Methodological fundamentals of experimental magnetotherapy of tumors (historical essay)
Автор: Shikhlyarova Alla I., Maryanovskaya Galina Y., Barsukova Lyudmila P., Zakharyuta Faina M., Zhukova Galina V., Korobeinikova Elena P., Protasova Tatiana P., Sheiko Elena A., Evstratova Olga F., Barteneva Tatiana A., Kurkina Tatiana A., Maschenko Natalia M.
Журнал: Cardiometry @cardiometry
Рубрика: Report
Статья в выпуске: 7, 2015 года.
Бесплатный доступ
The paper highlights the key stages on the way of a proper understanding of the magnetic field anti-tumor influence mechanisms on the level of an organism as an integrated system and its individual subsystems. The experiments in animals have shown that the processes of the malignant tumor growth inhibition are closely related to the formation of the stable state of the activation reaction at high reactivity levels. It is noted that the induction of such adaptational reaction depends on a specified selection of parameters of exposure intensities and magnetic field frequency, taking into account the law of nonlinearity of an exposure effect and adequacy with endogenous rhythms.
Magnetic fields, antitumor resistance, adaptational reaction, nonlinear effect, biosystem synchronization, activation therapy
Короткий адрес: https://sciup.org/148308808
ID: 148308808 | DOI: 10.12710/cardiometry.2015.7.4246
Список литературы Methodological fundamentals of experimental magnetotherapy of tumors (historical essay)
- Mills RA. Tumor growth and inhibition as transport phenomena: Suggestions for magnetotherapy. Mathematical Biosciences. August 1971;11(3-4):173-80.
- Fedorowski A, Steciwko A., Rabczynski J. Influence of low-frequency electromagnetic field, on growth of endogenous Morris hepatoma and its metastatic ability. Medical Science Monitor. 1998;4(5):765-73.
- Miecznik A, Fornalczyk-Wachowska E, Zeman K, Czernicki J. The effect of magnetotherapy and magnetostimulation on cytokine release by human peripheral blood lymphocytes in vitro. Clinical and Experimental Medical Letters. 2007;48(2):111-5.
- Novikov GV, Novikov VV, Fesenko EE. Effect of weak combined static and low-frequency alternating magnetic fields on the Ehrlich ascites carcinoma in mice. Biofizika. November 2009;54(6):1120-7.
- Berg H, Gnther B, Hilger I, et al. Bioelectromagnetic field effects on cancer cells and mice tumors. Electromagnetic Biology and Medicine. December 2010;29(4):132-143.
- Ali FM, El Gebaly RH, El Hag MA, Rohaim, AM. Solid Ehrlich tumor growth treatment by magnetic waves. Technology and Health Care. 2011;19(6):455-67.
- Loja T, Stehlikova O, Palko L. Influence of pulsed electromagnetic and pulsed vector magnetic potential field on the growth of tumor cells. Electromagnetic Biology and Medicine. September 2014;33(3):190-7.
- Garkavi LK, Zhukova GV, Shikhliarova AI, et al. Anti-tumor action and other regulatory effects of low intensity electromagnetic and chemical factors in experiment. Biofizika. Nov-Dec 2014;59(6):1161-72.
- Gudtskova TN, Zhukova GV, Bragina MI, et al. Signs of cell-cell interactions in sarcoma 45 tissue under conditions of anti-tumor effect caused by injection of magnetite nanoparticles. Bulletin of Experimental Biology and Medicine. October 2013;155(6):793-7.
- Garkavi LK, Tatkov OV. Nonspecific adaptation reactions in patients with cardiovascular pathology and vertebral osteochondrosis during rehabilitation in a sanatorium. Voenno-meditsinskii zhurnal. 2003;324(4):36-42.
- Mikhailov NI, Garkavi LK, Mashchenko NM, Zhukova GV. High-frequency oscillations in a pulse wave signal and their relation to differential blood count leucocytes. Biofizika. January 2012;57(1):99-104.
- Garkavi LK, Kvakina EB, Sheiko EA. AMP-induced enhancement of therapeutic anti-tumor effect in the rats with transplantable ovarian tumor. Experimental Oncology. March 1996;18(1):87-9.
- Garkavi LK, Kvakina EB. The outlook for combining anti-tumor and activation therapies. Voprosy Onkologii. 1995;41(2):47-8.
- Garkavi LK, Kvakina EB, Shikchlyarova AI, et al. Magnetic fields, adaptational reactions and self-organization of living systems. Biofizika. 1996;41(4):904-5.
- Garkavi LK, Shepelev AP, Tatkov OV, Mar'ianovskii AA. The efficacy of Eleutherococcus and cralonin in the sanatorium-health resort treatment of patients with ischemic heart disease and neurocirculatory dystonia. Voenno-meditsinskii zhurnal. Sep 2000;321(9):42-7.
- Sheiko YA, Shikhlyarova AI. Effect of monochromatic red lighting potentiating anti-tumor action of cyclophosphamide injected with autoblood. Voprosy Onkologii. 2011;57(4):493-6.
- Barnothy JM. Rejection of transplanted tumors in mice. In: Barnothy MF (ed) Biological effects of magnetic fields. New York:Plenum Press;1964. pp. 100-8.
- Gross L.Lifespan Increase of Tumor-Bearing Mice Through Pretreatment. In:Barnothy MF (ed) Biological Effects of Magnetic Fields.New York: Plenum Press; 1964. pp. 132-9.
- Lacassagne A. La Press Medicale. 51:2285-8.
- Lenzi M. Radiology. 1940;35:307-14
- McLean KC. Acad. Sci. 1964; 259(25):4895.
- Bertalanfi L. A general theory of systems: review of problems and results. Moscow:Nauka; 1969 pp. 30-54
- Blekhman II. Synchronization of dynamic system. Moscow: Nauka; 1971. 896 p.
- Kavetsky RE. Tumor and organism. Kiev:Gosmedizdat USSR; 1962. 303 p.
- Kaznacheev VP, Mikhailova LP. Bioinformatic function of natural electromagnetic fields. Novosibirsk: Nauka; 1985.181p.
- Kalendo GS. Biology Bulletin Reviews. 1972;73:59-80.
- Muzalevskaya NI, Larkina TA. Proceedings of Kirgiz Medical Institute. Frunze, Kirgiz Republic. 1974;100:84-5.
- Ogorodnikova LS, Gairabedyants NG, Ratner ON, et al. Morphological criteria of lung cancer regression under the influence of magnetotherapy. Voprosy Onkologii. 1980;26(1):28-34.
- Shikhlyarova AI. The role of electromagnetic fields' biotropic parameters in increasing the unspecific anti-tumor resistance. Thesis abstract by Shikhlyarova AI, Doctor of Biology. Rostov-on-Don, 2001. 50 pages.
