В. В. Сычев scite author profile

В. В. Сычев

5Publications

62Citation Statements Received

80Citation Statements Given

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Affiliations

Keldysh Institute of Applied Mathematics, Institute of Mathematical Problems of Biology, Frantsevich Institute for Problems in Materials Science

Publications

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Reconstruction of human brain spontaneous activity based on frequency-pattern analysis of magnetoencephalography data

et al. 2015

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A new method for the analysis and localization of brain activity has been developed, based on multichannel magnetic field recordings, over minutes, superimposed on the MRI of the individual. Here, a high resolution Fourier Transform is obtained over the entire recording period, leading to a detailed multi-frequency spectrum. Further analysis implements a total decomposition of the frequency components into functionally invariant entities, each having an invariant field pattern localizable in recording space. The method, addressed as functional tomography, makes it possible to find the distribution of magnetic field sources in space. Here, the method is applied to the analysis of simulated data, to oscillating signals activating a physical current dipoles phantom, and to recordings of spontaneous brain activity in 10 healthy adults. In the analysis of simulated data, 61 dipoles are localized with 0.7 mm precision. Concerning the physical phantom the method is able to localize three simultaneously activated current dipoles with 1 mm precision. Spatial resolution 3 mm was attained when localizing spontaneous alpha rhythm activity in 10 healthy adults, where the alpha peak was specified for each subject individually. Co-registration of the functional tomograms with each subject's head MRI localized alpha range activity to the occipital and/or posterior parietal brain region. This is the first application of this new functional tomography to human brain activity. The method successfully provides an overall view of brain electrical activity, a detailed spectral description and, combined with MRI, the localization of sources in anatomical brain space.

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Noninvasive muscle activity imaging using magnetography

Llinás

Ustinin

Рыкунов

et al. 2020

Proc. Natl. Acad. Sci. U.S.A.

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A spectroscopic paradigm has been developed that allows the magnetic field emissions generated by the electrical activity in the human body to be imaged in real time. The growing significance of imaging modalities in biology is evident by the almost exponential increase of their use in research, from the molecular to the ecological level. The method of analysis described here allows totally noninvasive imaging of muscular activity (heart, somatic musculature). Such imaging can be obtained without additional methodological steps such as the use of contrast media.

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Stabilization of Superconducting Magnetic Systems

Altov¹,

Zenkevich²,

Kremlev³

et al. 1977

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Electron correlations and instability of a two-center bipolaron

2003

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Properties of shallow-level D −-centers in polar semiconductors

et al. 2003

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В. В. Сычев

Reconstruction of human brain spontaneous activity based on frequency-pattern analysis of magnetoencephalography data

Noninvasive muscle activity imaging using magnetography

Stabilization of Superconducting Magnetic Systems

Electron correlations and instability of a two-center bipolaron

Properties of shallow-level D −-centers in polar semiconductors

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