From the prospective of the theory of chaos and self-organization it is necessary to define a finite quasi-attractor and move into the area of phase space where it is located. Not each motion is evolution, since evolu-tion means shifting center of quasi-attractors. The participation of each element of the system is necessary, otherwise the evolution will not. In the human body there are organs that are guidelines and may stop the evolu-tion of the organism (in the form of aging) or delay fatal, although death teleologically for us is defined in con-trast to the society.
homeostasis, evolution, quasi-attractor, theory of chaos and self-organization
1. Anokhin P.K. Kibernetika funktsional´nykh sistem. M.: Meditsina, 1998. 285 s.
2. Vernadskiy V.I. Nauchnaya mysl´ kak planetnoe yavlenie. M.: Nauka, 1991. 286 s.
3. Es´kov V.M., Es´kov V.V., Filatova O.E., Khadartsev A.A. Osobye svoystva biosistem i ikh mo-delirovanie. Vestnik novykh meditsinskikh tekhnologiy. 2011. T. 18, №3. S. 331-332.
4. Es´kov V.M., Khadartsev A.A., Es´kov V.V., Gavrilenko T.V., Filatov M.A. Complexity - osobyy tip biomeditsinskikh i sotsial´nykh sistem. Vestnik novykh meditsinskikh tekhnologiy. 2013. T. 20, № 1. S. 17-22.
5. Es´kov V.M., Khadartsev A.A., Kamenev L.I. Novye bioinformatsionnye podkhody v razvitii meditsiny s pozitsiy tret´ey paradigmy (personifitsirovannaya meditsina - realizatsiya zakonov tret´ey paradigmy v meditsine). Vestnik novykh meditsinskikh tekhnologiy. 2012. № 3. S. 25-28.
6. Sistemnyy analiz, upravlenie i obrabotka informatsii v biologii i meditsine. Chast´ VII. Sinergeticheskiy kompartmentno-klasternyy analiz i sintez dinamiki povedeniya vektora sostoyaniya organizma cheloveka na severe RF v usloviyakh sanogeneza i patogeneza / Adaykin V.I., Ausheva F.I., Bu-rykin Yu.G. [i dr.]; Pod red. V.M. Es´kova i A.A. Khadartseva. Samara: OOO «Ofort», 2008. 159 s.
7. Ashby William Ross Principles of the Self-Organizing Dynamic System. Journal of General Psychology. 1947. V. 37. P. 125-128.
8. Bernard C. Introduction a l’etude de la medicine experimentale. Paris, 1895.
9. Bertalanffy L. The history and status of the GST. Systems research. Yearbook. Moscow, 1973.
10. Cannon W. The Wisdom of the Body. New York, 1963.
11. Ebeling W., Erdmann U., Dunkel J., Jenssen M. Nonlinear dynamics and fluctuations of dissipative Toda chains. J. Stat. Phys. 2000. Vol. 101. №1/2. P. 443-457.
12. Eskov V.M., Eskov V.V., Filatova O.E. Characteristic features of measurements and modeling for biosystems in phase spaces of states. Measurement Techniques (Medical and Biological Measurements). 2011. V. 53(12). P. 1404-1410.
13. Eskov V.M., Gavrilenko T.V., Kozlova V.V., Filatov M.A. Measurement of the dynamic parameters of microchaos in the behavior of living biosystems. Measurement Techniques. 2012. Vol. 55. №. 9. P. 1096-1100.
14. Haken H. Principles of brain functioning: a synergetic approach to brain activity, behavior and cogni-tion (Springer series in synergetics). Springer, 1995. 349 p.
15. Kuhn T.S. The Structure of Scientific Revolutions, Chicago: University of Chicago Press, 1962
