Cerebral Oxygen Metabolic Stress in Children and Adults With Large Vessel Vasculopathy Due to Sickle Cell Disease.

IF 7.7 1区医学 Q1 CLINICAL NEUROLOGY Neurology Pub Date : 2024-12-10 Epub Date: 2024-11-15 DOI:10.1212/WNL.0000000000210032

Yan Wang, Slim Fellah, Martin Reis, Kristin P Guilliams, Melanie E Fields, Karen Steger-May, Amy E Mirro, Josiah B Lewis, Chunwei Ying, Rachel A Cohen, Monica L Hulbert, Allison A King, Yasheng Chen, Jin-Moo Lee, Hongyu An, Andria L Ford

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Abstract

Background and objectives: Large vessel vasculopathy (LVV), or moyamoya syndrome, increases the risk of stroke in patients with sickle cell disease (SCD), yet effective treatments are lacking. In atherosclerotic carotid disease, previous studies demonstrated elevated oxygen extraction fraction (OEF) as a predictor of ipsilateral stroke. In a SCD cohort, we examined hemispheric hemodynamic and oxygen metabolic dysfunction as tissue-based biomarkers of cerebral ischemic risk in patients with LVV.

Methods: Children and adults with SCD were recruited from a SCD clinic associated with a tertiary medical center and underwent prospective brain MRI and MR angiography. LVV was defined as ≥75% stenosis in a major anterior circulation artery, excluding occlusion or previous revascularization surgery. Baseline characteristics, cerebral blood flow (CBF), normalized OEF (nOEF), infarct volume, white matter microstructure, and brain volume were compared in hemispheres with vs without LVV. In a cross-sectional analysis, mixed-effects linear multivariable models examined the effect of LVV on: (1) CBF and nOEF, as tissue markers of hemodynamic and oxygen metabolic stress, respectively, and (2) endpoints of cerebral ischemic injury including infarct volume, white matter microstructure, and brain volume.

Results: Of 155 patients (22 [12-31] years, 57% female), 33 (21%) had ≥25% stenosis, 22 (14%) had ≥50% stenosis, 14 (9%) had 75%-99% stenosis, and 5 (3%) had 100% occlusion. After excluding hemispheres with previous revascularization surgery, LVV was present in 16 hemispheres from 11 patients. Hemispheres with (N = 16) vs without (N = 283) LVV had lower CBF (25.2 vs 32.1 mL/100 g/min, p = 0.01) and higher nOEF (0.99 vs 0.95, p = 0.02). On multivariable analysis, CBF was nonsignificantly lower (β = -0.16, p = 0.07) while nOEF remained higher in hemispheres with LVV (β = 0.04, p = 0.03). Moreover, LVV was associated with greater hemispheric infarct volume, microstructural disruption, and atrophy.

Discussion: Beyond greater infarct burden, LVV was associated with hemispheric atrophy and white matter microstructural injury. As an indicator of active hypoxia, elevated nOEF likely represents a compensatory response to flow-limiting stenosis in hemispheres with LVV. The study is limited by a small number of patients with severe stenosis. Future studies are needed to evaluate the potential of tissue-based CBF and nOEF in assessing stroke risk and guide timely treatment of vasculopathy in SCD.

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镰状细胞病导致大血管病变的儿童和成人的脑氧代谢压力

背景和目的：大血管病变（LVV）或莫亚莫亚综合征（moyamoya syndrome）会增加镰状细胞病（SCD）患者中风的风险，但目前尚缺乏有效的治疗方法。在动脉粥样硬化性颈动脉疾病中，先前的研究表明氧萃取分数（OEF）升高可预测同侧中风。在一个 SCD 队列中，我们研究了半球血流动力学和氧代谢功能障碍，将其作为低血容量患者脑缺血风险的基于组织的生物标志物：从一家与三级医疗中心相关的 SCD 诊所招募患有 SCD 的儿童和成人，对他们进行前瞻性脑 MRI 和 MR 血管造影检查。LVV定义为主要前循环动脉狭窄≥75%，不包括闭塞或既往接受过血管重建手术。比较了有 LVV 和无 LVV 的大脑半球的基线特征、脑血流（CBF）、归一化 OEF（nOEF）、梗死体积、白质微结构和脑容量。在横断面分析中，混合效应线性多变量模型检验了 LVV 对以下方面的影响：(1) CBF 和 nOEF，分别作为血流动力学和氧代谢压力的组织标记；(2) 脑缺血损伤的终点，包括梗死体积、白质微结构和脑容量：在155名患者（22[12-31]岁，57%为女性）中，33人（21%）血管狭窄≥25%，22人（14%）血管狭窄≥50%，14人（9%）血管狭窄75%-99%，5人（3%）血管100%闭塞。在排除既往接受过血管重建手术的半球后，11 名患者的 16 个半球存在左心室变异。有 LVV 的半球（N = 16）与没有 LVV 的半球（N = 283）相比，CBF 更低（25.2 vs 32.1 mL/100 g/min，p = 0.01），nOEF 更高（0.99 vs 0.95，p = 0.02）。在多变量分析中，CBF 无显著性降低（β = -0.16，p = 0.07），而有 LVV 的半球 nOEF 仍较高（β = 0.04，p = 0.03）。此外，LVV 与更大的半球梗死体积、微结构破坏和萎缩有关：讨论：除了更大的梗死负荷外，LVV 还与半球萎缩和白质微结构损伤有关。作为主动缺氧的指标，nOEF的升高很可能代表了有LVV的半球对血流限制性狭窄的代偿反应。这项研究受到严重狭窄患者人数较少的限制。未来的研究需要评估基于组织的 CBF 和 nOEF 在评估卒中风险和指导及时治疗 SCD 患者血管病变方面的潜力。

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来源期刊

Neurology 医学-临床神经学

CiteScore

12.20

自引率

4.00%

发文量

1973

审稿时长

2-3 weeks

期刊介绍： Neurology, the official journal of the American Academy of Neurology, aspires to be the premier peer-reviewed journal for clinical neurology research. Its mission is to publish exceptional peer-reviewed original research articles, editorials, and reviews to improve patient care, education, clinical research, and professionalism in neurology. As the leading clinical neurology journal worldwide, Neurology targets physicians specializing in nervous system diseases and conditions. It aims to advance the field by presenting new basic and clinical research that influences neurological practice. The journal is a leading source of cutting-edge, peer-reviewed information for the neurology community worldwide. Editorial content includes Research, Clinical/Scientific Notes, Views, Historical Neurology, NeuroImages, Humanities, Letters, and position papers from the American Academy of Neurology. The online version is considered the definitive version, encompassing all available content. Neurology is indexed in prestigious databases such as MEDLINE/PubMed, Embase, Scopus, Biological Abstracts®, PsycINFO®, Current Contents®, Web of Science®, CrossRef, and Google Scholar.