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N. Klyachko, E. Zaitseva, E. Efremenko, O. Kost, D. Manickam, N. Nukolova, A. Majouga, Yu. Golovin, S. Legotsky, L. Filatova, K. A. Miroshnikov, M. Abakumov, I. Lyagin, N. Chesnokova, I. Nikol’skaya, P. Binevsky, A. Morozova, M. Efremova, A. Kuznetsov, P. Rudakovskaya, K. Vlasova, D. Lebedev, M. Veselov, A. Aleksashkin, T. Mustafina, T. Abkumova, N. Balabushevich, E. Kirzhanova, I. Gachok, A. Priyma, I. Kuznetsov, A. Samodurov, S. Gribanovsky, E. Plotnikova, A. Belova, N. Eremeev, S. Varfolomeev, T. Bronich, E. Batrakova, V. Chehonin, M. Sokolsky-Papkov, A. Kabanov
New bionanosystems for medical applications.
The development of " NanoZYME" Technology in Moscow State University
Abstract
Using NanoZYME technology, novel types of
bionanosystems for phosphor organic neurotoxins decomposition, for treatment of
eye inflammation and spinal cord injury treatment as well as bacterial
infections fighting have been developed. Hybrid nanomaterials, containing
superparamagnetic nanoparticles, organic ligands and enzymes promising for
therapy and diagnostics have been obtained. A new approach to the control of
biochemical reactions in a magnetic nanosuspension using a low-frequency
magnetic field is presented.
Key words: nanomedicine, nanozymes,
decomposition of phosphor organic neurotoxins, eye inflammation, spinal cord
injury, hybrid nanomaterials, superparamagnetic nanoparticles.
Copyright (C) Chemistry Dept., Moscow State University, 2002
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