Book contents
- Caplan’s Stroke
- Caplan’s Stroke
- Copyright page
- Contents
- Preface
- Contributors
- Part I General principles
- Part II Stroke syndromes
- Chapter 7 Large artery occlusive disease of the anterior circulation
- Chapter 8 Large vessel occlusive disease of the posterior circulation
- Chapter 9 Penetrating and branch artery disease
- Chapter 10 Brain embolism
- Chapter 11 Hypoxic–ischemic encephalopathy, cardiac arrest, and cardiac encephalopathy
- Chapter 12 Non-atherosclerotic vasculopathies
- Chapter 13 Subarachnoid hemorrhage, aneurysms, and vascular malformations
- Chapter 14 Intracerebral hemorrhage
- Chapter 15 Stroke in children and young adults
- Chapter 16 Spinal cord vascular disease
- Chapter 17 Cerebral venous thrombosis
- Part III Prevention, complications, and recovery–rehabilitation
- Index
- Plate section
- References
Chapter 9 - Penetrating and branch artery disease
from Part II - Stroke syndromes
Published online by Cambridge University Press: 05 August 2016
Edited by
Book contents
- Caplan’s Stroke
- Caplan’s Stroke
- Copyright page
- Contents
- Preface
- Contributors
- Part I General principles
- Part II Stroke syndromes
- Chapter 7 Large artery occlusive disease of the anterior circulation
- Chapter 8 Large vessel occlusive disease of the posterior circulation
- Chapter 9 Penetrating and branch artery disease
- Chapter 10 Brain embolism
- Chapter 11 Hypoxic–ischemic encephalopathy, cardiac arrest, and cardiac encephalopathy
- Chapter 12 Non-atherosclerotic vasculopathies
- Chapter 13 Subarachnoid hemorrhage, aneurysms, and vascular malformations
- Chapter 14 Intracerebral hemorrhage
- Chapter 15 Stroke in children and young adults
- Chapter 16 Spinal cord vascular disease
- Chapter 17 Cerebral venous thrombosis
- Part III Prevention, complications, and recovery–rehabilitation
- Index
- Plate section
- References
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- Caplan's StrokeA Clinical Approach, pp. 287 - 311Publisher: Cambridge University PressPrint publication year: 2016
References
Besson, G, Hommel, M: Historical aspects of lacunes and the “lacunar controversy”. In Pullicino, PM, Caplan, LR, Hommel, M (eds): Cerebral Small Artery Disease. New York: Raven Press, 1993, pp 1–10.Google Scholar
Hauw, J-J: The history of lacunes. In Donnan, G, Norrving, B, Bamford, J, Bogousslavsky, J (eds): Lacunar and Other Subcortical Infarcts. Oxford: Oxford University Press, 1995, pp 3–15.Google Scholar
Ferrand, J: Essai Sur l’Hemiplegie des Vieillards: Les Lacunes de Desintegration Cerebrale [thesis]. Paris: University of Paris, 1902.Google Scholar
Marie, P: Des foyers lacunaires de desintegration et des differents autres etats cavitaires du cerveau. Rev Med (Paris) 1901;21:281.Google Scholar
Foix, C, Hillemand, P: Contribution a l’etude des ramollisements protuberantiels. Rev Med 1926;43:287–305.Google Scholar
Caplan, LR: Charles Foix – the first modern stroke neurologist. Stroke 1990;21:348–356.Google Scholar
Kolominsky-Rabas, PL, Weber, M, Gefeller, O, Neundoerfer, B, Heuschmann, PU: Epidemiology of ischemic stroke subtypes according to TOAST criteria: Incidence, recurrence, and long-term survival in ischemic stroke subtypes: a population-based study. Stroke 2001;32:2735–2740.Google Scholar
Sacco, S, Marini, C, Totaro, R, Russo, T, Cerone, D, Carolei, A: A population-based study of the incidence and prognosis of lacunar stroke. Neurology 2006;66:1335–1338.Google Scholar
Awad, I, Johnson, PC, Spetzler, RF, Hodak, JA: Incidental subcortical lesions identified on magnetic resonance imaging in the elderly: II. Postmortem pathological correlations. Stroke 1986;17:1090–1097.CrossRefGoogle ScholarPubMed
Fisher, CM: Pure motor hemiplegia of vascular origin. Arch Neurol 1965;13:30–44.CrossRefGoogle ScholarPubMed
Fisher, CM: Pathological observations in hypertensive cerebral hemorrhage. J Neuropathol Exp Neurol 1971;30:536–550.CrossRefGoogle ScholarPubMed
Cole, F, Yates, P: Intracerebral microaneurysms and small cerebrovascular lesions. Brain 1966;90:759–767.CrossRefGoogle Scholar
Rosenblum, WJ: Miliary aneurysms and “fibrinoid” degeneration of cerebral blood vessels. Hum Pathol 1977;8:133–139.CrossRefGoogle ScholarPubMed
Charcot, J, Bouchard, C: Nouvelles recherches sur la pathogenie de l’hemorrhagie cérébrale. Arch Phys Norm Pathol 1868;1:110–127, 643–665.Google Scholar
Baudrimont, M, Dubas, F, Joutel, A: Autosomal dominant leukoencephalopathy and subcortical ischemic strokes: A clinicopathological study. Stroke 1993;24:122–125.Google Scholar
Lammie, GA, Rakshi, J, Rossor, MN, et al: Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy – confirmation by cerebral biopsy in two cases. Clin Neuropathol 1995;14:201–206.Google Scholar
Chabriat, H, Bousser, M-G: Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy. In Donnan, G, Norrving, B, Bamford, J, Bogousslavsky, J (eds): Subcortical Stroke, 2nd ed. Oxford: Oxford University Press, 2002, pp 111–120.CrossRefGoogle Scholar
Fukutake, T: Cerebral autosomal recessive arteriopathy with subcortical infarcts and leukoencephalopathy (CARASIL): From discovery to gene identification. J Stroke Cerebrovasc Dis 2011;20:85–93.Google Scholar
