dc.contributor.author | Чайковська, О. | uk |
dc.contributor.author | Пономаренко, О. | uk |
dc.contributor.author | Довгань, О. | uk |
dc.contributor.author | Рокунець, І. | uk |
dc.contributor.author | Павлов, С. | uk |
dc.contributor.author | Власенко, О. | uk |
dc.contributor.author | Кривов’яз, О. | uk |
dc.date.accessioned | 2020-08-27T07:13:03Z | |
dc.date.available | 2020-08-27T07:13:03Z | |
dc.date.issued | 2020 | |
dc.identifier.citation | Concept and realization of backpack-type system for multichannel electrophysiology in freely behaving rodents [Електронний ресурс] / О. Чайковська, О. Пономаренко, О. Довгань [та ін.] // Матеріали XLIX науково-технічної конференції підрозділів ВНТУ, Вінниця, 27-28 квітня 2020 р. – Електрон. текст. дані. – 2020. – Режим доступу: https://conferences.vntu.edu.ua/index.php/all-frtzp/all-frtzp-2020/paper/view/9809. | uk |
dc.identifier.citation | Чайковська О., Пономаренко О., Довгань О., Рокунець І., Павлов С., Власенко О., Кривов’яз О. Concept and realization of backpack-type system for multichannel electrophysiology in freely behaving rodents. Матеріали XLIX науково-технічної конференції підрозділів ВНТУ, Вінниця, 27-28 квітня 2020 р. 2020. URI: https://conferences.vntu.edu.ua/index.php/all-frtzp/all-frtzp-2020/paper/view/9809. | uk |
dc.identifier.uri | http://ir.lib.vntu.edu.ua//handle/123456789/30376 | |
dc.description.abstract | Сьогодні науковий світ має багато різної техніки для мозкового відображення і дослідження, проте вимір електричної діяльності в різних масштабах - істотна частина, щоб розуміти принципи мозкового функціонування. При роботі нервова система кодує інформацію у формі різних електричних подій - від індивідуальних спайків (чи потенціалів дії), локальних потенціалів до складних осциляцій. | uk |
dc.description.abstract | Today’s scientific world has many different techniques for brain imaging and investigation, however the measuring of electrical activity in different scales is essential part to understand the principles of brain functioning.
Nervous system works and codes information in the form of various electrical events: series of individual spikes, local potentials and up to complex brain oscillations. | en |
dc.language.iso | en | en |
dc.publisher | ВНТУ | uk |
dc.relation.ispartof | Матеріали XLIX науково-технічної конференції підрозділів ВНТУ, Вінниця, 27-28 квітня 2020 р. | uk |
dc.relation.uri | https://conferences.vntu.edu.ua/index.php/all-frtzp/all-frtzp-2020/paper/view/9809 | |
dc.subject | модель прогнозування | uk |
dc.subject | індивідуальна реабілітаційна програма | uk |
dc.subject | відновлення | uk |
dc.subject | серцево-судинні хвороби нездатності | uk |
dc.subject | recording systems | en |
dc.subject | unit activity | en |
dc.subject | amplifier array | en |
dc.subject | multichannel electrophysiology | en |
dc.subject | neural signals | en |
dc.title | Concept and realization of backpack-type system for multichannel electrophysiology in freely behaving rodents | en |
dc.type | Thesis | |
dc.identifier.udc | 004.2 | |
dc.relation.references | Siegle, J. H., Hale, G. J., Newman, J. P., &Voigts, J. (2015). Neural ensemble communities: open-source approaches to hardware for large-scale electrophysiology. Current opinion in neurobiology, 32, 53-59. | en |
dc.relation.references | Wagenaar, D., DeMarse, T. B., & Potter, S. M. (2005, March). MeaBench: A toolset for multi-electrode data acquisition and on-line analysis. In Conference Proceedings. 2nd International IEEE EMBS Conference on Neural Engineering, 2005. (pp. 518-521). IEEE. | en |
