Imaging features of diverse clinical syndrome of cerebral small vessel disease

doi:10.3969/j.issn.1006-7795.2013.06.016

Abstract

Abstract:

The term small vessel disease(SVD) encompasses all pathological processes that affect the small vessels of brain, including small arteries, arterioles, capillaries and small veins. Most often, SVD is used to refer only to the arterial vessels. Clinical features range from none specific symptoms, to discrete focal neurological symptoms(e.g., lacunar stroke), and insidious global neurological dysfunction such as vascular cognitive impairment and dementia, gait disturbances, mild parkinsonian signs and so on. However, SVD is neglected by many clinicians, although it compromise patient's quality of life seriously. The imaging features of SVD on MRI play an important role for diagnosis, these features include acute lacunar infarcts, lacunes, white matter lesions, enlarged perivascular spaces and microbleeds. Here, we summarize the neuroimaging and clinical features of SVD for the purpose of early recognition and management of SVD.

Key words: small vessel disease, lacunar infarct, white matter lesions

CLC Number:

R445

MI Taomian, SUN Yongxin. Imaging features of diverse clinical syndrome of cerebral small vessel disease[J]. Journal of Capital Medical University, 2013, 34(6): 860-867.

0
/ / Recommend

Add to citation manager EndNote|Reference Manager|ProCite|BibTeX|RefWorks

URL: https://journal03.magtech.org.cn/Jweb_sdykdxxb/EN/10.3969/j.issn.1006-7795.2013.06.016