Oide, T, Nakayma, H, Yanagama, S, Ito, N, Arima, K: Extensive loss of arterial medial smooth muscle cells and mural extracellular matrix in cerebral autosomal recessive arteriopathy with subcortical infarcts and leukoencephalopathy (CARASIL). Neuropathology 2008;28:132–142.Google Scholar
Gould, DB, Phalan, FC, Breedveld, GI, et al: Mutations in COL4A1 cause perinatal cerebral hemorrhage and porencephaly. Science 2005;308:1167–1171.Google Scholar
van der Knaap, MS, Smit, LM, Barkhof, F, et al: Neonatal porencephaly and adult stroke related to mutations in collagen IVA1. Ann Neurol 2006;59:504–511.Google Scholar
Gould, DB, Phalan, FC, van Mil, SE, et al: Role of COL4A1 in small-vessel disease and hemorrhagic stroke. N Engl J Med 2006;354:1489–1496.Google Scholar
Plaisir, E, Gribouval, O, Alamowitch, S, et al: COL4A1 mutations and hereditary angiopathy, nephropathy, aneurysms, and muscle cramps. N Engl J Med 2007;357:2687–2695.Google Scholar
Lanfranconi, S, Markus, HS: COL4A1 mutations as a monogenic cause of cerebral small vessel disease a systematic review. Stroke 2010;41:e513–e518.Google Scholar
Labrune, P, Lacroix, C, Goutieres, F, et al: Extensive brain calcifications, leukodystrophy, and formation of parenchymal cysts: A new progressive disorder due to diffuse cerebral microangiopathy. Neurology 1996;46:1297–1301.Google Scholar
Corboy, JR, Gault, J, Kleinschmidt-Demasters, BK: An adult case of leukoencephalopathy with intracranial calcifications and cysts. Neurology 2006;67:1890–1892.Google Scholar
Duret, H: Conclusion d’un memorie sur la circulation bulbaire. Arch Phys Norm Pathol 1873;50:88–89.Google Scholar
Duret, H: Recherches anatomiques sur la circulation de l’encephale. Arch Phys Norm Pathol 1874;1:60–91, 316–353.Google Scholar
Foix, C, Hillemand, P: Irrigation de la protuberance. Compt Rendu Soc Biol (Paris) 1925;42:35–37.Google Scholar
Foix, C, Hillemand, P: Les artères de l’axe encephalique jusqu’a diencephale inclusivement. Rev Neurol 1925;41:705–739.Google Scholar
Foix, C, Hillemand, P: Irrigation du bulbe. Compt Rendu Soc Biol (Paris) 1924;42:33–35.Google Scholar
Stopford, J: The arteries of the pons and medulla oblongata: I. J Anat Physiol 1915;50:131–164.Google Scholar
Stopford, J: The arteries of the pons and medulla oblongata: II. J Anat Physiol 1916;50:255–280.Google Scholar
Pullicino, PM: The course and territories of cerebral small arteries. In Pullicino, PM, Caplan, LR, Hommel, M (eds): Cerebral Small Artery Disease. New York: Raven Press, 1993, pp 11–39.Google Scholar
Pullicino, PM: Diagrams of perforating artery territories in axial, coronal, and sagittal planes. In Pullicino, PM, Caplan, LR, Hommel, M (eds): Cerebral Small Artery Disease. New York: Raven Press, 1993, pp 41–72.Google Scholar
Fisher, CM, Caplan, LR: Basilar artery branch occlusion: A cause of pontine infarction. Neurology 1971;21:900–905.Google Scholar
Fisher, CM: Bilateral occlusion of basilar artery branches. J Neurol Neurosurg Psychiatry 1977;40:1182–1189.CrossRefGoogle ScholarPubMed
Caplan, LR: Intracranial branch atheromatous disease: A neglected, understudied and underused concept. Neurology 1989;39:1246–1250.Google Scholar
Ostrow, PT, Miller, LL: Pathology of small artery disease. In Pullicino, PM, Caplan, LR, Hommel, M (eds): Cerebral Small Artery Disease. New York: Raven Press, 1993, pp 93–123.Google Scholar
Klein, IF, Lavallee, PC, Touboul, P-J, et al: In vivo middle cerebral artery plaque imaging by high-resolution MRI. Neurology 2006;67:327–329.Google Scholar
Lam, WW, Wong, KS, So, NM, et al: Plaque volume measurement by magnetic resonance imaging as an index of remodeling of middle cerebral artery: Correlation with transcranial color Doppler and magnetic resonance angiography. Cerebrovasc Dis 2004;17:166–169.CrossRefGoogle ScholarPubMed
Klein, IF, Lavallee, PC, Schouman-Claeys, E, Amaraenco, P: High-resolution MRI identifies basilar artery plaques in paramedian pontine infarct. Neurology 2005;64:551–552.CrossRefGoogle ScholarPubMed
Kim, JS, Yoon, Y: Single subcortical infarction associated with parental arterial disease: important yet neglected sub-type of atherothrombotic stroke. Int J Stroke 2013;8:197–203.Google Scholar
Yoon, Y, Lee, DH, Kang, DW, Kwon, SU, Kim, JS: Single subcortical infarction and atherosclerotic plaques in the middle cerebral artery: High-resolution magnetic resonance imaging findings. Stroke 2013;44:2462–2467.CrossRefGoogle ScholarPubMed
Zhang, C, Wang, Y, Zhao, X, on behalf of the Chinese Intracranial Atherosclerosis Study Group: Distal single subcortical infarction had a better clinical outcome compared with proximal single subcortical infarction. Stroke 2014;45:2613–2619.Google Scholar
Horowitz, DR, Tuhrim, S, Weinberger, JM, Rudolph, SH: Mechanisms in lacunar infarction. Stroke 1992;23:325–327.Google Scholar
Peress, N, Kane, W, Aronson, S: Central nervous system findings in a tenth-decade autopsy population. Prog Brain Res 1973;40:473–484.Google Scholar
