Abstract

Acute brain infarcts can lead to injury to the heart in the absence of primary cardiac causes, with serious outcomes ranging from myocardial damage to sudden death.
Our research aims to investigate the neuroanatomic substrate of myocardial injury and acute stress response occurring after ischemic stroke and link this localization to tissue outcome in cerebral ischemia. Identification of a cerebral site for stroke-related myocardial injury and acute stress response could facilitate development of preventive strategies and improve neurological outcome and survival. However, there are unresolved issues in the study of heart-brain interactions due to inability to differentiate between neurogenic and cardiogenic mechanisms of myocardial injury and the bias caused by using a-priori anatomic assumptions in the study of cerebral localization. We have recently demonstrated that the permutation method originally developed for functional MRI analysis is a feasible approach in the study of heart-brain interactions. The method is free from the bias of an a-priori hypothesis as to any specific location and tests the null hypothesis at the voxel level in a statistically valid manner for correlation with an externally defined event. Using this methodology we have demonstrated that infarction in the right insula is associated with elevated serum troponin-T level indicating acute myocardial injury. Here we propose to first validate our findings in a prospective dataset, and then extend this work by developing an anatomical map for acute stress response defined by acute stress hyperglycemia in acute ischemic stroke. Specifically, we will: 1) Test the hypothesis that there are focal brain regions that when infarcted are associated with cardiac troponin-T elevation indicative of myocardial injury. 2) Test the hypothesis that there are focal brain regions that when infarcted are associated with acute stress response characterized by acute stress hyperglycemia. 3) Identify whether the neural substrate linked to cardiac and systemic alterations confers an independent risk for myocardial injury and acute stress response in acute ischemic stroke. If proven, the information gained from this research could be used to generate models that can accurately assess the risk for cardiac and systemic complications in a given stroke patient.

Public Health Relevance

Acute brain injury can independently lead to injury to the heart in the absence of primary cardiac causes, often with serious outcomes ranging from myocardial damage to sudden death. The goal of our research is to investigate the brain anatomy of neurogenic myocardial injury in acute ischemic stroke. Identification of a cerebral site that is linked to stroke-related myocardial injury could facilitate development of preventive strategies and allow the timely management of cardiac complications and thus lead to improved neurological outcomes and survival in stroke patients.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS059710-03
Application #
8064699
Study Section
Clinical Neuroscience and Disease Study Section (CND)
Program Officer
Jacobs, Tom P
Project Start
2009-05-15
Project End
2014-04-30
Budget Start
2011-05-01
Budget End
2012-04-30
Support Year
3
Fiscal Year
2011
Total Cost
$384,963
Indirect Cost

  Institution

Name
Massachusetts General Hospital
Department
Type
DUNS #
073130411
City
Boston
State
MA
Country
United States
Zip Code
02199

  Publications

Arsava, E Murat; Helenius, Johanna; Avery, Ross et al. (2017) Assessment of the Predictive Validity of Etiologic Stroke Classification. JAMA Neurol 74:419-426
Arsava, E Murat; Kim, Gyeong-Moon; Oliveira-Filho, Jamary et al. (2016) Prediction of Early Recurrence After Acute Ischemic Stroke. JAMA Neurol 73:396-401
Ay, Ilknur; Napadow, Vitaly; Ay, Hakan (2015) Electrical stimulation of the vagus nerve dermatome in the external ear is protective in rat cerebral ischemia. Brain Stimul 8:7-12
Kim, Gyeong-Moon; Park, Kwang-Yeol; Avery, Ross et al. (2014) Extensive leukoaraiosis is associated with high early risk of recurrence after ischemic stroke. Stroke 45:479-85
Ay, Ilknur; Ay, Hakan (2013) Ablation of the sphenopalatine ganglion does not attenuate the infarct reducing effect of vagus nerve stimulation. Auton Neurosci 174:31-5
Förster, A; Gass, A; Kern, R et al. (2012) Brain imaging in patients with transient ischemic attack: a comparison of computed tomography and magnetic resonance imaging. Eur Neurol 67:136-41
Maas, Matthew B; Lev, Michael H; Ay, Hakan et al. (2012) The prognosis for aphasia in stroke. J Stroke Cerebrovasc Dis 21:350-7
Helenius, Johanna; Arsava, E Murat; Goldstein, Joshua N et al. (2012) Concurrent acute brain infarcts in patients with monocular visual loss. Ann Neurol 72:286-93
Granziera, Cristina; Ay, Hakan; Koniak, Susan P et al. (2012) Diffusion tensor imaging shows structural remodeling of stroke mirror region: results from a pilot study. Eur Neurol 67:370-6
McKinney, James S; Masjuan, Jaime; Purroy, Francisco et al. (2012) Safety of thrombolytic therapy for acute ischemic stroke after recent transient ischemic attack. J Stroke Cerebrovasc Dis 21:551-4

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