Chinese Journal of Stroke ›› 2019, Vol. 14 ›› Issue (11): 1135-1139.DOI: 10.3969/j.issn.1673-5765.2019.11.011
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Received:
2019-05-19
Online:
2019-11-20
Published:
2019-11-20
杨营营,王拥军,王伊龙
通讯作者:
王伊龙 yilong528@gmail.com
基金资助:
国家自然科学基金委员会杰出青年科学基金项目(81825007)
北京高校卓越青年科学家计划项目(BJJWZYJH01201910025030)
科技部“十三五”国家重点研发计划“症状性颅内外大动脉狭窄复发进展预测模型与干预策略研究”(2017YFC1307900)
北京市科学技术委员会“动脉粥样硬化性颅内动脉狭窄的他汀药物治疗研究”(D171100003017001)
北京市优秀人才培养资助青年拔尖团队(2016000021223TD03)
YANG Ying-Ying, WANG Yong-Jun, WANG Yi-Long. Advance in Relationship between Cerebral Small Vessel Disease and Intracranial Large Artery Disease[J]. Chinese Journal of Stroke, 2019, 14(11): 1135-1139.
杨营营, 王拥军, 王伊龙. 脑小血管病与颅内大动脉病变关系的研究进展[J]. 中国卒中杂志, 2019, 14(11): 1135-1139.
[1] WARDLAW J M,SMITH C,DICHGANS M.Mechanisms of sporadic cerebral small vessel disease:insights from neuroimaging[J]. Lancet Neurol,2013,12(5):483-497.[2] GORELICK P B,SCUTERI A,BLACK S E,et al.Vascular contributions to cognitive impairment anddementia:a statement for healthcare professionalsfrom the American Heart Association/AmericanStroke Association[J]. Stroke,2011,42(9):2672-2713.[3] WARDLAW J M,SMITH E E,BIESSELS G J,etal. Neuroimaging standards for research into smallvessel disease and its contribution to ageing andneurodegeneration[J]. Lancet Neurol,2013,12(8):822-838.[4] KWON H M,LYNN M J,TURAN T N,et al.Frequency,risk factors,and outcome of coexistentsmall vessel disease and intracranial arterial stenosis:results from the Stenting and Aggressive MedicalManagement for Preventing Recurrent Stroke inIntracranial Stenosis(SAMMPRIS)Trial[J]. JAMANeurol,2016,73(1):36-42.[5] WARDLAW J M,ALLERHAND M,DOUBALF N,et al. Vascular risk factors,large-arteryatheroma,and brain white matter hyperintensities[J].Neurology,2014,82(15):1331-1338.[6] WARDLAW J M,William M. Feinberg award forexcellence in clinical stroke:small vessel disease;a big problem,but fixable[J]. Stroke,2018,49(7):1770-1775.[7] SHOAMANESH A,PREIS S R,BEISER A S,etal. Inflammatory biomarkers,cerebral microbleeds,and small vessel disease:Framingham HeartStudy[J]. Neurology,2015,84(8):825-832.[8] AKOUDAD S,SEDAGHAT S,HOFMAN A,et al.Kidney function and cerebral small vessel disease inthe general population[J]. Int J Stroke,2015,10(4):603-608.[9] WANG B R,OU Z,JIANG T,et al. Independentcorrelation of serum homocysteine with cerebralmicrobleeds in patients with acute ischemic strokedue to large-artery atherosclerosis[J]. J StrokeCerebrovasc Dis,2016,25(11):2746-2751.[10] ZHAI F F,YAN S,LI M L,et al. Intracranialarterial dolichoectasia and stenosis:risk factors andrelation to cerebral small vessel disease[J]. Stroke,2018,49(5):1135-1140.[11] NAM K W,KWON H M,JEONG H Y,etal. Cerebral white matter hyperintensity isassociated with intracranial atherosclerosis ina healthy population[J/OL]. Atherosclerosis,2017,265:179-183. https://doi.org/10.1016/j.atherosclerosis.2017.09.010.