Bang, OY, Heo, JH, Kim, JY, et al: Middle cerebral artery stenosis is a major clinical determinant in striatocapsular deep infarction. Arch Neurol 2002;59:259–263.Google Scholar
Wong, KS, Gao, S, Chan, YL, et al: Mechanisms of acute cerebral infarctions in patients with middle cerebral artery stenosis: A diffusion-weighted imaging and microemboli monitoring study. Ann Neurol 2002;52:74–81.Google Scholar
Bang, OY, Joo, SY, Lee, PH, et al: The course of patients with lacunar infarcts and a parent arterial lesion: Similarities to large artery vs. small artery disease. Arch Neurol 2004;61:514–519.Google Scholar
Baumgartner, RW, Sidler, C, Mosso, M, Georgiadis, D: Ischemic lacunar stroke in patients with and without potential mechanism other than small-artery disease. Stroke 2003;34:653–659.Google Scholar
Boiten, J: Lacunar Stroke: A Prospective Clinical and Radiologic Study [thesis]. Maastricht, 1991.Google Scholar
Yamamoto, Y, Ohara, T, Hamanaka, M, Hosomi, A, Tamura, A, Akiguchi, I: Characteristics of intracranial branch atheromatous disease and its association with progressive motor deficits. J Neurol Sci 2011;304:78–82.Google Scholar
Norrving, B, Cronqvist, S: Clinical and radiologic features of lacunar versus nonlacunar minor stroke. Stroke 1989;20:59–64.Google Scholar
Pullicino, P, Nelson, R, Kendall, B, et al: Small deep infarcts diagnosed on computed tomography. Neurology 1980;30:1090–1096.Google Scholar
Weisberg, L: Computed tomography and pure motor hemiparesis. Neurology 1979;29:490–495.Google Scholar
Donnan, G, Tress, B, Bladin, P: A prospective study of lacunar infarction using computed tomography. Neurology 1982;32:47–56.Google Scholar
Mohr, JP, Caplan, LR, Melski, J: The Harvard Cooperative Stroke Registry: A prospective registry. Neurology 1978;28:754–762.CrossRefGoogle ScholarPubMed
Tuszynski, MH, Petito, CK, Levy, DB: Risk factors and clinical manifestations of pathologically verified lacunar infarctions. Stroke 1989;20:990–999.CrossRefGoogle ScholarPubMed
Labovitz, DL, Boden-Albala, B, Hauser, WA, Sacco, RL: Lacunar infarct or deep intracerebral hemorrhage. Who gets which? The Northern Manhattan Study. Neurology 2007;68:606–608.Google Scholar
Ikram, MA, Vernooji, MW, Hofman, A, et al: Kidney function is related to cerebral small vessel disease. Stroke 2008;39:55–61.Google Scholar
Pico, F, Labreuche, J, Seilhean, D, et al: Association of small-vessel disease with dilatative arteriopathy of the brain. Neuropathologic evidence. Stroke 2007;38:1197–1202.Google Scholar
Caplan, LR, Young, R: EEG findings in certain lacunar stroke syndromes. Neurology 1972;22:403.Google Scholar
Rascol, A, Clanet, M, Manelfe, C, et al: Pure motor hemiplegia: CT study of 30 cases. Stroke 1982;13:11–17.Google Scholar
Donnan, GA, O’Malley, HM, Quang, L, et al: The capsular warning syndrome and lacunar TIAs. In Donnan, G, Norrving, B, Bamford, J, Bogousslavsky, J (eds): Subcortical Stroke, 2nd ed. Oxford: Oxford University Press, 2002, pp 175–184.Google Scholar
Steinke, W, Ley, S: Lacunar stroke is the major cause of progressive motor deficits. Stroke 2002;33:1510–1516.Google Scholar
Caplan, LR: Worsening in ischemic stroke patients: Is it time for a new strategy? Stroke 2002; 33:1443–1445.Google Scholar
Donnan, GA, Norrving, B: Lacunes and lacunar syndromes. Handb Clin Neurol 2009;93:559–575.Google Scholar
Arboix, A, Massons, J, Garcia-Eroles, L, Targa, C, Comes, E, Parra, O: Clinical predictors of lacunar syndrome not due to lacunar infarction. BMC Neurol 2010;10:31.Google Scholar
Vermeer, SE, Longstreth, WT Jr, Koudstaal, PJ: Silent brain infarcts: A systematic review. Lancet Neurol 2007;6:611–619.Google Scholar
Vermeer, SE, Prins, ND, denHeijer, T, Hofman, A, Koudstaal, PJ, Breteler, M: Silent brain infarcts and the risk of dementia and cognitive decline. N Engl J Med 2003;348:1215–1222.Google Scholar
Nelson, R, Pullicino, P, Kendall, B, et al: Computed tomography in patients presenting with lacunar syndromes. Stroke 1980;11:256–261.CrossRefGoogle ScholarPubMed
Richter, R, Bruse, J, Bruun, B, et al: Frequency and course of pure motor hemiparesis: A clinical study. Stroke 1977;8:58–60.Google Scholar
Gobernado, JM, de Molina, AR, Gimeno, A: Pure motor hemiplegia due to hemorrhage in the lower pons. Arch Neurol 1980;37:393.Google Scholar
Mori, E, Tabuchi, M, Yamadori, A: Lacunar syndrome due to intracerebral hemorrhage. Stroke 1985;16:454–459.CrossRefGoogle ScholarPubMed
Kase, CS: Subcortical haemorrhages. In Donnan, G, Norrving, B, Bamford, J, Bogousslavsky, J (eds): Subcortical Stroke, 2nd ed. Oxford: Oxford University Press, 2002, pp 347–377.Google Scholar
Hommel, M, Besson, G, LeBas, JF, et al: Prospective study of lacunar infarction using magnetic resonance imaging. Stroke 1990;21:546–554.Google Scholar
Besson, G: Les Infarctus Lacunaires: Evaluation Clinique et par l’Imagerie par Resonance Magnetique [thesis]. France: University of Grenoble, 1989.Google Scholar
Kase, CS, Wolf, PA, Hier, DB, et al: Lacunar infarcts: Clinical and CT aspects. The Stroke Data Bank experience. Neurology 1986;36:178–179.Google Scholar
Fisher, CM, Cole, M: Homolateral ataxia and crural paresis, a vascular syndrome. J Neurol Neurosurg Psychiatry 1965;28:48–55.Google Scholar
