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  • Sahin C, Giraud A, Jabrah D, Patil S, Messina P, Bozsak F, Darcourt J, Sacchetti F, Januel A-C, Bellanger G, Pagola J, Juega J, Imamura H, Ohta T, Spelle L, Chalumeau V, Mircic U, Stanarcevic P, Vukasinovic I, Ribo M, Sakai N, Cognard C, Doyle K. Electrical impedance measurements can identify red blood cell–rich content in acute ischemic stroke clots ex vivo associated with first-pass successful recanalization. Research and practice in thrombosis and haemostasis. Volume 8, Issue 3, 102373, 2024 March.

doi:10.1016/j.rpth.2024.102373

  • Darcourt J, Brinjikji W, François O, Giraud A, R. Johnson C, Patil S, Staessens S, Kadirvel R, Mohammaden H M, Pisani L, Rodrigues G M, Cancelliere N M, Pereira V M, Bozsak F, Doyle K, De Meyer S F, Messina P, Kallmes D, Cognard C, Nogueira R G. Identifying ex vivo acute ischemic stroke thrombus composition using electrochemical impedance spectroscopy. Interventional Neuroradiology. 2023;0(0).

      doi:10.1177/15910199231175377

  • Messina P, Garcia C, Rambeau J, Darcourt J, Balland R, Carreel B, Cottance M, Gusarova E, Lafaurie-Janvore J, Lebedev G, Bozsak F, Barakat A I, Payrastre B, Cognard C. Impedance-based sensors discriminate among different types of blood thrombi with very high specificity and sensitivityJournal of NeuroInterventional Surgery 2023;15:526-531.

      doi:10.1136/neurintsurg-2021-01863

  • Patil S, Darcourt J, Messina P, Bozsak F, Cognard C, Doyle K. Characterising acute ischaemic stroke thrombi: insights from histology, imaging and emerging impedance-based technologies. Stroke Vasc Neurol. 

      2022 Aug;7(4):353-363. 

      doi: 10.1136/svn-2021-001038

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