1. Sharova, E.V., Boldyreva, G.N., Zhavoronkova, L.A., et al., Opportunities of fMRI in the study of neuroplasticity of movements in normal conditions and in traumatic brain injury, Materialy nauchnoi konferentsii s mezhdunarodnym uchastiem “Fundamental’nye porblemy neironauk: funktsional’naya asimmetriya, neiroplastichnost’ i neirodegeneratsiya,” 18–19 dekabrya 2014 goda (Proc. Sci. Conf. with Int. Participation “Fundamental Problems of Neurosciences: Functional Asymmetry, Neuroplasticity, and Neurodegeneration,” Decem-ber 18–19, 2014), Moscow: Nauchn. Tsentr Nevrol., Ross. Akad. Med. Nauk, 2014, p. 900.
2. Sharova, E.V., Boldyreva, G.N., Zhavoronkova, L.A., et al., fMRI analysis of the human brain’s neuroplasticity as a basis of movement disorders compensation after traumatic brain injury, Clin. Neurophysiol., 2017, vol. 128, no. 9, p. e278.
3. Laufs, H., Kleinschmidt, A., Beyerly, A., et al., EEG correlated fMRI of human alpha activity, NeuroImage, 2003, vol. 19, no. 4, p. 1463.
4. Boldyreva, G.N., Zhavoronkova, L.A., Sharova, E.V., et al., fMRI–EEG study of healthy human brain responses to functional loads, Hum. Physiol., 2009, vol. 35, no. 3, p. 274.
5. Schultze Kraft, M., Becker, R., Breakspear, M., and Ritter, P., Exploiting the potential of three dimensional spatial wavelet analysis to explore nesting of temporal oscillations and spatial variance in simultaneous EEG–fMRI data, Prog. Biophys. Mol. Biol., 2011, vol. 105, nos. 1–2, p. 67.