Helgason, CM, Wilbur, AC: Capsular hypesthetic ataxic hemiparesis. Stroke 1990;21:24–33.Google Scholar
Goldblatt, D, Markesbury, W, Reeves, AG: Recurrent hemichorea following striatal lesions. Arch Neurol 1974;32:51–54.Google Scholar
Kase, C, Maulsby, G, DeJaun, E: Hemichorea-hemiballism and lacunar infarction in the basal ganglia. Neurology 1981;31:452–455.Google Scholar
Helgason, C, Wilbur, A, Weiss, A, et al: Acute pseudobulbar mutism due to discrete bilateral capsular infarction in the territory of the anterior choroidal artery. Brain 1988;111:507–524.Google Scholar
Caplan, LR, Schmahmann, JD, Kase, CS, et al: Caudate infarcts. Arch Neurol 1990;47:133–143.Google Scholar
Caplan, LR: Caudate infarcts. In Donnan, G, Norrving, B, Bamford, J, Bogousslavsky, J (eds): Subcortical Stroke, 2nd ed. Oxford: Oxford University Press, 2002, pp 209–223.Google Scholar
Helgason, C, Caplan, LR, Goodwin, J, Hedges, T: Anterior choroidal artery territory infarction: Case reports and review. Arch Neurol 1986;43:681–686.Google Scholar
Mohr, JP, Steinke, W, Timsit, SG, et al: The anterior choroidal artery does not supply the corona radiata and lateral ventricular wall. Stroke 1991;22:1502–1507.Google Scholar
Caplan, LR: Anterior choroidal artery territory infarcts. In Donnan, G, Norrving, B, Bamford, J, Bogousslavsky, J (eds): Subcortical Stroke, 2nd ed. Oxford: Oxford University Press, 2002, pp 225–240.Google Scholar
Kumral, E, Evyapan, D, Balkir, K: Acute caudate vascular lesions. Stroke 1999;30:100–108.Google Scholar
Mendez, M, Adams, N, Lewandowski, K: Neurobehavioral changes associated with caudate lesions. Neurology 1989;39:349–354.Google Scholar
Caplan, LR: Vertebrobasilar Ischemia and Hemorrhage: Clinical Findings, Diagnosis and Management of Posterior Circulation Disease. Cambridge, Cambridge University Press, 2015.Google Scholar
Bassetti, C, Bogousslavsky, J, Barth, A, Regli, F: Isolated infarcts of the pons. Neurology 1996;46:165–175.Google Scholar
Rothrock, JF, Lyden, PD, Hesselink, JF, et al: Brain magnetic resonance imaging in the evaluation of lacunar stroke. Stroke 1987;18:781–786.Google Scholar
Leestra, JE, Noronha, A: Pure motor hemiplegia, medullary pyramid lesion, and olivary hypertrophy. J Neurol Neurosurg Psychiatry 1976;39:877–884.Google Scholar
Ropper, AH, Fisher, CM, Kleinman, GM: Pyramidal infarction in the medulla: A cause of pure motor hemiplegia sparing the face. Neurology 1979;29:91–95.Google Scholar
Milandre, L, Arnaud, O, Khalil, R: Infarction of the medullary pyramid identified on MRI. Cerebrovasc Dis 1992;2:183–184.Google Scholar
Kataoka, S, Hori, A, Shirakawa, T, Hirose, G: Paramedian pontine infarction, neurological/topographical correlation. Stroke 1997;28:809–815.Google Scholar
Kim, JS, Lee, JH, Im, JH, Lee, MC: Syndromes of pontine base infarction, a clinical–radiological correlation study. Stroke 1995;26:950–955.Google Scholar
Fisher, CM: A lacunar stroke, the dysarthria-clumsy hand syndrome. Neurology 1967;17:614–617.Google Scholar
Chung, C-S, Caplan, LR: Pontine infarcts and hemorrhages. In Bogousslavsky, J, Caplan, LR (eds): Stroke Syndromes, 2nd ed. Cambridge: Cambridge University Press, 2001, pp 520–533.Google Scholar
Helgason, CM, Wilbur, AC: Basilar branch pontine infarctions with prominent sensory signs. Stroke 1991;22:1129–1136.Google Scholar
Caplan, LR, Goodwin, J: Lateral tegmental brainstem hemorrhages. Neurology 1982;32:252–260.Google Scholar
Shintani, S, Tsuroka, S, Shiigai, T: Pure sensory stroke caused by a pontine infarct. Clinical, radiological, and physiological features in four patients. Stroke 1994;25:1512–1515.CrossRefGoogle ScholarPubMed
Kim, JS, Bae, YH: Pure or predominant sensory stroke due to brainstem lesion. Stroke 1997;28:1761–1764.Google Scholar
Ho, K-L: Pure motor hemiplegia due to infarction of the cerebral peduncle. Arch Neurol 1982;39:524–526.Google Scholar
Bogousslavsky, J, Maeder, P, Regli, F, et al: Pure midbrain infarction: Clinical syndromes, MRI, and etiologic patterns. Neurology 1994;44:2032–2040.Google Scholar
Martin, PJ, Chang, H-M, Wityk, R, Caplan, LR: Midbrain infarction: Associations and aetiologies in the New England Medical Center Posterior Circulation Registry. J Neurol Neurosurg Psychiatry 1998;64:392–395.Google Scholar
Hommel, M, Besson, G: Midbrain infarcts. In Bogousslavsky, J, Caplan, LR (eds): Stroke Syndromes, 2nd ed. Cambridge: Cambridge University Press, 2001, pp 512–519.Google Scholar
Hommel, B, Besson, G, Pollak, P, et al: Hemiplegia in posterior cerebral artery occlusion. Neurology 1990;40:1496–1499.Google Scholar
Mossuto-Agatiello, L: Caudal paramedian midbrain syndrome. Neurology 2006;66:1668–1671.Google Scholar
Sato, S, Toyoda, K, Kawase, K, et al: A caudal mesencephalic infarct presenting only tetra-ataxia and tremor. Cerebrovasc Dis 2008;25:187–189.Google Scholar
Castaigne, P, Lhermitte, F, Buge, A, et al: Paramedian thalamic and midbrain infarcts: Clinical and neuropathological study. Ann Neurol 1981;10:127–148.Google Scholar
