Chinese Journal of Stroke ›› 2022, Vol. 17 ›› Issue (12): 1396-1402.DOI: 10.3969/j.issn.1673-5765.2022.12.019
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Received:
2021-12-10
Online:
2022-12-20
Published:
2022-12-20
郑占军, 赵性泉
1 北京 100070 首都医科大学附属北京天坛医院神经病学中心
2 河北燕达医院神经内科
通讯作者:
赵性泉 zxq@vip.163.com
ZHENG Zhanjun, ZHAO Xingquan. Advances in Correlation of Imaging Markers of Cerebral Small Vessel Disease with Spontaneous Hypertensive Intracerebral Hemorrhage[J]. Chinese Journal of Stroke, 2022, 17(12): 1396-1402.
郑占军, 赵性泉. 脑小血管病影像学标志物与自发性高血压脑出血的相关性研究进展[J]. 中国卒中杂志, 2022, 17(12): 1396-1402.
[1] 中华医学会神经病学分会,中华医学会神经病学分会脑血管病学组. 中国脑小血管病诊治共识[J]. 中华神经科杂志,2015,48(10):838-844. [2] 徐旭华. 自发性脑出血血肿远隔部位DWI高信号病灶与肾功能不全及脑小血管病的相关性研究[D]. 杭州:浙江大学,2019. [3] MORAN C,PHAN T G,SRIKANTH V K. Cerebral small vessel disease:a review of clinical,radiological,and histopathological phenotypes[J]. Int J Stroke,2012,7(1):36-46. [4] THOMPSON C S,HAKIM A M. Living beyond our physiological means:small vessel disease of the brain is an expression of a systemic failure in arteriolar function:a unifying hypothesis[J/OL]. Stroke,2009,40(5):e322-e330[2021-12-02]. https://doi.org/10.1161/STROKEAHA.108.542266. [5] 中华医学会神经病学分会,中华医学会神经病学分会脑血管病学组. 中国脑出血诊治指南(2019)[J]. 中华神经科杂志,2019,52(12):994-1005. [6] VAN ASCH C J,LUITSE M J,RINKEL G J,et al. Incidence,case fatality,and functional outcome of intracerebral haemorrhage over time,according to age,sex,and ethnic origin:a systematic review and meta-analysis[J]. Lancet Neurol,2010,9(2):167-176. [7] LIU M,WU B,WANG W Z,et al. Stroke in China:epidemiology,prevention,and management strategies[J]. Lancet Neurol,2007,6(5):456-464. [8] TSAI C F,THOMAS B,SUDLOW C L. Epidemiology of stroke and its subtypes in Chinese vs white populations:a systematic review[J]. Neurology,2013,81(3):264-272. [9] WU S M,WU B,LIU M,et al. Stroke in China:advances and challenges in epidemiology,prevention,and management[J]. Lancet Neurol,2019,18(4):394-405. [10] BRODERICK J P,BROTT T G,DULDNER J E,et al. Volume of intracerebral hemorrhage. A powerful and easy-to-use predictor of 30-day mortality[J]. Stroke,1993,24(7):987-993. [11] XU M M,CHENG Y J,SONG Q H,et al. Total burden of cerebral small vessel disease in recurrent ICH versus first-ever ICH[J]. Aging Dis,2019,10(3):570-577. [12] SATO S,DELCOURT C,HEELEY E,et al. Significance of cerebral small-vessel disease in acute intracerebral hemorrhage[J]. Stroke,2016,47(3):701-707. [13] DE LEEUW F E,DE GROOT J C,ACHTEN E,et al. Prevalence of cerebral white matter lesions in elderly people:a population based magnetic resonance imaging study. The rotterdam scan study[J]. J Neurol Neurosurg Psychiatry,2001,70(1):9-14. [14] ERKINJUNTTI T,BENAVENTE O,ELIASZIW M,et al. Diffuse vacuolization(spongiosis)and arteriolosclerosis in the frontal white matter occurs in vascular dementia[J]. Arch Neurol,1996,53(4):325-332. [15] MATSUSUE E,SUGIHARA S,FUJII S,et al. White matter changes in elderly people:MR-pathologic correlations[J]. Magn Reson Med Sci,2006,5(2):99-104. [16] SYKORA M,HERWEH C,STEINER T. The association between leukoaraiosis and poor outcome in intracerebral hemorrhage is not mediated by hematoma growth[J]. J Stroke Cerebrovasc Dis,2017,26(6):1328-1333. [17] MOROTTI A,SHOAMANESH A,OLIVEIRA-FILHO J,et al. Antihypertensive treatment of acute cerebral hemorrhage 2(ATACH-2)and the neurological emergencies treatment trials(NETT)network investigators. White matter hyperintensities and blood pressure lowering in acute intracerebral hemorrhage:a secondary analysis of the ATACH-2 trial[J]. Neurocrit Care,2020,32(1):180-186. [18] HANSEN B M,ULLMAN N,MUSCHELLI J,et al. Relationship of white matter lesions with intracerebral hemorrhage expansion and functional outcome:MISTIE Ⅱ and CLEAR Ⅲ[J]. Neurocrit Care,2020,33(2):516-524. [19] KAFFASHIAN S,TZOURIO C,ZHU Y C,et al. Differential effect of white-matter lesions and covert brain infarcts on the risk of ischemic stroke and intracerebral hemorrhage[J]. Stroke,2016,47(7):1923-1925. [20] UNIKEN VENEMA S M,MARINI S,LENA U K,et al. Impact of cerebral small vessel disease on functional recovery after intracerebral hemorrhage[J]. Stroke,2019,50(10):2722-2728. [21] YAKUSHIJI Y. Cerebral microbleeds:detection,associations and clinical implications[J/OL]. Front Neurol Neurosci,2015,37:78-92[2021-12-02]. https://doi. org/10. 