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EPR spectroscopy study of NO and copper content in rat liver after combined brain and spinal cord injury
Russian version
L.V. Bazan1, V.V. Andrianov1,2, A.I. Arslanov1, D.I. Silantyeva2, T.K. Bogodvid2,3, G.G. Yafarova1,2, I.B. Deryabina2, L.N. Muranova2, A.V. Nagibov4, V.M. Rubakhova4, E.V. Fedorova4, T.A. Filipovich4, V.A. Kulchitsky4, Kh.L. Gainutdinov1,2
1Zavoisky Physical-Technical Institute – Subdivision of the Federal Research Center «Kazan Scientific Center of Russian Academy of Sciences», Kazan, Russia
2Kazan (Volga Region) Federal University (Institute of Fundamental Medicine and Biology), Kazan, Russia
3Volga Region State University of Physical Culture, Sports and Tourism, Kazan, Russia
4Institute of Physiology of the National Academy of Sciences of Belarus, Center for the Brain, Minsk, Belarus
Email: kh_gainutdinov@mail.ru
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Electron paramagnetic resonance (EPR) spectroscopy was used to determine the nitric oxide (NO) and copper content in rat liver tissue after combined brain and spinal cord injury. The spin trap method was used to record signals from (DETC)2-Fe2+-NO and Cu(DETC)2 complexes. Direct EPR spectroscopy measurements revealed that the NO production in the liver decreased reliably by a factor of 2 seven days after modeling of combined brain and spinal cord injury. The copper content in the liver did also decrease, but these data were statically unreliable. Keywords: electron paramagnetic resonance, spin trap, nitric oxide, combined brain and spinal cord injury, liver.
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