Percheron, G: Les arteres du thalamus humain: II. Arteres et territoires thalamique paramedians de l’arterie basilarie communicante. Rev Neurol (Paris) 1976;132:309–324.Google Scholar
Barth, A, Bogousslavsky, J, Caplan, LR: Thalamic infarcts and hemorrhages. In Bogousslavsky, J, Caplan, LR (eds): Stroke Syndromes, 2nd ed. Cambridge: Cambridge University Press, 2001, pp 461–468.Google Scholar
Bogousslavsky, J, Miklossy, J, Deruaz, J, et al: Unilateral left paramedian infarction of thalamus and midbrain: A clinicopathological study. J Neurol Neurosurg Psychiatry 1986;49:686–694.Google Scholar
Graff-Radford, NR, Damasio, H, Yamada, T, et al: Nonhaemorrhagic thalamic infarction. Brain 1985;108:495–516.Google Scholar
Bogousslavsky, J, Regli, F, Assal, G: The syndrome of tuberothalamic artery territory infarction. Stroke 1986;17:434–441.Google Scholar
Bogousslavsky, J, Regli, F, Uske, A: Thalamic infarcts: Clinical syndromes, etiology, and prognosis. Neurology 1988;38:837–848.Google Scholar
Tatemichi, T, Steinke, W, Duncan, C, et al: Paramedian thalamo-peduncular infarction: Clinical syndromes and magnetic resonance imaging. Ann Neurol 1992;32:162–171.Google Scholar
Bogousslavsky, J, Caplan, LR: Vertebrobasilar occlusive disease, review of selected aspects. III: Thalamic infarcts. Cerebrovasc Dis 1993;3:193–205.Google Scholar
de Freitas, GR, Bogousslavsky, J: Thalamic infarcts. In Donnan, G, Norrving, B, Bamford, J, Bogousslavsky, J (eds): Subcortical Stroke, 2nd ed. Oxford: Oxford University Press, 2002, pp 255–285.Google Scholar
Kaplan, RF, Estol, CJ, Damasio, H, et al: Bilateral polar artery thalamic infarcts. Neurology 1991;41(Suppl 1):329.Google Scholar
Wall, M, Slamovits, TL, Weisberg, LA, Trufant, SA: Vertical gaze ophthalmoplegia from infarction in the area of the posterior thalamo-subthalamic paramedian artery. Stroke 1986;17:546–555.Google Scholar
Pierrot-Deseiligny, C, Caplan, LR: Eye movement abnormalities. In Caplan, LR, van Gijn, J (eds): Stroke Syndromes 3rd ed. Cambridge: Cambridge University Press, 2012, pp 64–74.Google Scholar
Meissner, I, Sapir, S, Kokmen, E, Stein, SD: The paramedian diencephalic syndrome: A dynamic phenomenon. Stroke 1987;18:380–385.Google Scholar
Caplan, LR, DeWitt, LD, Pessin, MS, et al: Lateral thalamic infarcts. Arch Neurol 1988;45:959–964.Google Scholar
Fisher, CM: Pure sensory stroke involving face, arm, and leg. Neurology 1965;15:76–80.Google Scholar
Fisher, CM: Thalamic pure sensory stroke: A pathologic study. Neurology 1978;28:1141–1144.Google Scholar
Hommel, M, Besson, G, Pollak, P, et al: Pure sensory stroke due to a pontine lacune. Stroke 1989;20:406–408.Google Scholar
Mohr, JP, Kase, C, Meckler, R, et al: Sensorimotor stroke. Arch Neurol 1977;34:734–741.Google Scholar
Mohr, JP, Timsit, S: Choroidal artery disease. In Barnett, HJM, Mohr, JP, Stein, BM, Yatsu, F (eds): Stroke, Pathophysiology, Diagnosis, and Management, 3rd ed. New York: Churchill Livingstone, 1998, pp 503–512.Google Scholar
Besson, G, Bogousslavsky, J, Regli, F: Posterior choroidal-artery infarct with homonymous horizontal sectoranopia. Cerebrovasc Dis 1991;1:117–120.CrossRefGoogle Scholar
Frisen, I, Holmegaard, L, Rosencrantz, M: Sectorial optic atrophy and homonymous, horizontal sectoranopia: A lateral posterior choroidal artery syndrome. J Neurol Neurosurg Psychiatry 1978;41:374–380.Google Scholar
Neau, JP, Bogousslavsky, J: The syndrome of posterior choroidal artery territory infarction. Ann Neurol 1996;39:779–788.Google Scholar
Loeb, C, Gandolfo, C, Croce, R, Conti, M: Dementia associated with lacunar infarction. Stroke. 1992;23:1225–1229.Google Scholar
Jacova, C, Pearce, LA, Costello, R, et al: Cognitive impairment in lacunar strokes: The SPS3 trial. Ann Neurol 2012;72:351–362.Google Scholar
Makin, SD, Turpin, S, Dennis, MS, Wardlaw, JM: Cognitive impairment after lacunar stroke: Systematic review and meta-analysis of incidence, prevalence and comparison with other stroke subtypes. J Neurol Neurosurg Psychiatry 2013;84:893–900.Google Scholar
Longstreth, WT Jr, Arnold, AM, Beauchamp, NJ Jr, et al: Incidence, manifestations, and predictors of worsening white matter on serial cranial magnetic resonance imaging in the elderly: The Cardiovascular Health Study. Stroke 2005;36:56–61.Google Scholar
Schmidt, R, Ropele, S, Enzinger, C, et al: White matter lesion progression, brain atrophy, and cognitive decline: The Austrian Stroke Prevention Study. Ann Neurol 2005;58:610–616.Google Scholar
Vermeer, SE, Hollander, M, van Dijk, EJ, Hofman, A, Koudstaal, PJ, Breteler, MM. Silent brain infarcts and white matter lesions increase stroke risk in the general population: The Rotterdam Scan Study. Stroke 2003;34:1126–1129.Google Scholar
Adams, H, Damasio, H, Putnam, S, et al: Middle cerebral artery occlusion as a cause of isolated subcortical infarction. Stroke 1983;14:948–952.Google Scholar
Maki, G, Mihara, H, Shizuka, M, et al: CT and arteriographic comparison of patients with transient ischemic attacks: Correlation with small infarcts of basal ganglia. Stroke 1983;14:276–280.Google Scholar
Caplan, LR, Babikian, V, Helgason, C, et al: Occlusive disease of the middle cerebral artery. Neurology 1985;35:975–982.Google Scholar