[12] KIM T H,CHOI J W,ROH H G,et al.Atherosclerotic arterial wall change of non-stenoticintracracranial arteries on high-resolution MRI at3.0T:correlation with cerebrovascular risk factorsand white matter hyperintensity[J/OL]. Clin NeurolNeurosurg,2014,126:1-6. https://doi.org/10.1016/j.clineuro.2014.08.010.[13] QIAO Y,ANWAR Z,INTRAPIROMKUL J,etal. Patterns and implications of intracranial arterialremodeling in stroke patients[J]. Stroke,2016,47(2):434-440.[14] XU W H,LI M L,GAO S,et al. Plaque distributionof stenotic middle cerebral artery and its clinicalrelevance[J]. Stroke,2011,42(10):2957-2959.[15] DING L,HONG Y,PENG B. Association betweenlarge artery atherosclerosis and cerebral microbleeds:a systematic review and meta-analysis[J]. StrokeVasc Neurol,2017,2(1):7-14.[16] LAU K K,LI L,SCHULZ U,et al. Total smallvessel disease score and risk of recurrent stroke:validation in 2 large cohorts[J]. Neurology,2017,88(24):2260-2267.[17] KONGBUNKIAT K,WILSON D,KASEMSAPN,et al. Leukoaraiosis,intracerebral hemorrhage,and functional outcome after acute strokethrombolysis[J]. Neurology,2017,88(7):638-645.[18] SHI Z S,LOH Y,LIEBESKIND D S,et al.Leukoaraiosis predicts parenchymal hematomaafter mechanical thrombectomy in acute ischemicstroke[J]. Stroke,2012,43(7):1806-1811.[19] ZHANG J,PURI A S,KHAN M A,et al.Leukoaraiosis predicts a poor 90-day outcomeafter endovascular stroke therapy[J]. AJNR Am JNeuroradiol,2014,35(11):2070-2075.[20] GUO Y,ZI W,WAN Y,et al. Leukoaraiosis severityand outcomes after mechanical thrombectomy withstent-retriever devices in acute ischemic stroke[J]. JNeurointerv Surg,2019,11(2):137-140.[21] MIKATI A G,MANDELBAUM M,SAPNARS,et al. Impact of leukoaraiosis severity on theassociation of time to successful reperfusionwith 90-day functional outcome after large vesselocclusion stroke[J/OL]. Transl Stroke Res,2019.https://doi.org/10.1007/s12975-019-00703-0.[22] CHOI K H,KIM J H,KANG K W,et al.Impact of microbleeds on outcome followingrecanalization in patients with acute ischemicstroke[J/OL]. Stroke,2018. https://doi.org/10.1161/STROKEAHA.118.023084.[23] ATCHANEEYASAKUL K,LESLIE-MAZWI T,DONAHUE K,et al. White matter hyperintensityvolume and outcome of mechanical thrombectomywith stentriever in acute ischemic stroke[J]. Stroke,2017,48(10):2892-2894.[24] PICO F,LABREUCHE J,AMARENCO P.Pathophysiology,presentation,prognosis,andmanagement of intracranial arterial dolichoectasia[J].Lancet Neurol,2015,14(8):833-845.[25] DEL BRUTTO V J,ORTIZ J G,BILLER J.Intracranial arterial dolichoectasia[J/OL]. FrontNeurol,2017,8:344. https://doi.org/10.3389/fneur.2017.00344.[26] PICO F,LABREUCHE J,TOUBOUL P J,et al.Intracranial arterial dolichoectasia and small-vesseldisease in stroke patients[J]. Ann Neurol,2005,57(4):472-479.[27] THIJS V,GRITTNER U,FAZEKAS F,et al.Dolichoectasia and small vessel disease in youngpatients with transient ischemic attack and stroke[J].Stroke,2017,48(9):2361-2367.[28] PARK J M,KOO J S,KIM B K,et al.Vertebrobasilar dolichoectasia as a risk factor forcerebral microbleeds[J]. Eur J Neurol,2013,20(5):824-830.