The paper reveals logical relationships between events, facts and results of research studies and exemplary materials of practical applications of the adaptational reactions. It is demonstrated that the stress reaction by H. Selye and the anti-stressor type adaptational reactions by L. Kh. Garkavi, E.B. Kvakina and M.A. Ukolova have become the cornerstone in development of scientifically grounded approaches to control of the organism states.
The paper presents a brief review on how some concepts on the organism general adaptational reactions developed, including their role in increasing the unspecific resistance in the organism. Demonstrated is periodicity of the patterns of anti-stressor type reactions (training, calm and elevated activation) and stress in a wide range of stimulation values.
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 mechanisms of anti-tumor action of low intensity factors of activation therapy remain little investigated. The aim of the present paper is to study the changes in the immune system organs, the state of blood leukocytes and tumor area under effective activation therapy in tumor-bearing animals using EMR microwave range. The research is relevant due to the immune processes influence on cardiovascular system performance.
The objectives to be pursued by our studies are to assess some effects made by experimental actions of ultra-low frequencies electromagnetic field (ULF EMF) in combination with the SCENAR therapy on morphological changes in lung tissues and the regulation structures considering tumor growth dynamics.
The world scientific literature is rich in sources considering pathological changes in the central nervous system (CNS) in case of tumor growth. The topical issue is the study of mechanisms providing a stable performance of the brain as the highest section of nervous system which largely predetermine the oncology patients life quality.
The aim of our studies was to discover responses of the membrane systems in neurons and cardiomyocytes as well as mechanisms of influences and effects produced by the broadband-spectrum stochastic electromagnetic radiation (BBSS EMR) on them according to data on membrane potential (MP) levels and action potential (AP) parameters obtained by us.