Bogousavsky, J, Regli, F, Maeder, P: Intracranial large-artery disease and “lacunar” infarction. Cerebrovasc Dis 1991;1:154–159.Google Scholar
Miyashita, K, Naritomi, H, Sawada, T, et al: Identification of recent lacunar lesions in cases of multiple small infarction by magnetic resonance imaging. Stroke 1988;29:834–839.Google Scholar
Patel, B, Markus, HS: Magnetic resonance imaging in cerebral small vessel disease and its use as a surrogate disease marker. Int J Stroke 2011;6:47–59.Google Scholar
Förster, A, Kerl, HU, Wenz, H, Brockmann, MA, Nölte, I, Groden, C: Diffusion- and perfusion-weighted imaging in acute lacunar infarction: Is there a mismatch? PLoS One 2013;8:e77428.Google Scholar
Bang, OY, Yeo, SH, Yoon, JH, et al: Clinical MRI cutoff points for predicting lacunar stroke may not exist: Need for a grading rather than a dichotomized system. Cerebrovasc Dis 2007;24:520–529.Google Scholar
Rajajee, V, Kidwell, C, Starkman, S, et al: Diagnosis of lacunar infarcts within 6 hours of onset by clinical and CT criteria versus MRI. UCLA MRI Acute Stroke Investigators. J Neuroimag 2008;18:66–72.Google Scholar
Faris, A, Poser, C, Wilmore, D, et al: Radiologic visualization of neck vessels in healthy men. Neurology 1963;13:386–396.Google Scholar
Takahashi, W, Fujii, H, Ide, M, et al: Atherosclerotic changes in intracranial and extracranial large arteries in apparently healthy persons with asymptomatic lacunar infarction. J Stroke Cerebrovasc Dis 2005;14:17–22.Google Scholar
Lodder, J, Bamford, J, Kappelle, J, Boiten, J: What causes false clinical prediction of small deep infarcts. Stroke 1994;25:86–91.Google Scholar
National Institute of Neurological Disorders and Stroke rt-PA Study Group: Tissue plasminogen activator for acute ischemic stroke. N Engl J Med 1995;333:1581–1587.Google Scholar
Ingall, TJ, O’Fallon, WM, Asplund, K, et al: Findings from the reanalysis of the NINDS tissue plasminogen activator for acute ischemic stroke treatment trial. Stroke 2004;35:2418–2424.Google Scholar
Fuentes, B, Martínez-Sánchez, P, Alonso de Leciñana, M, et al. for the Madrid Stroke Network: Efficacy of intravenous thrombolysis according to stroke subtypes: the Madrid Stroke Network data. Eur J Neurol 2012;19:1568–1574.Google Scholar
IST-3 Collaborative Group, Sandercock, P, Wardlaw, JM, Lindley, RI, et al: The benefits and harms of intravenous thrombolysis with recombinant tissue plasminogen activator within 6 h of acute ischaemic stroke (the Third International Stroke Trial (IST-3)): A randomised controlled trial. Lancet 2012;379:2352–2363.Google Scholar
Mustanoja, S, Meretoja, A, Putaala, J, et al. for the Helsinki Stroke Thrombolysis Registry Group: Outcome by stroke etiology in patients receiving thrombolytic treatment: descriptive subtype analysis. Stroke 2011;42:102–106.Google Scholar
Shobha, N, Fang, J, Hill, MD: Do lacunar strokes benefit from thrombolysis? Evidence from the Registry of the Canadian Stroke Network. Int J Stroke 2013;8(Suppl A100):45–49.Google Scholar
Lahoti, S, Gokhale, S, Caplan, LR, et al: Thrombolysis in ischemic stroke without arterial occlusions. Stroke 2014;45:2722–2727.Google Scholar
Griebe, M, Fischer, E, Kablau, M, et al: Thrombolysis in patients with lacunar stroke is safe: an observational study. J Neurol 2014;261:405–411.Google Scholar
Fluri, F, Hatz, F, Rutgers, MP, et al: Intravenous thrombolysis in patients with stroke attributable to small artery occlusion. Eur J Neurol 2010;17:1054–1060.Google Scholar
SPS3 Study Group: Blood-pressure targets in patients with recent lacunar stroke: The SPS3 randomised trial Lancet 2013;382:507–515.Google Scholar
Yamamoto, Y, Akiguchi, I, Oiwa, K, et al: Twenty-four-hour blood pressure and MRI as predictive factors for different outcomes in patients with lacunar infarct. Stroke 2002;33:297–305.Google Scholar
Walters, M, Muir, S, Shah, I, Lees, K: Effect of perindopril on cerebral vasomotor reactivity in patients with lacunar infarction. Stroke 2004;35:1899–1902.Google Scholar
Mohr, JP, Thompson, JLP, Lazar, RM, et al: A comparison of warfarin and aspirin for the prevention of recurrent ischemic stroke. Warfarin–Aspirin Recurrent Stroke Study Group. N Engl J Med 2001;345:1444–1451.Google Scholar
Diener, HC, Cunha, L, Forbes, C, et al: European Stroke Prevention Study 2. Dipyridamole and acetylsalicylic acid in the secondary prevention of stroke. J Neurol Sci 1996;143:1–13.Google Scholar
Gotoh, F, Tohgi, H, Hirai, S, et al: Cilostazole Stroke Prevention Study: A placebo-controlled double-blind trial for secondary prevention of cerebral infarction. J Stroke Cerebrovasc Dis 2000;9:147–157.Google Scholar
Furie, KL, Kasner, SE, Adams, RJ, et al: Guidelines for the prevention of stroke in patients with stroke or transient ischemic attack: A guideline for healthcare professionals from the American Heart Association/American Stroke Association. Stroke 2011;42:227–276.Google Scholar
Sacco, RL, Diener, HC, Yusuf, S, et al. for the PRoFESS Study Group: Aspirin and extended-release dipyridamole versus clopidogrel for recurrent stroke. N Engl J Med 2008;359:1238–1251.Google Scholar
