Project description:Intravenous thrombolysis (IVT) with recombinate tissue plasminogen activatior (rt-PA) remains the primary approach for the treatment of acute ischemic stroke (AIS). Based on the short half-life of rt-PA, it is speculated that the coagulative/fibrinolytic cascade induced by alteplase administration might have subsequent longer effect on immune modulation. The exact role of Histidine-rich glycoprotein (HRG), which was found elevated following thrombolysis in this study, on affecting the innate immunity and hemorrhagic transformation (HT) following thrombolysis was investigated in this study. RNA sequencing was performed to show different expressed genes under HRG treatment and revealing the potential regulating pathway.

Project description:The proteome of cerebral thrombi from patients recanalized by mechanical thrombectomy in an acute phase of stroke was carried out to determine biomarkers of stroke radio-clinical outcomes for stroke physicians (clinical outcome and mortality at 3 months, intracranial hemorrhagic transformation, etc.). Proteome of cerebral thrombi was also used to elucidate stroke physiopathology (paradoxical effect of glucose in acute phase of stroke) and evaluate recanalization treatments (intravenous thrombolysis by rt-PA and/or thrombectomy efficiency). Retro-MATISSE (Molecular Analysis of Thrombus in Ischemic Stroke prognosiS and Etiology) database was incremented by proteomic analyses of cerebral thrombi successfully retrieved from all consecutive stroke patients (n=47) with large vessel occlusion treated by mechanical thrombectomy in acute phase between December 2020 and May 2021 in the intensive care stroke unit of the University Hospital of Marseille (France).

Project description:To determine the expression of circulating miRNAs in AIS patients with thrombolysis and without thrombolysis. Grant ID: 81100882 Grant title: The relation between transcription of miR-497 and neurons apoptosis after ischemic stroke Funding source: Chinese National Natural Science Foundation Grantee First Name: Zhen Grantee Last Name:Deng

Project description:The proteome of cerebral thrombi from patients recanalized by mechanical thrombectomy in an acute phase of stroke was carried out to determine biomarkers of stroke radio-clinical outcomes for stroke physicians (clinical outcome and mortality at 3 months, intracranial hemorrhagic transformation, etc.). Proteome of cerebral thrombi was also used to elucidate stroke physiopathology (paradoxical effect of glucose in acute phase of stroke) and evaluate recanalization treatments (intravenous thrombolysis by rt-PA and/or thrombectomy efficiency). ThrombiOMIC database was incremented by proteomic analyses of cerebral thrombi successfully retrieved from all consecutive stroke patients (n=59) with large vessel occlusion treated by mechanical thrombectomy in acute phase between October 2018 and August 2019 in the intensive care stroke unit of the University Hospital of Nice (France).

Project description:Photoacoustic Imaging-Guided Synchronously Targeted Thrombolysis and Neuroprotection of Acute Ischemic Stroke

Project description:Hemorrhagic transformation (HT), which occurs with or without reperfusion treatments (thrombolysis and/or thrombectomy), deteriorates the outcomes of ischemic stroke patients. It is essential to find clinically reliable biomarkers that can predict HT. In this study, we screened for potential serum biomarkers from an existing blood bank and database with 243 suspected acute ischemic stroke (AIS) patients. A total of 37 patients were enrolled, who were diagnosed as AIS but did not receive reperfusion treatment. They were divided into two groups based on whether they accompanied with HT or not (5 HT and 32 non-HT). Serum samples were labeled by isobaric tags for relative and absolute quantitation (iTRAQ) and analyzed by liquid chromatography coupled with tandem mass spectrometry (LC-MS/MS) and compared under NCBInr database. A total of 647 proteins in sera samples were captured and the levels of 17 proteins (12 up-regulated and 5 down-regulated) were significantly different. These differentially expressed proteins were further categorized with Gene Ontology functional classification annotation and Kyoto Encyclopedia of Genes and Genomes metabolic pathway analysis into biological processes. Further protein-protein interaction analysis using String database discovered that, among the differential expressed proteins, 10 pairs of proteins were found to have crosstalk connections, which may have direct (physical) and indirect (functional) interactions for the development of HT. Our findings suggest that these differentially expressed proteins could serve as potential biomarkers for predicting HT after ischemic stroke.

Project description:Application of acute therapies such as thrombolysis for ischemic stroke (IS) is constrained because of diagnostic uncertainty and the dynamic nature of stroke biology. To investigate changes in blood proteins after stroke and as a result of thrombolysis treatment we performed label-free quantitative proteomics on serum samples using high resolution mass spectrometry and long HPLC gradient (5 hours) combined with a 50cm column to optimize the peptide separation. We identified (FDR: 1%) and quantified a total of 574 protein groups from a total of 92 samples from 30 patients. Ten patients were treated by thrombolysis as part of a randomised placebo controlled trial and up to five samples were collected from each individual at different time points after stroke. We identified 26 proteins differently expressed by treatment group (FDR: 5%) and significant changes of expression over time for 23 proteins (FDR: 10%). Molecules such as fibrinogen and CRP showed expression profiles with a high potential clinical utility in the acute stroke setting. Protein expression profiles vary acutely in the blood after stroke and have the potential to allow the construction of a stroke clock and to have an impact on IS treatment decision making.

Project description:To explore circulating circRNAs associated with acute ischemia stroke(AIS), their utility as an early diagnostic marker and their significance in predicting stroke outcomes.

Project description:Accurate ischemic stroke (IS) etiologic diagnosis provides an appropriate secondary prevention strategy and better outcome. Currently, 45% of IS are cryptogenic urging to find novel approaches to enhance diagnostic precision and secondary stroke prevention. OBJETIVE: To study the transcriptomic content of thrombus extracellular vesicles (EVs) to delineate the molecular profile and potential biomarkers of IS etiologies. RESULTS:30 consecutive patients with moderate or severe ischemic stroke (IS) and different IS etiologies were included to perform the transcriptomic analysis of thrombus EVs comprising: atherothrombotic (AT, n=10), Cardioembolic (CE, n=10), and embolic stroke of undetermined source (ESUS, n=10). The RNASeq analysis of EVs detected clusters of differentially expressed genes (DEGs) related to IS etiologies.

Project description:Many hospitals lack facilities for accurate diagnosis of acute ischemic stroke (AIS). Circular RNA (circRNA) is highly expressed in the brain and is closely associated with stroke. In this study, we examined whether the blood-borne circRNAs can be promising candidates as adjunctive diagnostic biomarkers and their pathophysiological roles after stroke. We profiled the blood circRNA expression in mice subjected to experimental focal cerebral ischemia, and validated the selected circRNAs in AIS patients. We demonstrated that 128, 198 and 789 circRNAs were significantly altered at 5 min, 3 h and 24 h after ischemic stroke, respectively.