名认知健康的老年人（54 至 78 岁/年）进行了临床、生物学、遗传学和心血管风险因素的仔细评估。研究了与年龄、性别、心血管风险因素和体重有关的差异：结果：在正常衰老的背景下，年龄和性别对通过 QSM 和 R 2 * 测量的脑铁沉积有影响，但没有出现病理性神经退行性过程。年龄越大，尾状核和普鲁曼的铁沉积值越高。女性参与者杏仁核中的铁含量较高，男性参与者丘脑中的铁含量较高。在评估年龄和性别的共同影响时，女性参与者在延脑、尾状核和海马中的铁含量也存在差异。具有较高心血管风险因素的参与者显示出较高的铁值，即使他们的认知能力没有受到任何损害。体重超重与女性参与者的QSM和R 2 *的普塔门铁负荷较高有关。我们发现，这些铁沉积的变化与载脂蛋白E基因型的特定特征无关：结论：确定 QSM 和 R 2 * 的基线值作为老龄化背景下的铁探针，对于确定神经变性过程中的差异至关重要。参与者的年龄和性别是影响脑铁正常值的重要因素。另一方面，与年龄相关疾病有关的心血管风险因素也可能与大脑中的铁沉积有关。

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Iron load in the normal aging brain measured with QSM and R 2 * at 7T: findings of the SENIOR cohort.

Background: Iron accumulates in the brain during aging and is the focus of intensive research as an abnormal load, particularly in Deep Gray Matter (DGM), is related to neurodegeneration. Magnetic Resonance Imaging (MRI) metrics such as Quantitative Susceptibility Mapping (QSM) and apparent transverse relaxation rate $R_{2}^{*}$ can be used to follow up iron in vivo. While the influence of age and sex on iron levels has already been reported, a careful consideration of neuronal risk factors, as well as for an enhanced sensitivity, is needed to define the normal evolution.

Methods: QSM and $R_{2}^{*}$ at ultra-high field MRI are used to study iron in DGM using a carefully-characterized cohort of the healthy aging brain (SENIOR). Seventy-seven cognitively healthy elders (from 54 to 78 y/o) with clinical, biology, genetics, and cardiovascular risk factors careful evaluation. Differences linked with age, sex, cardiovascular risk factors and weight are studied.

Results: Age and sex have an influence on the brain iron deposition measured by QSM and $R_{2}^{*}$ in a context of normal aging, without appearance of a pathological neurodegenerative process. Iron deposition shows higher values in the caudate and the putamen in older participants. Female participants present a higher level of iron in the amygdala, and males in the thalamus. Female participants also present differences in the accumbens, caudate and hippocampus when evaluating the joint age and sex effect. Participants with higher cardiovascular risk factors showed higher values of the iron, even without any impairment in their cognitive capability. An overweight is related with a higher iron load in the putamen for QSM and $R_{2}^{*}$ in female participants. We controlled that these modifications of iron deposition are not related to a specific profile in the genotype of ApoE loci.

Conclusions: Establishing baseline values of QSM and $R_{2}^{*}$ as iron probes in the context of aging is essential to determine differences in the process of neurodegeneration. Age and sex of participants are important factors that affect brain iron normal values. On the other hand, the presence of cardiovascular risk factors, which can be associated with age related diseases, can also potentially be linked with the iron deposition in the brain.

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Frontiers in neuroimaging

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