[29] PICO F,LABREUCHE J,SEILHEAN D,et al.Association of small-vessel disease with dilatativearteriopathy of the brain:neuropathologicevidence[J]. Stroke,2007,38(4):1197-1202.[30] ZHANG D P,PENG Y F,ZHANG H L,et al.Basilar artery tortuosity is associated with whitematter hyperintensities by TIMP-1[J/OL]. FrontNeurosci,2019,13:836. https://doi.org/10.3389/fnins.2019.00836.[31] PICO F,JACOB M P,LABREUCHE J,et al.Matrix metalloproteinase-3 and intracranial arterialdolichoectasia[J]. Ann Neurol,2010,67(4):508-515.[32] ROSENBERG G A,SULLIVAN N,ESIRI M M.White matter damage is associated with matrixmetalloproteinases in vascular dementia[J]. Stroke,2001,32(5):1162-1168.[33] CANDELARIO-JALIL E,THOMPSON J,TAHERIS,et al. Matrix metalloproteinases are associatedwith increased blood-brain barrier opening invascular cognitive impairment[J]. Stroke,2011,42(5):1345-1350.[34] BRISSET M,BOUTOUYRIE P,PICO F,et al.Large-vessel correlates of cerebral small-vesseldisease[J]. Neurology,2013,80(7):662-669.[35] POELS M M,ZACCAI K,VERWOERT G C,et al.Arterial stiffness and cerebral small vessel disease:the Rotterdam Scan Study[J]. Stroke,2012,43(10):2637-2642.[36] RIBA-LLENA I,JIMENEZ-BALADO J,CASTANE X,et al. Arterial stiffness is associatedwith basal ganglia enlarged perivascular spaces andcerebral small vessel disease load[J]. Stroke,2018,49(5):1279-1281.[37] ZHAI F F,YE Y C,CHEN S Y,et al. Arterialstiffness and cerebral small vessel disease[J/OL].Front Neurol,2018,9:723. https://doi.org/10.3389/fneur.2018.00723.[38] KIM Y B,PARK K Y,CHUNG P W,et al.Brachial-ankle pulse wave velocity is associatedwith both acute and chronic cerebral small vesseldisease[J/OL]. Atherosclerosis,2016,245:54-59.https://doi.org/10.1016/j.atherosclerosis.2015.12.006.[39] VAN SLOTEN T T,PROTOGEROU A D,HENRYR M,et al. Association between arterial stiffness,cerebral small vessel disease and cognitiveimpairment:a systematic review and meta-analysis[J/OL]. Neurosci Biobehav Rev,2015,53:121-130.https://doi.org/10.1016/j.neubiorev.2015.03.011.[40] MOK V,DING D,FU J,et al. Transcranial Dopplerultrasound for screening cerebral small vessel disease:a community study[J]. Stroke,2012,43(10):2791-2793.[41] ARIBISALA B S,MORRIS Z,EADIE E,etal. Blood pressure,internal carotid arteryflow parameters,and age-related white matterhyperintensities[J]. Hypertension,2014,63(5):1011-1018.[42] SHI Y,THRIPPLETON M J,MARSHALL I,etal. Intracranial pulsatility in patients with cerebralsmall vessel disease:a systematic review[J]. Clin Sci(Lond),2018,132(1):157-171.[43] ILIFF J J,WANG M,ZEPPENFELD D M,et al.Cerebral arterial pulsation drives paravascular CSFinterstitialfluid exchange in the murine brain[J]. JNeurosci,2013,33(46):18190-18199.[44] MESTRE H,KOSTRIKOV S,MEHTA R I,et al.Perivascular spaces,glymphatic dysfunction,andsmall vessel disease[J]. Clin Sci(Lond),2017,131(17):2257-2274. |
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