dc.relation.references | Rolston, J. D., Gross, R. E., & Potter, S. M. (2009, September). NeuroRighter: closed-loop multielectrode stimulation and recording for freely moving animals and cell cultures. In 2009 Annual International Conference of the IEEE Engineering in Medicine and Biology Society (pp. 6489-6492). IEEE. | en |
dc.relation.references | Newman, J. P., Zeller-Townson, R., Fong, M. F., Arcot Desai, S., Gross, R. E., & Potter, S. M. (2013). Closed-loop, multichannel experimentation using the open-source NeuroRighter electrophysiology platform. Frontiers in neural circuits, 6, 98. | en |
dc.relation.references | Laxpati, N. G., Mahmoudi, B., Gutekunst, C. A., Newman, J. P., Zeller-Townson, R., &Gross, R. E. (2014). Real-time in vivo optogeneticneuromodulation and multielectrodeelectrophysiologic recording with NeuroRighter. Frontiers in neuroengineering, 7, 40. | en |
dc.relation.references | RHD2000 Series Digital Electrophysiology Interface Chips RHD2116, RHD2132.Intan Technologies, LLC.Avalible from http://intantech.com/files/Intan_RHD2000_series_datasheet.pdf. | en |
dc.relation.references | Siegle, J. H., López, A. C., Patel, Y. A., Abramov, K., Ohayon, S., &Voigts, J. (2017). Open Ephys: an open-source, plugin-based platform for multichannel electrophysiology. Journal of neural engineering, 14(4), 045003. | en |
dc.relation.references | Bennett, C., Gale, S. D., Garrett, M. E., Newton, M. L., Callaway, E. M., Murphy, G. J., & Olsen, S. R. (2019). Higher-order thalamic circuits channel parallel streams of visual information in mice. Neuron. | en |
dc.relation.references | Yüzgeç, Ö., Prsa, M., Zimmermann, R., & Huber, D. (2018). Pupil size coupling to cortical states protects the stability of deep sleep via parasympathetic modulation. Current Biology, 28(3), 392-400. | en |
dc.relation.references | Ghomashchi, A., Zheng, Z., Majaj, N., Trumpis, M., Kiorpes, L., &Viventi, J. (2014, August). A low-cost, open-source, wireless electrophysiology system. In 2014 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (pp. 3138-3141). IEEE. | en |
dc.relation.references | Wang, J., Trumpis, M., Insanally, M., Froemke, R., &Viventi, J. (2014, August). A low-cost, multiplexed electrophysiology system for chronic μECoG recordings in rodents. In 2014 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (pp. 5256-5259). IEEE. | en |
dc.relation.references | Alam, M., Chen, X., & Fernandez, E. (2013). A low-cost multichannel wireless neural stimulation system for freely roaming animals. Journal of neural engineering, 10(6), 066010. | en |
dc.relation.references | Erickson, J. C., Hayes, J. A., Bustamante, M., Joshi, R., Rwagaju, A., Paskaranandavadivel, N., &Angeli, T. R. (2018). Intsy: a low-cost, open-source, wireless multi-channel bioamplifiersystem. Physiological measurement, 39(3), 035008. | en |
dc.relation.references | Rotermund, D., Pistor, J., Hoeffmann, J., Schellenberg, T., Boll, D., Tolstosheeva, E.,& Schneider, M. (2017). Open hardware: Towards a fully-wireless sub-cranial neuro-implant for measuring electrocorticography signals. BioRxiv, 036855. | en |
dc.relation.references | Kinney, J. P., Bernstein, J. G., Meyer, A. J., Barber, J. B., Bolivar, M., Newbold, B., ... & Boyden, E. S. (2015). A direct-to-drive neural data acquisition system. Frontiers in neural circuits, 9, 46. | en |
dc.relation.references | Steinmetz, N. A., Koch, C., Harris, K. D., &Carandini, M. (2018). Challenges and opportunities for large-scale electrophysiology with Neuropixels probes. Current opinion in neurobiology, 50, 92-100. | en |
