基于磁共振成像老年人脑白质损伤与脑血管储备功能的相关性

doi:10.13491/j.issn.1004-714X.2024.01.018

中国辐射卫生

2024, Vol. 33

Issue (1): 101-105,110 DOI: 10.13491/j.issn.1004-714X.2024.01.018

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基于磁共振成像老年人脑白质损伤与脑血管储备功能的相关性

罗丽红¹, 宫文儒², 李梅¹, 邢希子¹, 张华¹

1. 山东第一医科大学(山东省医学科学院)临床与基础医学院(基础医学研究所), 山东济南 250117;
2. 山东大学齐鲁医院放射科, 山东济南 250012

Relationship between cerebrovascular reserve capacity and white matter lesions in the elderly based on magnetic resonance imaging

LUO Lihong¹, GONG Wenru², LI Mei¹, XING Xizi¹, ZHANG Hua¹

1. School of Clinical and Basic Medicine, Shandong First Medical University, Jinan 250117 China;
2. Department of Radiology, Qilu Hospital of Shandong University, Jinan 250112 China

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摘要目的探讨脑血管储备(CVR）功能与老年人脑白质损伤的相关性。方法选择2018年5月—2019年7月山东省济南地区年龄 ≥ 60岁的老年人315例，进行经颅多普勒（TCD）超声检查脑血流检测并计算CVR、屏气指数（BHI）、动脉搏动指数（PI）。根据CVR分为CVR正常组（CVR ≥ 20%）206例、CVR受损组（CVR < 20%）109例。受试者进行头颅MRI扫描，评估脑室周围、皮质下和总脑白质高信号（WMH）体积，并进行Fazekas评分。结果与CVR正常组相比，受损组脑室周围、皮质下和总WMH体积及Fazekas评分 ≥ 2分患病率均显著升高（P < 0.01）。脑室周围、皮质下和总WMH体积分别与CVR（r = -0.70、-0.66、-0.73，P < 0.01）、BHI（r = -0.64、-0.65、-0.68，P < 0.01）负相关；与PI正相关（r = 0.60、0.65、0.65，P < 0.01）。校正混杂因素后，脑室周围、皮质下和总WMH体积仍分别与CVR、BHI显著负相关（P < 0.01）；与PI显著正相关（P < 0.01）。Logistic回归分析显示，与正常组相比，受损组脑室周围、皮质下和总Fazekas评分 ≥ 2发生的风险分别是1.96倍（95%CI：1.17 ~ 3.27，P < 0.01）、1.84倍（95%CI：1.11 ~ 3.05，P < 0.05）和2.33倍（95%CI：1.30 ~ 4.18，P < 0.01）。结论 CVR受损是老年人脑白质损伤的独立危险因素。

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	罗丽红
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关键词 ：脑白质损伤, 脑血管储备功能, 脑白质高信号, Fazekas评分

收稿日期: 2023-09-03

PACS:

R445.2

基金资助:国家自然科学基金项目（81973139）

通讯作者: 张华,E-mail:21hua@sina.com E-mail: 21hua@sina.com

作者简介: 罗丽红(1996-),女,福建三明人,硕士研究生在读,流行病与卫生统计学方向。E-mail:2936987775@qq.com

引用本文:

罗丽红, 宫文儒, 李梅, 邢希子, 张华. 基于磁共振成像老年人脑白质损伤与脑血管储备功能的相关性[J]. 中国辐射卫生, 2024, 33(1): 101-105,110.
LUO Lihong, GONG Wenru, LI Mei, XING Xizi, ZHANG Hua. Relationship between cerebrovascular reserve capacity and white matter lesions in the elderly based on magnetic resonance imaging. Chinese Journal of Radiological Health, 2024, 33(1): 101-105,110.

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http://www.zgfsws.com/CN/10.13491/j.issn.1004-714X.2024.01.018 或 http://www.zgfsws.com/CN/Y2024/V33/I1/101

