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. 2022 Oct;15(10):e202200050.
doi: 10.1002/jbio.202200050. Epub 2022 Jul 8.

Real-time fiber-optic recording of acute-ischemic-stroke signatures

Matvey S Pochechuev  1 Dmitry S Bilan  2   3 Ilya V Fedotov  1   4   5 Ilya V Kelmanson  2   3 Maxim A Solotenkov  1 Evgeny A Stepanov  1 Daria A Kotova  2   3 Alexandra D Ivanova  2 Alexander I Kostyuk  2   3 Roman I Raevskii  2 Aleksandr A Lanin  1   5 Andrei B Fedotov  1   5   6 Vsevolod V Belousov  2   3   7 Aleksei M Zheltikov  4
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Real-time fiber-optic recording of acute-ischemic-stroke signatures

Matvey S Pochechuev et al. J Biophotonics. 2022 Oct.

Abstract

We present an experimental framework and methodology for in vivo studies on rat stroke models that enable a real-time fiber-optic recording of stroke-induced hydrogen peroxide and pH transients in ischemia-affected brain areas. Arrays of reconnectable implantable fiber probes combined with advanced optogenetic fluorescent protein sensors are shown to enable a quantitative multisite time-resolved study of oxidative-stress and acidosis buildup dynamics as the key markers, correlates and possible drivers of ischemic stroke. The fiber probes designed for this work provide a wavelength-multiplex forward-propagation channel for a spatially localized, dual-pathway excitation of genetically encoded fluorescence-protein sensors along with a back-propagation channel for the fluorescence return from optically driven fluorescence sensors. We show that the spectral analysis of the fiber-probe-collected fluorescence return provides means for a high-fidelity autofluorescence background subtraction, thus enhancing the sensitivity of real-time detection of stroke-induced transients and significantly reducing measurement uncertainties in in vivo acute-stroke studies as inherently statistical experiments operating with outcomes of multiply repeated measurements on large populations of individually variable animal stroke models.

Keywords: fiber-optic probes; fluorescent protein sensors; neurophotonics; optogenetics.

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