Journal of Neurosciences in Rural Practice
 


 
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EDITORIAL
Year : 2017  |  Volume : 8  |  Issue : 2  |  Page : 163  

Cerebral microbleeds: Treatment conundrum in acute ischemic stroke


Staff Neurology, Akron Neurology Inc., Ohio, Akron, USA

Date of Web Publication5-Apr-2017

Correspondence Address:
Ramnath Santosh Ramanathan
Neurology, Vascular Neurology, 3632 Ridgewood Road, Akron, OH 44333
USA
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Source of Support: None, Conflict of Interest: None


DOI: 10.4103/0976-3147.203846

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How to cite this article:
Ramanathan RS. Cerebral microbleeds: Treatment conundrum in acute ischemic stroke. J Neurosci Rural Pract 2017;8:163

How to cite this URL:
Ramanathan RS. Cerebral microbleeds: Treatment conundrum in acute ischemic stroke. J Neurosci Rural Pract [serial online] 2017 [cited 2017 Oct 18];8:163. Available from: http://www.ruralneuropractice.com/text.asp?2017/8/2/163/203846

Cerebral microbleeds (CMBs) are found in healthy geriatric population as well as in association with stroke and cognitive impairment. CMBs are small, round, hypointense lesions found incidentally on T2*-weighted gradient echo and susceptibility-weighted sequences of magnetic resonance imaging (MRI) brain. Studies have shown that in ischemic stroke patients, CMBs not only increase the subsequent intracranial hemorrhage (ICH) risk but also increase the risk of ischemic stroke. Lobar CMBs are very specific for cerebral amyloid angiopathy in Western (Caucasian) population with ICH but not in Oriental (Asian) population as well as in the absence of ICH.[1],[2] While CMBs in the subcortical areas as well as infratentorial locations are thought to be secondary to long-standing hypertension and arteriosclerotic changes, it has been seen that ethnicity does not confound the association between CMBs burden and ischemic stroke or ICH risks.

Potigumjon et al. in their study (Prevalence of cerebral microbleeds in Thai patients with ischemic stroke) published in the current issue of this journal showed that the prevalence of CMBs was 20% in the Thai population which was never reported earlier.[3] This was lower than the Japanese cohort but was at par with the published Chinese prevalence. In their study, hypertension and small vessel disease on MRI especially Fazeka stage 3 related to hypertension was associated with increased risk for CMBs. Stroke etiology also seems to be important clue to the presence of CMBs. CMBs are seen more commonly in association with lacunar stroke and large artery atherosclerosis rather than cardioembolic etiology, especially in Asian population. Turc et al. found that increased CMBs burden was associated with worse 3-month modified Rankin Scale functional outcome in acute ischemic stroke patients treated with thrombolytics but was not significant after adjustment of confounding factors.[4] There are meta-analyses which suggest that hemorrhagic transformation as well as symptomatic ICH is significant in the presence of CMBs, especially for those strictly located in the lobar areas, as compared to those without CMBs when treated with thrombolytics in acute ischemic stroke.[5] However, the authors in their paper discussing CMBs prevalence in Thai population did not find a significant difference in hemorrhagic transformation rates in patients with CMBs as compared to those without CMBs, treated with thrombolytics for acute ischemic stroke. As such presence of CMBs on the neuroimaging should not preclude the use of thrombolytics in the treatment for acute ischemic stroke, more data are available.

Wilson et al. showed that in the presence of increased CMBs burden of ≥5, treatment with antithrombotics substantially increased the absolute risk of ICH as compared to absolute risk of Ischemic stroke.[6] Clinicians still do face the dilemma of using antithrombotics in patients with minor cerebrovascular events who have increased CMBs burden on neuroimaging. Interestingly, Vernooij et al. in their cross-sectional study found increased prevalence of CMBs among antiplatelet users than anticoagulant users.[7] It was found in a study that CMBs >4 was associated with cognitive decline and increased risk of dementia.[8]

The prevalence of CMBs increases with age and hypertension, and to some extent based on ethnicity, CMBs pose a clinical dilemma with regard to acute and preventive treatment in acute ischemic stroke population. Further randomized controlled trials are needed to answer these questions.

 
   References Top

1.
Charidimou A, Krishnan A, Werring DJ, Rolf Jäger H. Cerebral microbleeds: A guide to detection and clinical relevance in different disease settings. Neuroradiology 2013;55:655-74.  Back to cited text no. 1
    
2.
Imaizumi T, Inamura S, Kohama I, Yoshifuji K, Nomura T, Komatsu K. Nascent lobar microbleeds and stroke recurrences. J Stroke Cerebrovasc Dis 2014;23:610-7.  Back to cited text no. 2
    
3.
Potigumjon A, Watcharakorn A, Dharmasaroja PA. Prevalence of cerebral microbleeds in Thai patients with ischemic stroke. J Neurosci Rural Pract 2017;8:216-20.  Back to cited text no. 3
  [Full text]  
4.
Turc G, Sallem A, Moulin S, Tisserand M, Machet A, Edjlali M, et al. Microbleed status and 3-month outcome after intravenous thrombolysis in 717 patients with acute ischemic stroke. Stroke 2015;46:2458-63.  Back to cited text no. 4
    
5.
Charidimou A, Shoamanesh A, Wilson D, Gang Q, Fox Z, Jäger HR, et al. Cerebral microbleeds and postthrombolysis intracerebral hemorrhage risk updated meta-analysis. Neurology 2015;85:927-4.  Back to cited text no. 5
    
6.
Wilson D, Charidimou A, Ambler G, Fox ZV, Gregoire S, Rayson P, et al. Recurrent stroke risk and cerebral microbleed burden in ischemic stroke and TIA: A meta-analysis. Neurology 2016;87:1501-10.  Back to cited text no. 6
    
7.
Vernooij MW, Haag MD, van der Lugt A, Hofman A, Krestin GP, Stricker BH, et al. Use of antithrombotic drugs and the presence of cerebral microbleeds: The Rotterdam scan study. Arch Neurol 2009;66:714-20.  Back to cited text no. 7
    
8.
Akoudad S, Wolters FJ, Viswanathan A, de Bruijn RF, van der Lugt A, Hofman A, et al. Association of cerebral microbleeds with cognitive decline and dementia. JAMA Neurol 2016;73:934-43.  Back to cited text no. 8
    




 

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