S.E. Surzhikova - Post-graduate Student, Federal State Budgetary Institution VO Southwest State University, Kursk, Russia E-mail: moi_lanchik@mail.ru Yu.B. Mukhatayev - Post-graduate Student, Federal State Budgetary Institution VO Southwest State University, Kursk, Russia L.V. Pleskanos - Ph.D. (Eng.), Associate Professor, Federal State Budgetary Institution VO Southwest State University, Kursk, Russia O.V. Shatalova - Ph.D. (Eng.), Associate Professor, Federal State Budgetary Institution VO Southwest State University, Kursk, Russia E-mail: shatolg@mail.ru

In the present work we study the behavior of the current-voltage characteristics of biomaterials in experiments in vivo with repeated exposure bipolar pulse probe current of different amplitude and different polarity. The hypothesis that explains the \"left\" rotation of volt-ampere characteristics at the points with anomaloninae conductivity (BAP). The described experimental setup, through which the received current-voltage characteristics. Based on the analysis of experiment results the proposed model of electrical resistance in a BAP comprising a positive feedback current that is associated with the exponential decrease in resistance as bitochki impact on the current zoning and the negative feedback caused by generation of a biological object counter. The resulting model of electrical resistance in bioactive point allows you to create a space of informative features for diagnostic biotechnical systems.

 

1. Korenevskijj N.A., Filist S.A., Emeljanov S.G., SHevjakin V.N., Krupchatnikov R.A. Polifunkcionalnaja kompjuternaja sistema refleksodiagnostiki i reflek­soterapii // Medicinskaja tekhnika. 2008. № 2. S. 20-24.
2. Korenevskijj, N.A., Snopkov V.N., Gadalov V.N. Matematicheskie modeli reflektornykh sistem organizma cheloveka i ikh ispolzovanie dlja prognozirovanija i diagnostiki zabolevanijj // Sistemnyjj analiz i upravlenie v biomedicinskikh sistemakh. 2012. T. 11. № 2. S. 515-521.
3. Magerovskijj M.A., Konichenko A.V., Korenevskaja S.N. i dr. Ocenka sostojanija sportsmenov po velichine ehlektricheskojj sbalansirovannosti meridiannykh struktur organizma // Izvestija JUgo-Zapadnogo gosudarstvennogo universiteta. Ser. Upravlenie, vychislitelnaja tekhnika, informatika. Medicinskoe priborostroenie. 2015. № 4(17). S. 99-103.
4. Korenevskijj N.A., Krupchatnikov R.A., Kljuchikov I.A. i dr. Modul registracii ehlektricheskikh kharakteristik biologicheski aktivnykh tochek dlja ehkspertnojj sistemy vracha-refleksoterapevta // Izvestija JUgo-Zapadnogo gosudarstvennogo universiteta. 2014. № 5(56). S. 81-89.
5. Mokhammed Avad A.A., Filist S.A., SHatalova O.V. Modelirovanie impedansa biomaterialov s uchetom nelinejjnojj voltampernojj kharakteristiki pri obratimom proboe diehlektrika // Medicinskaja kibernetika i mezhdisciplinarnaja podgotovka specialistov dlja mediciny. Materialy nauchn. konf. Tomsk: Sibirskijj gosudarstvennyjj medicinskijj universitet. 2013. S. 128-132.
6. Mokhammed Avad A.A., Filist S.A., SHatalova O.V.  Modelirovanie impedansa biomaterialov v srede MATLAB // Izvestija JUgo-Zapadnogo gosudarstvennogo universiteta. Ser. Upravlenie, vychislitelnaja tekhnika, informatika. Medicinskoe priborostroenie. 2013. № 4. S. 61-66.
7. Korenevskijj N.A., Filist S.A., SHatalova O.V. i dr. Diagnosticheskaja sistema na osnove analiza voltampernykh kharakteristik bioaktivnykh tochek // Biotekhnosfera. 2013. № 5(29). S. 33-38.
8. Filist S.A., Kuzmin A.A., Kuzmina M.N. Biotekhnicheskaja sistema dlja kontrolja impedansa biomaterialov v ehksperimentakh in vivo // Biomedicinskaja radioehlekt­ronika. 2014. № 9. S. 38-42.