Cognitive dysfunction in patients with cerebral microbleeds on T2*-weighted gradient-echo MRI

doi:10.1093/brain/awh253

Brain Advance Access first published online on July 28, 2004
This version published online on August 17, 2004
Brain, doi:10.1093/brain/awh253
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Received December 7, 2003
Revised April 10, 2004
Accepted May 17, 2004

Article

Cognitive dysfunction in patients with cerebral microbleeds on T2^*-weighted gradient-echo MRI

David J. Werring ¹, Duncan W. Frazer ², Lucy J. Coward ¹, Nick A. Losseff ¹, Hilary Watt ³, Lisa Cipolotti ², Martin M. Brown ¹^*, H. Rolf Jäger ¹

¹ Stroke Research Group, Department of Clinical Neurology, Institute of Neurology, University College London, UK
² Department of Clinical Neuropsychology, National Hospital for Neurology and Neurosurgery, London, UK
³ Dementia Research Group, Department of Clinical Neurology, Institute of Neurology, University College London, UK; Medical Statistics Unit, London School of Hygiene and Tropical Medicine, London, UK

^* To whom correspondence should be addressed. E-mail: m.brown{at}ion.ucl.ac.uk.

Abstract

Summary Gradient echo T2^*-weighted MRI has high sensitivityin detecting cerebral microbleeds, which appear as small dot-likehypointense lesions. Microbleeds are strongly associated withintracerebral haemorrhage, hypertension, lacunar stroke andischaemic small vessel disease, and have generated interestas a marker of bleeding-prone microangiopathy. Microbleeds havegenerally been considered to be clinically silent; however,since they are located in widespread cortical and basal gangliaregions and are histologically characterized by tissue damage,we hypothesized that they would cause cognitive dysfunction.We therefore studied patients with microbleeds (n = 25) anda non-microbleed control group (n = 30) matched for age, genderand intelligence quotient. To avoid the confounding effectsof coexisting cerebrovascular disease, the groups were alsomatched for the extent of MRI-visible white matter changes ofpresumed ischaemic origin, location of cortical strokes, andfor the proportion of patients with different stroke subtypes(including lacunar stroke). A battery of neuropsychologicaltests was used to assess current intellectual function, verbaland visual memory, naming and perceptual skills, speed and attentionand executive function. Microbleeds were most common in thebasal ganglia but were also found in frontal, parieto-occipital,temporal and infratentorial regions. There was a striking differencebetween the groups in the prevalence of executive dysfunction,which was present in 60% of microbleed patients compared with30% of non-microbleed patients (P = 0.03). Logistic regressionconfirmed that microbleeds (but not white matter changes) werean independent predictor of executive impairment (adjusted oddsratio = 1.32, 95% confidence interval 1.01-1.70, P = 0.04).Patients with executive dysfunction had more microbleeds inthe frontal region (mean count 1.54 versus 0.03; P = 0.002)and in the basal ganglia (mean 1.17 versus 0.30; P = 0.048).There was a modest correlation between the number of microbleedsand the number of cognitive domains impaired (r = 0.44, P =0.03). This study provides novel evidence that microbleeds areassociated with cognitive dysfunction, independent of the extentof white matter changes of presumed ischaemic origin, or thepresence of ischaemic stroke. The striking effect of microbleedson executive dysfunction is likely to result from associatedtissue damage in the frontal lobes and basal ganglia. Thesefindings have implications for the diagnosis of stroke patientswith cognitive impairment, and for the appropriate use of antihypertensiveand antiplatelet treatments in these patients.

Keywords: stroke; microbleeds; MRI; cognitive impairment; frontal lobe; executive function.

Information in lines 11 and 12 of the right hand column of the Summary on page 1 have been updated in this version of the paper.

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