https://journal03.magtech.org.cn/Jweb_sdykdxxb/EN/Y2013/V34/I6/860

References

[1] Pantoni L. Cerebral small vessel disease: from pathogenesis and clinical characteristics to therapeutic challenges[J]. Lancet Neurol, 2010, 9(7):689-701.
[2] Neuropathology Group. Medical Research Council Cognitive F, Aging S. Pathological correlates of late-onset dementia in a multicentre, community-based population in England and Wales. Neuropathology Group of the Medical Research Council Cognitive Function and Ageing Study(MRC CFAS)[J]. Lancet, 2001, 357(9251):169-175.
[3] Savva G M, Wharton S B, Ince P G, et al. Age, neuropathology, and dementia[J]. N Engl J Med, 2009, 360(22):2302-2309.
[4] Chang C C, Chang W N, Huang C R, et al. The relationship between isolated dizziness/vertigo and the risk factors of ischemic stroke: a case control study[J]. Acta Neurol Taiwan, 2011, 20(2):101-106.
[5] Roman G C, Erkinjuntti T, Wallin A, et al. Subcortical ischaemic vascular dementia[J]. Lancet Neurol, 2002, 1(7):426-436.
[6] Grool A M, van der Graaf Y, Mali W P, et al. Location and progression of cerebral small-vessel disease and atrophy, and depressive symptom profiles: The Second Manifestations of ARTerial disease(SMART)-Medea study[J]. Psychol Med, 2011:1-12.
[7] Verghese J, LeValley A, Hall C B, et al. Epidemiology of gait disorders in community-residing older adults[J]. J Am Geriatr Soc, 2006, 54(2):255-261.
[8] Louis E D, Brickman A M, DeCarli C, et al. Quantitative brain measurements in community-dwelling elderly persons with mild parkinsonian signs[J]. Arch Neurol, 2008, 65(12):1649-1654.
[9] Reitz C, Trenkwalder C, Kretzschmar K, et al. Relation of cerebral small-vessel disease and brain atrophy to mild Parkinsonism in the elderly[J]. Mov Disord, 2006, 21(11):1914-1919.
[10] Sakakibara R, Hattori T, Uchiyama T, et al. Urinary function in elderly people with and without leukoaraiosis: relation to cognitive and gait function[J]. J Neurol Neurosurg Psychiatry, 1999, 67(5):658-660.
[11] Patel B, Markus H S. Magnetic resonance imaging in cerebral small vessel disease and its use as a surrogate disease marker[J]. Int J Stroke, 2011, 6(1):47-59.
[12] Doubal F N, MacLullich A M, Ferguson K J, et al. Enlarged perivascular spaces on MRI are a feature of cerebral small vessel disease[J]. Stroke, 2010, 41(3):450-454.
[13] Donnan G A, Norrving B, Bamford J M, et al. Subcortical Infarction-Classification and Terminology[J]. Cerebrovasc Dis, 1993, 3(4):248-251.
[14] 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.
[15] Bang O Y, Joo S Y, Lee P H, et al. The course of patients with lacunar infarcts and a parent arterial lesion: similarities to large artery vs small artery disease[J]. Arch Neurol, 2004, 61(4):514-519.
[16] Potter G M, Doubal F N, Jackson C A, et al. Counting cavitating lacunes underestimates the burden of lacunar infarction[J]. Stroke, 2010, 41(2):267-272.
[17] Moreau F, Patel S, Lauzon M L, et al. Cavitation after acute symptomatic lacunar stroke depends on time, location, and MRI sequence[J]. Stroke, 2012, 43(7):1837-1842.
[18] Donnan G A, Bladin P F, Berkovic S F, et al. The stroke syndrome of striatocapsular infarction[J]. Brain, 1991, 114(Pt 1A):51-70.
[19] Wuerfel J, Haertle M, Waiczies H, et al. Perivascular spaces MRI marker of inflammatory activity in the brain?[J]. Brain, 2008, 131(Pt 9):2332-2340.
[20] Hachinski V C, Potter P, Merskey H. Leuko-araiosis[J]. Arch Neurol, 1987, 44(1):21-23.
[21] Schmidt R, Scheltens P, Erkinjuntti T, et al. White matter lesion progression: a surrogate endpoint for trials in cerebral small-vessel disease[J]. Neurology, 2004, 63(1):139-144.
[22] Koennecke H C. Cerebral microbleeds on MRI: prevalence, associations, and potential clinical implications[J]. Neurology, 2006, 66(2):165-171.
[23] Greenberg S M, Vernooij M W, Cordonnier C, et al. Cerebral microbleeds: a guide to detection and interpretation[J]. Lancet Neurol, 2009, 8(2):165-174.
[24] Kato H, Izumiyama M, Izumiyama K, et al. Silent cerebral microbleeds on T2*-weighted MRI: correlation with stroke subtype, stroke recurrence, and leukoaraiosis[J]. Stroke, 2002, 33(6):1536-1540.
[25] Braffman B H, Zimmerman R A, Trojanowski J Q, et al. Brain MR: pathologic correlation with gross and histopathology. 1. Lacunar infarction and Virchow-Robin spaces[J]. AJR Am J Roentgenol, 1988, 151(3):551-558.