dc.relation.references | Steinmetz, N., Pachitariu, M., Rossant, C., Hunter, M., Burgess, C., Carandini, M., & Harris, K. (2016). Dataset: simultaneous recording with two Neuropixels Phase3 electrode arrays. CortexLab at UCL. | en |
dc.relation.references | Juavinett, A. L., Bekheet, G., &Churchland, A. K. (2018). Chronically-implanted Neuropixels probes enable high yield recordings in freely moving mice. BioRxiv, 406074. | en |
dc.relation.references | Liang, B., & Ye, X. (2016). Towards high-density recording of brain-wide neural activity. SCIENCE CHINA Technological Sciences, 59(59), 1383. | en |
dc.relation.references | Fan, D., Rich, D., Holtzman, T., Ruther, P., Dalley, J. W., Lopez, A., &Holzhammer, T. (2011). A wireless multi-channel recording system for freely behaving mice and rats. PloS one, 6(7), e22033. | en |
dc.relation.references | Vyssotski, A. L., Serkov, A. N., Itskov, P. M., Dell'Omo, G., Latanov, A. V., Wolfer, D. P., &Lipp, H. P. (2006). Miniature neurologers for flying pigeons: multichannel EEG and action and field potentials in combination with GPS recording. Journal of neurophysiology, 95(2), 1263-1273. | en |
dc.relation.references | Spivey, R. J., & Bishop, C. M. (2014). An implantable instrument for studying the long-term flight biology of migratory birds. Review of Scientific Instruments, 85(1), 014301. | en |
dc.relation.references | Sikes, R. S., &Gannon, W. L. (2011). Guidelines of the American Society of Mammalogists for the use of wild mammals in research. Journal of mammalogy, 92(1), 235-253. | en |
dc.relation.references | Moroz, V.M., Vlasenko, O.V., Rokunets, I.L., Yoltukhovskii, M.V., &Yankovskaya, L.V. (2010).CoupledSpikeActivityinMicropopulationsofMotorCortexNeuronsinRats. Neurophysiology, 42 (2), 110-117. | en |
dc.relation.references | Vlasenko, O., Chaikovska, O., Rokunets, I., Wójcik, W., Pavlov, S. V., &Bazarbayeva, A. (2019, February). Multichannel system for recording myocardial electrical activity. In Information Technology in Mecial Diagnostics II: Proceedings of the International Scientific Internet Conference “Computer Graphics and Image Processing" and the XLVIIIth International Scientific and Practical Conference “Application of Lasers in Medicine and Biology", May 2018 (p. 307). CRC Press. | en |
dc.relation.references | Nosova, Ya.V., Faruk, Kh.I., Avrunin, O.G. A tool for researching respiratory and olfaction disorders. Telecommunications and Radio Engineering. Vol.77 (15), (2018), P. 1389-1395; DOI: 10.1615/TelecomRadEng.v77.i15.90 | en |
dc.relation.references | A.K. Al_Omari, H.F. Ismail Saied, O.G. Avrunin, Analysis of Changes of the Hydraulic Diameter and Determination of the Air Flow Modes in the Nasal Cavity // Image Processing & Communications, challenges3, AISC 102. Springer - Verlag Berlin Heidelberg.-2011: P. 303-310. | en |
dc.relation.references | The value of bilateral simultaneous nasal spirometry in the assessment of patients undergoing septoplasty / G. Fyrmpas, D. Kyrmizakis, V. Vital, J. Constantinidis // Rhinology. – 2011. – №49(3). – P. 297-303. | en |
dc.relation.references | H.F. Ismail Saied, A.K. Al_Omari, O.G. Avrunin. An Attempt of the Determination of Aerodynamic Characteristics of Nasal Airways// Image Processing & Communications, challenges3, AISC 102. pp 303-310 Springer-Verlag Berlin Heidelberg.- 2011: P. 311-322. | en |
dc.relation.references | Wójcik, W., Pavlov, S., Kalimoldayev, M. (2019). Information Technology in Medical Diagnostics II. London: Taylor & Francis Group, CRC Press, Balkema book. – 336 Pages, https://doi.org/10.1201/ 9780429057618 | en |