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  • 1. Mamontov, Eugen
    et al.
    Psiuk-Maksymowicz, Krzysztof
    Koptioug, Andrei
    Mid Sweden University, Faculty of Science, Technology and Media, Department of Engineering and Sustainable Development.
    What Stochastic Mechanics is Relevant to the Study of Living Systems?2005In: Proceedings of the Latvian Academy of Sciences. Section B: Natural, Exact and Applied Sciences, ISSN 1407-009X, Vol. 59, no 6 (641), p. 255-262Article in journal (Refereed)
    Abstract [en]

    Biologists have identified many features of living systems, which cannot be studied by the application of fundamental statistical mechanics (FSM). The present work focuses on some of these features. By discussing all of the basic approaches of FSM, the work formulates the extension of the kinetic-theory paradigm (based on the reduced one-particle distribution function) that possesses all of the considered properties of the living-systems. This extension appears to be a model within the generalised kinetic theory developed by N. Bellomo and his co-authors. In connection with this model, the work also stresses some other features necessary for making the model relevant to living systems. An example is discussed, which is a generalised kinetic equation coupled with the probability-density equation representing the varying component content of a living system. The work also suggests directions for future research.

  • 2. Ponce-González, JG
    et al.
    de Torres-Peralta, RS
    Pérez, I
    Feijoó, D
    Lindblom, Hampus
    Mid Sweden University, Faculty of Human Sciences, Department of Health Sciences.
    Holmberg, H-C
    Mid Sweden University, Faculty of Human Sciences, Department of Health Sciences.
    Calbet, J
    Dehydration after prolonged exercise combined with severe     caloric restriction despite drinking ad libitum2011Conference paper (Refereed)
  • 3. Sukhovey, Yury
    et al.
    Koptyug, Andrey
    Mid Sweden University, Faculty of Science, Technology and Media, Department of Quality Technology and Management, Mechanical Engineering and Mathematics.
    Petrov, Sergey A.
    The Tyumen Centre of Sciences, Siberian Branch of Russian Academy of Sciences.
    Dotsenko, E. L
    The Tyumen State University, Department of General and Social Psychology.
    Fisher, Tatyana A.
    5The Tyumen Centre of Sciences, Siberian Branch of Russian Academy of Sciences.
    Psycho-immune Partnership in the Dynamic Responses of Living Systems2014In: International Journal of Life Science and Medical Research, ISSN 2226-4566, Vol. 4, no 5, p. 57-50Article in journal (Refereed)
    Abstract [en]

    Present paper outlines certain possibilities for a new approach to the generalized modeling of the dynamics of living organism reaction to the changes in its environment. It is shown that there exists common functional “alignment” of the immune and psychic responses in the living organism reaction to the changes in the environment. This is manifested in the experimentally recorded matching of the response scenarios and activities in the immune and psychic domains. Thus, one may conclude that there exist two functionally matched systems (psychic and immune) tracking the external influences and responding to them. On the other hand it is feasible that one is actually dealing with a complex inseparable psycho-immune system and experimentally monitors different aspects of its activity describing these from two different points of view. Given analysis of available experimental data seems to support both of the above alternatives without giving undoubted preferences to any of them. However treating the situation form the formal logic point of view certain preferences can be given to the concept of an inseparable psycho-immune system modeled in two different ways. This approach can also resolve certain collisions happening with the attempts to describe direct interrelations between psychic and immune domains, and can lead the way to higher-level functionality models of the dynamic responses of the living organisms.

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