1159/000437115. [22] VAN ES A C,VAN DER GROND J,DE CRAEN A J,et al. Cerebral microbleeds and cognitive functioning in the PROSPER study[J]. Neurology,2011,77(15):1446-1452. [23] NANNONI S,OHLMEIER L,BROWN R B,et al. Cognitive impact of cerebral microbleeds in patients with symptomatic small vessel disease[J]. Int J Stroke,2022,17(4):415-424. [24] SUO Y,CHEN W Q,PAN Y S,et al. Magnetic resonance imaging markers of cerebral small vessel disease in hematoma expansion of intracerebral hemorrhage[J]. J Stroke Cerebrovasc Dis,2018,27(7):2006-2013. [25] BOULOUIS G,VAN ETTEN E S,CHARIDIMOU A,et al. Association of key magnetic resonance imaging markers of cerebral small vessel disease with hematoma volume and expansion in patients with lobar and deep intracerebral hemorrhage[J]. JAMA Neurol,2016,73(12):1440-1447. [26] PARK Y S,CHUNG M S,CHOI B S. MRI assessment of cerebral small vessel disease in patients with spontaneous intracerebral hemorrhage[J]. Yonsei Med J,2019,60(8):774-781. [27] LIOUTAS V A,WU B,NORTON C,et al. Cerebral small vessel disease burden and functional and radiographic outcomes in intracerebral hemorrhage[J]. J Neurol,2018,265(12):2803-2814. [28] CHARIDIMOU A,IMAIZUMI T,MOULIN S,et al. Brain hemorrhage recurrence,small vessel disease type,and cerebral microbleeds:a meta-analysis[J]. Neurology,2017,89(8):820-829. [29] MCCARRON M O,NICOLL J A. Cerebral amyloid angiopathy and thrombolysis-related intracerebral haemorrhage[J]. Lancet Neurol,2004,3(8):484-492. [30] PASI M,CHARIDIMOU A,BOULOUIS G,et al. Cerebral small vessel disease in patients with spontaneous cerebellar hemorrhage[J]. J Neurol,2019,266(3):625-630. [31] PASSIAK B S,LIU D,KRESGE H A,et al. Perivascular spaces contribute to cognition beyond other small vessel disease markers[J/OL]. Neurology,2019,92(12):e1309-e1321[2021-12-02]. https://doi.org/10.1212/WNL.0000000000007124. [32] LAU K K,LI L,SCHULZ U,et al. Total small vessel disease score and risk of recurrent stroke:validation in large cohorts[J]. Neurology,2017,88(24):2260-2267. [33] DUPERRON M G,TZOURIO C,SCHILLING S,et al. High dilated perivascular space burden:a new MRI marker for risk of intracerebral hemorrhage[J/OL]. Neurobiol Aging,2019,84:158-165[2021-12-02]. https://doi.org/10.1016/j.neurobiolaging. 2019.08.031. [34] FARACO G,SUGIYAMA Y,LANE D,et al. Perivascular macrophages mediate the neurovascular and cognitive dysfunction associated with hypertension[J]. J Clin Invest,2016,126(12):4674-4689. [35] RAMIREZ J,BEREZUK C,MCNEELY A A,et al. Imaging the perivascular space as a potential biomarker of neurovascular and neurodegenerative diseases[J]. Cell Mol Neurobiol,2016,36(2):289-299. [36] GARG R K,LIEBLING S M,MAAS M B,et al. Blood pressure reduction,decreased diffusion on MRI,and outcomes after intracerebral hemorrhage[J]. Stroke,2012,43(1):67-71. [37] TSAI Y H,LEE M H,WENG H H,et al. Fate of diffusion restricted lesions in acute intracerebral hemorrhage[J/OL]. PLoS One,2014,9(8):e105970[2021-12-02]. https://doi.org/10.1371/journal.pone.0105970. [38] STAALS J,MAKIN S D,DOUBAL F N,et al. Stroke subtype.vascular risk factors,and total MRI brain small-vessel disease burden[J]. Neurology,2014,83(14):1228-1234. [39] UNIKEN VENEMA S M,MARINI S,BROUWERS H B,et al. Associations of radiographic cerebral small vessel disease with acute intracerebral hemorrhage volume,hematoma expansion,and intraventricular hemorrhage[J]. Neurocrit Care,2020,32(2):383-391. [40] XU T Q,FENG Y L,WU W W,et al. The predictive values of different small vessel disease scores on clinical outcomes in mild ICH patients[J]. J Atheroscler Thromb,2021,28(9):997-1008. [41] KIMURA Y,MIWA K,TAKASUGI J,et al. Total small vessel disease score and functional outcomes following acute intracerebral hemorrhage[J/OL]. J Stroke Cerebrovasc Dis,2020,29(8):105001[2021-12-02]. https://doi.org/10.1016/j.jstrokecerebrovasdis.2020.105001. [42] XU M M,LI B J,ZHONG D,et al. Cerebral small vessel disease load predicts functional outcome and stroke recurrence after intracerebral hemorrhage:a median follow-up of 5 years[J/OL]. Front Aging Neurosci,2021,13:628271[2021-12-02]. https://doi.org/10.3389/fnagi.2021.628271. [43] PASI M,SUGITA L,XIONG L,et al. Association of cerebral small vessel disease and cognitive decline after intracerebral hemorrhage[J/OL]. Neurology,2021,96(2):e182-e192[2021-12-02]. https://doi.org/10.1212/WNL.0000000000011050. |
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