[26] van Swieten J C, van den Hout J H, van Ketel B A, et al. Periventricular lesions in the white matter on magnetic resonance imaging in the elderly. A morphometric correlation with arteriolosclerosis and dilated perivascular spaces[J]. Brain, 1991, 114(Pt 2):761-774.
[27] Hirabuki N, Fujita N, FujⅡ K, et al. MR appearance of Virchow-Robin spaces along lenticulostriate arteries: spin-echo and two-dimensional fast low-angle shot imaging[J]. AJNR Am J Neuroradiol, 1994, 15(2):277-281.
[28] Pullicino P M, Miller L L, Alexandrov A V, et al. Infraputaminal 'lacunes'. Clinical and pathological correlations[J]. Stroke, 1995, 26(9):1598-1602.
[29] Rouhl R P, van Oostenbrugge R J, Knottnerus I L, et al. Virchow-Robin spaces relate to cerebral small vessel disease severity[J]. J Neurol, 2008, 255(5):692-696.
[30] Sudlow C L, Warlow C P. Comparable studies of the incidence of stroke and its pathological types: results from an international collaboration. International Stroke Incidence Collaboration[J]. Stroke, 1997, 28(3):491-499.
[31] Jackson C, Sudlow C. Comparing risks of death and recurrent vascular events between lacunar and non-lacunar infarction[J]. Brain, 2005, 128(Pt 11):2507-2517.
[32] Del Bene A, Palumbo V, Lamassa M, et al. Progressive lacunar stroke: review of mechanisms, prognostic features, and putative treatments[J]. Int J Stroke, 2012, 7(4):321-329.
[33] Boiten J, Lodder J, Kessels F. Two clinically distinct lacunar infarct entities?[J]. A hypothesis. Stroke, 1993, 24(5):652-656.
[34] de Jong G, Kessels F, Lodder J. Two types of lacunar infarcts: further arguments from a study on prognosis[J]. Stroke, 2002, 33(8):2072-2076.
[35] Alexopoulos G S, Kiosses D N, Klimstra S, et al. Clinical presentation of the "depression-executive dysfunction syndrome" of late life[J]. Am J Geriatr Psychiatry, 2002, 10(1):98-106.
[36] Wong K S, Gao S, Chan Y L, et al. Mechanisms of acute cerebral infarctions in patients with middle cerebral artery stenosis: a diffusion-weighted imaging and microemboli monitoring study[J]. Ann Neurol, 2002, 52(1):74-81.
[37] Khan A, Kasner S E, Lynn M J, et al. Risk factors and outcome of patients with symptomatic intracranial stenosis presenting with lacunar stroke[J]. Stroke, 2012, 43(5):1230-1233.
[38] Jackson C A, Hutchison A, Dennis M S, et al. Differing risk factor profiles of ischemic stroke subtypes: evidence for a distinct lacunar arteriopathy?[J]. Stroke, 2010, 41(4):624-629.
[39] Mead G E, Lewis S C, Wardlaw J M, et al. Severe ipsilateral carotid stenosis and middle cerebral artery disease in lacunar ischaemic stroke: innocent bystanders?[J]. J Neurol, 2002, 249(3):266-271.
[40] Potter G M, Doubal F N, Jackson C A, et al. Lack of association of white matter lesions with ipsilateral carotid artery stenosis[J]. Cerebrovasc Dis, 2012, 33(4):378-384.
[41] Macdonald R L, Kowalczuk A, Johns L. Emboli enter penetrating arteries of monkey brain in relation to their size[J]. Stroke, 1995, 26(7):1247-1250; discussion 1250-1241.
[42] O'Sullivan M, Morris R G, Markus H S. Brief cognitive assessment for patients with cerebral small vessel disease[J]. J Neurol Neurosurg Psychiatry, 2005, 76(8):1140-1145.
[43] Charlton R A, Morris R G, Nitkunan A, et al. The cognitive profiles of CADASIL and sporadic small vessel disease[J]. Neurology, 2006, 66(10):1523-1526.
[44] 贾建平, 韩阅.重视血管性认知障碍的神经心理学研究[J].中国脑血管病杂志, 2010, 7(2):57-59.
[45] Koga H, Takashima Y, Murakawa R, et al. Cognitive consequences of multiple lacunes and leukoaraiosis as vascular cognitive impairment in community-dwelling elderly individuals[J]. J Stroke Cerebrovasc Dis, 2009, 18(1):32-37.
[46] Nitkunan A, Barrick T R, Charlton R A, et al. Multimodal MRI in cerebral small vessel disease: its relationship with cognition and sensitivity to change over time[J]. Stroke, 2008, 39(7):1999-2005.
[47] Pantoni L, Poggesi A, Inzitari D. The relation between white-matter lesions and cognition[J]. Curr Opin Neurol, 2007, 20(4):390-397.
[48] Jokinen H, Kalska H, Mantyla R, et al. White matter hyperintensities as a predictor of neuropsychological deficits post-stroke[J]. J Neurol Neurosurg Psychiatry, 2005, 76(9):1229-1233.
[49] Prins N D, van Dijk E J, den Heijer T, et al. Cerebral white matter lesions and the risk of dementia[J]. Arch Neurol, 2004, 61(10):1531-1534.
[50] Jokinen H, Kalska H, Ylikoski R, et al. Longitudinal cognitive decline in subcortical ischemic vascular disease the LADIS Study[J]. Cerebrovasc Dis, 2009, 27(4):384-391.