SPS3 Investigators: Effects of clopidogrel added to aspirin in patients with recent lacunar stroke. N Engl J Med 2012;367:817–825.Google Scholar
Carod-Artal, FJ: Statins and cerebral vasomotor reactivity. Implications for a new therapy. Stroke 2006;37:2446–2448.Google Scholar
Pretnar-Oblak, J, Sabovic, M, Sebestjen, M, et al: The influence of atorvastatin treatment on L-arginine cerbrovascular reactivity and flow-mediated dilatation in patients with lacunar infarction. Stroke 2006;37:2540–2545.Google Scholar
Amarenco, P, Benavente, O, Goldstein, LB, for the Stroke Prevention by Aggressive Reduction in Cholesterol Levels Investigators: Results of the Stroke Prevention by Aggressive Reduction in Cholesterol Levels (SPARCL) Trial by stroke subtypes. Stroke 2009;40:1405–1409.Google Scholar
Stroke Prevention by Aggressive Reduction in Cholesterol Levels (SPARCL) Investigators: High-dose atorvastatin after stroke or transient ischemic attack. N Engl J Med 2006;355:549–559.Google Scholar
Intravenous Magnesium Efficacy in Stroke (IMAGES) Study Investigators: Magnesium for acute stroke (Intravenous Magnesium Efficacy in Stroke Trial): Randomized controlled trial. Lancet 2004;363:439–445.CrossRefGoogle Scholar
Aslanyan, S, Weir, CJ, Muir, KW, Lees, KR: Magnesium for treatment of acute lacunar stroke syndromes. Further analysis of the IMAGES trial. Stroke 2007;38:1269–1273.Google Scholar
Okeda, R: Morphometrische Vergleichsuntersuchungen an Hirnarterien bei Binswangerscher Encephalopathie und Hochdruckencephalopathie. Acta Neuropathol (Berlin) 1973;26:23–43.Google Scholar
Binswanger, O: Die abgrenzung der allgemeinen progressiven paralyse. Klin Wochenschr 1894; 49:1103–1105; 1895;50:1137–1139; 1895;52:1180–1186.Google Scholar
Blass, JP, Hoyer, S, Nitsch, R: A translation of Otto Binswanger’s article: The delineation of the generalized progressive paralysis. Arch Neurol 1991;48:961–972.Google Scholar
Olszewski, J: Subcortical arteriosclerotic encephalopathy. World Neurol 1965;3:359–374.Google Scholar
Caplan, LR, Schoene, WC: Clinical features of subcortical arteriosclerotic encephalopathy (Binswanger’s disease). Neurology 1978;28:1206–1215.Google Scholar
Ward, NS, Brown, MM: Leukoaraiosis. In Donnan, G, Norrving, B, Bamford, J, Bogousslavsky, J (eds): Subcortical Stroke, 2nd ed. Oxford: Oxford University Press, 2002, pp 47–66.Google Scholar
Maclullich, AM, Wardlaw, JM, Ferguson, KJ, et al: Enlarged perivascular spaces are associated with cognitive function in healthy elderly men. J Neurol Neurosurg Psychiatry 2004;75:1519–1523.Google Scholar
Kim, D-G, Oh, S-H, Kim, J: A case of disseminated polycystic dilated perivascular spaces presenting with dementia and parkinsonism. J Clin Neurol 2007;32:96–100.Google Scholar
Gray, F, Dubas, F, Roullet, E, Escourolle, R: Leukoencephalopathy in diffuse hemorrhagic cerebral amyloid angiopathy. Ann Neurol 1985;18:54–59.Google Scholar
Dubas, F, Gray, F, Roullet, E, Escourolle, R: Leukoencephalopathies arteriopathiques. Rev Neurol 1985;141:93–108.Google Scholar
Loes, D, Biller, J, Yuh, WT, et al: Leukoencephalopathy in cerebral amyloid angiopathy: MR imaging in four cases. AJNR Am J Neuroradiol 1990;11:485–488.Google Scholar
DeWitt, LD, Louis, DN: Case records of the Massachusetts General Hospital: Case 27–1991. N Engl J Med 1991;325:42–54.Google Scholar
Fountain, NB, Eberhard, DA: Primary angiitis of the central nervous system associated with cerebral amyloid angiopathy: Report of two cases and review of the literature. Neurology 1996;46:190–197.Google Scholar
Caplan, LR: Case records of the Massachusetts General Hospital. Case 10–2000. N Engl J Med 2000;342:957–964.Google Scholar
Marotti, JD, Savitz, SI, Kim, W-K, Williams, K, Caplan, LR, Joseph, JT: Cerebral amyloid angiitis progressing to generalized angiitis and leucoencephalitis. Neuropathol Appl Neurobiol 2007;33:1–5.Google Scholar
Davous, P: CADASIL: A review with proposed diagnostic criteria. Eur J Neurology 1998;5:219–233.Google Scholar
Dichgans, M, Mayer, M, Uttner, I, et al: The phenotypic spectrum of CADASIL: Clinical findings in 102 cases. Ann Neurol 1998;44:731–739.Google Scholar
Tournier-Lasserve, E, Joutel, A, Melki, J, et al: Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy maps on chromosome 19q12. Nat Gen 1993;3:256–259.Google Scholar
Chabriat, H, Levy, C, Taillia, H, et al: Patterns of MRI lesions in CADACIL. Neurology 1998;51:452–457.Google Scholar
Pantoni, L, Poggesi, A, Inzitari, D: The relation between white matter lesions and cognition. Curr Opin Neurol 2007;20:390–397.Google Scholar
Savva, GM, Wharton, SB, Ince, PG, Forster, G, Matthews, FE, Brayne, C: Medical Research Council Cognitive Function and Ageing Study. Age, neuropathology, and dementia. N Engl J Med 2009;360:2302–2309.Google Scholar
Debette, S, Markus, HS: The clinical importance of white matter hyperintensities on brain magnetic resonance imaging: Systematic review and meta-analysis. BMJ 2010;341:c3666.Google Scholar