[1] Etherton MR, Wu O, Rost NS. Recent advances in leukoaraiosis: white matter structural integrity and functional outcomes after acute ischemic stroke[J]. Curr Cardiol Rep, 2016, 18(12): 123. DOI: 10.1007/s11886-016-0803-0
[2] Fang EF, Xie CL, Schenkel JA, et al. A research agenda for ageing in China in the 21st century (2nd edition): focusing on basic and translational research, long-term care, policy and social networks[J]. Ageing Res Rev, 2020, 64: 101174. DOI: 10.1016/j.arr.2020.101174
[3] Kim S, Choi SH, Lee YM, et al. Periventricular white matter hyperintensities and the risk of dementia: a CREDOS study[J]. Int Psychogeriatr, 2015, 27(12): 2069-2077. DOI: 10.1017/S1041610215001076
[4] Huo LW, Chen PH, Wang ZX, et al. Impact of leukoaraiosis severity on the association of outcomes of mechanical thrombectomy for acute ischemic stroke: a systematic review and a meta-analysis[J]. J Neurol, 2021, 268(11): 4108-4116. DOI: 10.1007/s00415-020-10167-0
[5] Wang L, Leonards CO, Sterzer P, et al. White matter lesions and depression: a systematic review and meta-analysis[J]. J Psychiatr Res, 2014, 56: 56-64. DOI: 10.1016/j.jpsychires.2014.05.005
[6] Zeng WY, Chen YJ, Zhu ZB, et al. Severity of white matter hyperintensities: Lesion patterns, cognition, and microstructural changes[J]. J Cereb Blood Flow Metab, 2020, 40(12): 2454-2463. DOI: 10.1177/0271678X19893600
[7] Liu Q, Bhuiyan MIH, Liu RJ, et al. Attenuating vascular stenosis-induced astrogliosis preserves white matter integrity and cognitive function[J]. J Neuroinflamm, 2021, 18(1): 187. DOI: 10.1186/s12974-021-02234-8
[8] 宫文儒, 吕文成, 崔谊. 基于多模态MRI对颈动脉狭窄患者脑网络研究进展[J]. 中国辐射卫生,2023,32(1):70-74. DOI: 10.13491/j.issn.1004-714X.2023.01.015
Gong WR, Lv WC, Cui Y. Advances in multimodal MRI-based study of brain networks in patients with carotid artery stenosis[J]. Chin J Radiol Health, 2023, 32(1): 70-74. DOI: 10.13491/j.issn.1004-714X.2023.01.015
[9] Suri S, Bulte D, Chiesa ST, et al. Study protocol: the heart and brain study[J]. Front Physiol, 2021, 12: 643725. DOI: 10.3389/fphys.2021.643725
[10] Lee KO, Woo MH, Chung D, et al. Differential impact of plasma homocysteine levels on the periventricular and subcortical white matter hyperintensities on the brain[J]. Front Neurol, 2019, 10: 1174. DOI: 10.3389/fneur.2019.01174
[11] 张弘菁, 赵虹, 刘慧瑛, 等. 脑白质病变与认知障碍的研究进展[J]. 老年医学与保健,2021,27(4):865-867. DOI: 10.3969/j.issn.1008-8296.2021.04.045
Zhang HJ, Zhao H, Liu HY, et al. Research progress of white matter lesions and cognitive impairment[J]. Geriatr Health Care, 2021, 27(4): 865-867. DOI: 10.3969/j.issn.1008-8296.2021.04.045
[12] Rane S, Koh N, Boord P, et al. Quantitative cerebrovascular pathology in a community-based cohort of older adults[J]. Neurobiol Aging, 2018, 65: 77-85. DOI: 10.1016/j.neurobiolaging.2018.01.006
[13] Douvas I, Moris D, Karaolanis G, et al. Evaluation of cerebrovascular reserve capacity in symptomatic and asymptomatic internal carotid stenosis with transcranial Doppler[J]. Physiol Res, 2016, 65(6): 917-925. DOI: 10.33549/physiolres.933303
[14] Sam K, Crawley AP, Conklin J, et al. Development of white matter hyperintensity is preceded by reduced cerebrovascular reactivity[J]. Ann Neurol, 2016, 80(2): 277-285. DOI: 10.1002/ana.24712
[15] Yang D, Qin RM, Chu L, et al. Abnormal cerebrovascular reactivity and functional connectivity caused by white matter hyperintensity contribute to cognitive decline[J]. Front Neurosci, 2022, 16: 807585. DOI: 10.3389/fnins.2022.807585
[16] Ni L, Zhang B, Yang D, et al. Lower cerebrovascular reactivity contributed to white matter hyperintensity‐related cognitive impairment: a resting‐state functional MRI study[J]. J Magn Reson Imaging, 2021, 53(3): 703-711. DOI: 10.1002/jmri.27376
[17] 陈丽, 张小娟, 黄丽芬. 经阴道彩色多普勒超声用于鉴别卵巢囊肿良恶性的价值[J]. 中国辐射卫生,2022,31(6):731-734. DOI: 10.13491/j.issn.1004-714X.2022.06.016
Chen L, Zhang XJ, Huang LF. Clinical significance of transvaginal color Doppler ultrasound for the differential diagnosis of benign and malignant ovarian cysts[J]. Chin J Radiol Health, 2022, 31(6): 731-734. DOI: 10.13491/j.issn.1004-714X.2022.06.016
[18] Xu TY, Staessen JA, Wei FF, et al. Blood flow pattern in the middle cerebral artery in relation to indices of arterial stiffness in the systemic circulation[J]. Am J Hypertens, 2012, 25(3): 319-324. DOI: 10.1038/ajh.2011.223
[19] Fico BG, Miller KB, Rivera-Rivera LA, et al. The impact of aging on the association between aortic stiffness and cerebral pulsatility index[J]. Front Cardiovasc Med, 2022, 9: 821151. DOI: 10.3389/fcvm.2022.821151
[20] Pahlavian SH, Wang XH, Ma S, et al. Cerebroarterial pulsatility and resistivity indices are associated with cognitive impairment and white matter hyperintensity in elderly subjects: a phase-contrast MRI study[J]. J Cereb Blood Flow Metab, 2021, 41(3): 670-683. DOI: 10.1177/0271678X20927101
[21] Urbanova BS, Schwabova JP, Magerova H, et al. Reduced Cerebrovascular reserve capacity as a biomarker of microangiopathy in Alzheimer’s disease and mild cognitive impairment[J]. J Alzheimer's Dis, 2018, 63(2): 465-477. DOI: 10.3233/JAD-170815
[22] Luo XG, Bian Y, Wang JC, et al. Assessment of cerebrovascular reserve impairment using the breath-holding index in patients with leukoaraiosis[J]. Neural Regen Res, 2019, 14(8): 1412-1418. DOI: 10.4103/1673-5374.251332