[51] Frisoni G B, Galluzzi S, Pantoni L, et al. The effect of white matter lesions on cognition in the elderly small but detectable[J]. Nat Clin Pract Neurol, 2007, 3(11):620-627.
[52] Werring D J, Frazer D W, Coward L J, et al. Cognitive dysfunction in patients with cerebral microbleeds on T2*-weighted gradient-echo MRI[J]. Brain, 2004, 127(Pt 10):2265-2275.
[53] Yakushiji Y, Nishiyama M, Yakushiji S, et al. Brain microbleeds and global cognitive function in adults without neurological disorder[J]. Stroke, 2008, 39(12):3323-3328.
[54] Maclullich A M, Wardlaw J M, Ferguson K J, et al. Enlarged perivascular spaces are associated with cognitive function in healthy elderly men[J]. J Neurol Neurosurg Psychiatry, 2004, 75(11):1519-1523.
[55] O'Sullivan M, Jones D K, Summers P E, et al. Evidence for cortical "disconnection" as a mechanism of age-related cognitive decline[J]. Neurology, 2001, 57(4):632-638.
[56] de Laat K F, van Norden A G, Gons R A, et al. Gait in elderly with cerebral small vessel disease[J]. Stroke, 2010, 41(8):1652-1658.
[57] de Laat K F, Reid A T, Grim D C, et al. Cortical thickness is associated with gait disturbances in cerebral small vessel disease[J]. Neuroimage, 2012, 59(2):1478-1484.
[58] de Laat K F, Tuladhar A M, van Norden A G, et al. Loss of white matter integrity is associated with gait disorders in cerebral small vessel disease[J]. Brain, 2011, 134(Pt 1):73-83.
[59] van Zagten M, Lodder J, Kessels F. Gait disorder and parkinsonian signs in patients with stroke related to small deep infarcts and white matter lesions[J]. Mov Disord, 1998, 13(1):89-95.
[60] de Laat K F, van Norden A G, van Oudheusden L J, et al. Diffusion tensor imaging and mild parkinsonian signs in cerebral small vessel disease[J]. Neurobiol Aging, 2012, 33(9):2106-2112.
[61] de Laat K F, van Norden A G, Gons R A, et al. Cerebral white matter lesions and lacunar infarcts contribute to the presence of mild parkinsonian signs[J]. Stroke, 2012, 43(10):2574-2579.
[62] Piccini P, Pavese N, Canapicchi R, et al. White matter hyperintensities in Parkinson's disease Clinical correlations[J]. Arch Neurol, 1995, 52(2):191-194.
[63] Zijlmans J C, Thijssen H O, Vogels O J, et al. MRI in patients with suspected vascular parkinsonism[J]. Neurology, 1995, 45(12):2183-2188.
[64] Reider-Groswasser I, Bornstein N M, Korczyn A D. Parkinsonism in patients with lucanar infarcts of the basal ganglia[J]. Eur Neurol, 1995, 35(1):46-49.
[65] Wu C C, Young Y H. Association between leukoaraiosis and saccadic oscillation[J]. Arch Otolaryngol Head Neck Surg, 2007, 133(3):245-249.
[66] Taylor W D, Steffens D C, Krishnan K R. Psychiatric disease in the twenty-first century: The case for subcortical ischemic depression[J]. Biol Psychiatry, 2006, 60(12):1299-1303.
[67] 杨秋霞, 曹雪霞.老年抑郁症86例误诊误治分析[J].临床误诊误治, 2012, 25(7):45-46.
[68] Steffens D C, Helms M J, Krishnan K R, et al. Cerebrovascular disease and depression symptoms in the cardiovascular health study[J]. Stroke, 1999, 30(10):2159-2166.
[69] O'Brien J T, Firbank M J, Krishnan M S, et al. White matter hyperintensities rather than lacunar infarcts are associated with depressive symptoms in older people: the LADIS study[J]. Am J Geriatr Psychiatry, 2006, 14(10):834-841.
[70] Herrmann L L, Le Masurier M, Ebmeier K P. White matter hyperintensities in late life depression: a systematic review[J]. J Neurol Neurosurg Psychiatry, 2008, 79(6):619-624.
[71] Nebes R D, Vora I J, Meltzer C C, et al. Relationship of deep white matter hyperintensities and apolipoprotein E genotype to depressive symptoms in older adults without clinical depression[J]. Am J Psychiatry, 2001, 158(6):878-884.
[72] Alexopoulos G S, Meyers B S, Young R C, et al. "Vascular depression" hypothesis[J]. Arch Gen Psychiatry, 1997, 54(10):915-922.
[73] Fu J H, Wong K, Mok V, et al. Neuroimaging predictors for depressive symptoms in cerebral small vessel disease[J]. Int J Geriatr Psychiatry, 2010, 25(10):1039-1043.
[74] van Uden I W, van Norden A G, de Laat K F, et al. Depressive Symptoms and Amygdala Volume in Elderly with Cerebral Small Vessel Disease: The RUN DMC Study[J]. J Aging Res, 2011, 2011:647869.
[75] Tarvonen-Schröder S, Röyttä M, Räihä I, et al. Clinical features of leuko-araiosis[J]. J Neurol Neurosurg Psychiatry, 1996, 60(4):431-436.