Cerebral pulsatility in relation with various imaging markers of cerebral small vessel disease: a longitudinal community-based study.

IF 5.4 3区材料科学 Q2 CHEMISTRY, PHYSICAL

ACS Applied Energy Materials Pub Date : 2024-02-16 eCollection Date: 2024-01-01 DOI:10.1177/17562864241227304

Weiyi Zhong, Yiwei Xia, Yunqing Ying, Yi Wang, Lumeng Yang, Xiaoniu Liang, Qianhua Zhao, Jianjun Wu, Zonghui Liang, Xiaoxiao Wang, Xin Cheng, Ding Ding, Qiang Dong

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引用次数: 0

Abstract

Background: Cerebral pulsatility is thought to reflect arterial stiffness and downstream microvascular resistance. Although previous studies indicated cerebral pulsatility might closely relate to development of cerebral small vessel disease (SVD), yet evidence remain controversial and longitudinal data are rare.

Objective: We aimed to explore relationships of cerebral pulsatility with severity and progression of various SVD imaging markers among the community-dwelling elderly.

Design: A longitudinal cohort study.

Methods: As part of the prospective community-based Shanghai Aging Study cohort, dementia- and stroke-free elderly were recruited for baseline assessment of cerebral pulsatility and SVD severity during 2010-2011 and traced for SVD progression during 2016-2017. Cerebral pulsatility was quantified for both anterior and posterior circulation with transcranial Doppler ultrasound. SVD imaging markers were measured with brain magnetic resonance imaging (MRI) including white matter hyperintensities (WMHs), enlarged perivascular spaces (ePVS), lacunes, and microbleeds. The cross-sectional and longitudinal relationships between cerebral pulsatility and SVD were analyzed by univariable and multivariable regression models.

Results: Totally, 188 eligible subjects were included at baseline and out of them, 100 (53.19%) returned for a 7-year follow-up. At baseline, increased pulsatility of posterior circulation was independently associated with more periventricular WMH (PWMH) and ePVS in basal ganglia (BG-ePVS) but not with other SVD markers. Longitudinally, higher posterior pulsatility predicted greater PWMH progression in participants with hypertension (β = 2.694, standard error [SE] = 1.112, p = 0.020), whereas pulsatility of anterior circulation was shown to prevent BG-ePVS progression among followed-up elderly (β = -6.737, SE = 2.685, p = 0.012). However, no significant relationship was found between cerebral pulsatility and burden of lacunes or cerebral microbleeds.

Conclusion: Higher pulsatility of posterior circulation could worsen PWMH progression, especially for participants with hypertension. But for development of ePVS, increased cerebral pulsatility could play a compensatory role among several healthy elderly. The distinct relationships between cerebral pulsatility and various SVD markers emphasized the importance of individualized SVD management.

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大脑搏动性与大脑小血管疾病的各种成像标志物的关系：一项基于社区的纵向研究。

背景：脑搏动被认为反映了动脉僵化和下游微血管阻力。尽管之前的研究表明脑脉动性可能与脑小血管疾病（SVD）的发展密切相关，但证据仍存在争议，纵向数据也很少见：我们旨在探讨社区老年人脑脉动率与各种 SVD 影像标记物的严重程度和进展之间的关系：设计：纵向队列研究：作为基于社区的前瞻性上海老龄化研究队列的一部分，2010-2011年期间招募了痴呆和无脑卒中的老年人进行脑脉动率和SVD严重程度的基线评估，2016-2017年期间追踪SVD进展。通过经颅多普勒超声对前循环和后循环的脑搏动性进行量化。脑磁共振成像（MRI）测量了SVD成像标记，包括白质高密度（WMH）、血管周围间隙增大（ePVS）、裂隙和微出血。研究人员通过单变量和多变量回归模型分析了脑搏动性与 SVD 之间的横向和纵向关系：共有 188 名符合条件的受试者接受了基线随访，其中 100 人（53.19%）接受了为期 7 年的随访。基线时，后循环搏动性增加与更多的脑室周围WMH（PWMH）和基底节ePVS（BG-ePVS）独立相关，但与其他SVD标志物无关。纵向来看，后循环搏动性越高，预测高血压患者的PWMH进展越大（β = 2.694，标准误差[SE] = 1.112，p = 0.020），而前循环搏动性可防止随访老年人的BG-ePVS进展（β = -6.737，SE = 2.685，p = 0.012）。然而，在脑脉动率与裂隙或脑微小出血负担之间没有发现明显的关系：结论：较高的后循环搏动性会加重 PWMH 的发展，尤其是对于高血压患者。结论：后循环搏动性增高会加剧 PWMH 的发展，尤其是对患有高血压的参与者而言，但对于 ePVS 的发展而言，脑搏动性增高可在一些健康的老年人中起到代偿作用。脑脉动率与各种SVD指标之间的不同关系强调了个体化SVD管理的重要性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ACS Applied Energy Materials Materials Science-Materials Chemistry

CiteScore

10.30

自引率

6.20%

发文量

1368

期刊介绍： ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.