Acute splenic responses in patients with ischemic stroke and intracerebral hemorrhage

Vahidy, Farhaan S; Parsha, Kaushik; Rahbar, Mohammad Hossein; Lee, Minjae; Bui, Tuan Anh; Nguyen, Claude; Barreto, Andrew D; Bambhroliya, Arvind; Sahota, Preeti; Yang, Bing; Aronowski, Jaroslaw; Savitz, Sean I

doi:10.1177/0271678x15607880

Cited by 60 publications

(66 citation statements)

References 43 publications

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“…[32][33][34][48][49][50][51] Accordingly, splenic contraction in stroke patients is positively correlated with higher circulating levels of several cytokines. 52 Indeed, our data show a clear correlation between ischemia-induced splenic atrophy or azithromycin-induced splenic preservation and the histological outcome, confirming previous evidence. 18,53,54 Interestingly, although splenic preservation by azithromycin was accompanied by a further elevation of activated microglia/macrophages in the ischemic hemisphere, these cells were characterized by an anti-inflammatory phenotype.…”

Section: Discussionsupporting

confidence: 90%

Neuroprotective Properties of a Macrolide Antibiotic in a Mouse Model of Middle Cerebral Artery Occlusion: Characterization of the Immunomodulatory Effects and Validation of the Efficacy of Intravenous Administration

Amantea

Certo

Petrelli

et al. 2016

ASSAY and Drug Development Technologies

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Section: Discussionsupporting

confidence: 90%

Neuroprotective Properties of a Macrolide Antibiotic in a Mouse Model of Middle Cerebral Artery Occlusion: Characterization of the Immunomodulatory Effects and Validation of the Efficacy of Intravenous Administration

Amantea

Certo

Petrelli

et al. 2016

ASSAY and Drug Development Technologies

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“…Given that catecholamine was capable of producing myocardial necrosis, even in the nonischemic heart, the catecholamine surge theory has been reasonable linked to cardiac injury after ICH . In addition, systemic inflammatory responses are activated after ICH and might contribute to myocyte injury and cell death . Several other putative causes were also responsible for the observed elevated cTnI levels, including cardiopulmmonary disease, renal insufficiency, and ICH patients with neurological deterioration .…”

Section: Discussionmentioning

confidence: 99%

Prognostic value of elevated cardiac troponin I in patients with intracerebral hemorrhage

Yang

Liu

Wang

et al. 2019

Clinical Cardiology

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Background Although cardiac troponin has been well established as diagnostic and prognostic makers for acute coronary heart disease, the prognostic value of elevated cardiac troponin in patients with intracerebral hemorrhage (ICH) was inconsistent and not systematically evaluated. Hypothesis We proposed the hypothesis that the practical utility of cardiac troponin levels for prediction of mortality and poor outcome in ICH patients. Methods A total of 1004 patients with ICH were retrospectively reviewed and qualified for further analysis from June 2012 to December 2015. The patients were divided into different groups based on measurements of cardiac troponin I (cTnI) at the time of admission and the following day. Multivariate Cox proportional hazards analysis were performed to determine the independent prognostic value of the cTnI for patients in‐hospital mortality and poor outcomes, the receiver operator characteristic (ROC) analysis was performed to assess the predictive value of cTnI, ICH score, and combination of them. Results Serum cTnI level was an independent predictor in‐hospital mortality (positive vs negative, HR (hazard ratios) = 3.44, 95% CI (confidence interval) 1.66‐7.13, P < .001) and poor outcomes in patients with ICH (positive vs negative, HR = 6.69, 95% CI 4.25‐10.52, P < .001). Addition of cTnI to ICH score significantly improved the prognostic discrimination for both in‐hospital mortality and poor outcomes. Conclusion Serum cTnI levels may be valuable as predictor for in hospital mortality and poor outcomes and may be useful in the risk stratification of ICH during hospitalization.

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“…Systemic inflammatory responses are activated after spontaneous intracerebral hemorrhage, and ischemic stroke as well as SAH 115 . Systemic inflammatory responses carry an increased risk of subsequent intracranial complications such as vasospasm and normal pressure hydrocephalus, as well as systemic secondary complications 116 .…”

Section: Mechanisms Of Brain-heart Interaction After Strokementioning

confidence: 99%

Brain–Heart Interaction

Chen

Venkat

Seyfried

et al. 2017

Circulation Research

417

202

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Neurocardiology is an emerging specialty that addresses the interaction between the brain and the heart, i.e. the effects of cardiac injury on the brain, and the effects of brain injury on the heart. This review article focuses on cardiac dysfunction in the setting of stroke such as ischemic stroke, brain hemorrhage and subarachnoid hemorrhage (SAH). The majority of post stroke deaths are attributed to neurological damage, and cardiovascular complications are the second leading cause of post stroke mortality. Accumulating clinical and experimental evidence suggests a causal relationship between brain damage and heart dysfunction. Thus, it is important to determine whether cardiac dysfunction is triggered by stroke, is an unrelated complication, or is the underlying cause of stroke. Stroke induced cardiac damage may lead to fatality or potentially lifelong cardiac problems (such as heart failure), or to mild and recoverable damage such as neurogenic stress cardiomyopathy (NSC) and Takotsubo cardiomyopathy. The role of location and lateralization of brain lesions after stroke in brain-heart interaction, clinical biomarkers and manifestations of cardiac complications, and underlying mechanisms of brain-heart interaction following stroke, such as: the hypothalamic pituitary adrenal axis (HPA); catecholamine surge; sympathetic and parasympathetic regulation; microvesicles (MV’s); microRNAs; gut microbiome, immunoresponse and systemic inflammation are discussed.

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Acute splenic responses in patients with ischemic stroke and intracerebral hemorrhage

Cited by 60 publications

References 43 publications

Neuroprotective Properties of a Macrolide Antibiotic in a Mouse Model of Middle Cerebral Artery Occlusion: Characterization of the Immunomodulatory Effects and Validation of the Efficacy of Intravenous Administration

Neuroprotective Properties of a Macrolide Antibiotic in a Mouse Model of Middle Cerebral Artery Occlusion: Characterization of the Immunomodulatory Effects and Validation of the Efficacy of Intravenous Administration

Prognostic value of elevated cardiac troponin I in patients with intracerebral hemorrhage

Brain–Heart Interaction

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