van der Flier, WM, van Straaten, EC, Barkhof, F, et al: Small vessel disease and general cognitive function in nondisabled elderly: The LADIS Study. Stroke 2005;36:2116–2120.Google Scholar
Baezner, H, Blahak, C, Poggesi, A, et al: Association of gait and balance disorders with age-related white matter changes: The LADIS Study. Neurology 2008;70:935–942.Google Scholar
The LADIS Study Group 2001–2011: A decade of the LADIS (Leukoaraiosis And DISability) Study: What have we learned about white matter changes and small-vessel disease? Cerebrovasc Dis 2011;32:577–588.Google Scholar
Greenberg, SM, Vonsattel, JPG, Stakes, JW, et al: The clinical spectrum of cerebral amyloid angiopathy: Presentations without lobar hemorrhage. Neurology 1993;43:2073–2079.Google Scholar
Scolding, NJ, Joseph, J, Kirby, PA, et al: Alpha-beta related angiitis: Primary angiitis of the central nervous system associated with cerebral amyloid angiopathy. Brain 2005;128:500–515.Google Scholar
Eng, JA, Frosch, MP, Choi, K, et al: Clinical manifestations of cerebral amyloid-related inflammation. Ann Neurol 2004;55:250–256.Google Scholar
Ginsberg, L, Geddes, J, Valentine, A: Amyloid angiopathy and granulomatous angiitis of the central nervous system: A case responding to corticosteroid treatment. J Neurol 1998;235:438–440.Google Scholar
McHugh, JC, Ryan, AM, Lynch, T, et al: Steroid-responsive recurrent encephalopathy in a patient with cerebral amyloid angiopathy. Cerebrovasc Dis 2007;23:66–69.Google Scholar
Pantoni, L: Cerebral small vessel disease: From pathogenesis and clinical characteristics to therapeutic challenges. Lancet Neurol 2010;9:689–701.CrossRefGoogle ScholarPubMed
Greenberg, SM, Vernooij, MW, Cordonnier, C, et al. for the Microbleed Study Group: Cerebral microbleeds: A guide to detection and interpretation. Lancet Neurol 2009;8:165–174.Google Scholar
Wardlaw, JM, Smith, EE, Biessels, GJ, et al. for the STandards for ReportIng Vascular changes on nEuroimaging (STRIVE v1): Neuroimaging standards for research into small vessel disease and its contribution to ageing and neurodegeneration. Lancet Neurol 2013;12:822–838.Google Scholar
Koennecke, HC: Cerebral microbleeds on MRI: Prevalence, associations, and potential clinical implications. Neurology 2006;66:165–171.Google Scholar
Klein, I, Lung, B, Labreuche, J et al. for the IMAGE Study Group: Cerebral microbleeds are frequent in infective endocarditis. Stroke 2009;40:3461–3465.Google Scholar
Yamamoto, Y, Akiguchi, I, Oiwa, K, et al: Adverse effect of nighttime blood pressure on the outcome of lacunar infarct patients. Stroke 1998;29:570–576.Google Scholar
Yamamoto, Y, Akiguchi, I, Oiwa, K, et al: Twenty-four-hour blood pressure and MRI as predictive factors for different outcomes in patients with lacunar infarct. Stroke 2002;33:297–305.Google Scholar
Yamamoto, Y, Akiguchi, I, Oiwa, K, et al: The relationship between 24-hour blood pressure readings, subcortical ischemic lesions and vascular dementia. Cerebrovasc Dis 2005;19:302–308.Google Scholar
Hoshide, Y, Kario, K, Schwartz, JE, et al: Incomplete benefit of antihypertensive therapy on stroke reduction in older hypertensives with abnormal nocturnal blood pressure dipping (extreme-dippers and reverse-dippers). Am J Hypertens 2002;15:844–850.Google Scholar
Chamorro, A, Pujol, J, Saiz, A, et al: Periventricular white matter lucencies in patients with lacunar stroke. A marker of too high or too low blood pressure. Arch Neurol 1997;54:1284–1288.Google Scholar
Schneider, R, Ringelstein, EB, Zeumer, H, et al: The role of plasma hyperviscosity in subcortical arteriosclerotic encephalopathy (Binswanger’s disease). J Neurol 1987;234:67–73.Google Scholar
Chung, C-S, Caplan, LR, van Swieten, J, et al: White matter changes in stroke and fibrinogen levels. Ann Neurol 1993;34:260.Google Scholar
Rosenberg, GA, Sullivan, N, Esiri, MM: White matter damage is associated with matrix metalloproteinases in vascular dementia. Stroke 2001;32:1162–1168.Google Scholar
Adair, JC, Charlie, J, Dencoff, JE, et al: Measurement of gelatinase B (MMP-9) in the cerebrospinal fluid of patients with vascular dementia and Alzheimer disease. Stroke 2004;35:e159–e162.Google Scholar
Yang, Y, Estrada, EY, Thompson, JF, et al: Matrix metalloproteinase-mediated disruption of tight junction proteins in cerebral vessels is reversed by synthetic matrix metalloproteinase inhibitor in focal ischemia in rat. J Cereb Blood Flow Metab 2007;27:697–709.Google Scholar
Brown, WR, Moody, DM, Challa, VR, Thore, CR, Anstrom, JA: Venous collagenosis and arterial tortuosity in leukoaraiosis. J Neurol Sci 2002;15;203–204.Google Scholar
Rosenberg, GA, Bjerke, M, Wallin, A: Multimodal markers of inflammation in the subcortical ischemic vascular disease type of vascular cognitive impairment. Stroke 2014;45:1531–1538.Google Scholar
Arauz, A, Murillo, L, Cantú, C, Barinagarrementeria, F, Higuera, J: Prospective study of single and multiple lacunar infarcts using magnetic resonance imaging: Risk factors, recurrence, and outcome in 175 consecutive cases. Stroke 2003;34:2453–2458.Google Scholar
Dichgans, M, Zietemann, V: Prevention of vascular cognitive impairment. Stroke 2012;43:3137–3146.Google Scholar