METHOD AND DEVICE FOR RECORDING POLARIZED ELECTROMAGNETIC RADIATION OF INACTIVATED PATHOGENIC ORGANISMS TO CHIP, METHOD FOR ELIMINATING PATHOGENIC ORGANISMS STRAIN FROM ANIMAL OR HUMAN ORGANISM Russian patent published in 2003 - IPC

Abstract RU 2199356 C2

FIELD: medicine; medical engineering. SUBSTANCE: method involves inactivating deposited pathogenic microorganism strain into laboratory glasses, placing them in direct proximity to device for recording and displaying biological cell luminescence spectrum data. Temperature of the device for recording and displaying data is varied in 10 to 400 C. During the temperature being varied, polarized electromagnetic radiation of inactivated pathogenic microorganism strain is recorded in 3 mcm to 10 mm wavelength bandwidth. Stable energy states are formed by means of which the device for recording and displaying biological cell luminescence spectrum data is capable of radiating the like polarized electromagnetic wave radiation in the following cycles of temperature changes. The mentioned means are selected from silicon, germanium, diamond, and gallium arsenide. The mentioned polarized electromagnetic wave radiation is used by the device for recording and displaying spectrum data for irradiating pathogenic microorganisms and inactivating them in human organism. Device for changing pathogenic microorganism inactivation is placed in the direct vicinity to patient organism and temperature variation cycle of the device for recording and displaying biological cell luminescence spectrum containing data polarized electromagnetic radiation of inactivated pathogenic microorganism strain is changed. Pathogenic microorganism strain elimination from human or animal organism is carried out by exposing the patient to polarized electromagnetic wave radiation during 1 ms to 1000 s with frequency varied from 1 to 48 treatments per day during time period being 3 days to 2 months long. The device for device for recording and displaying polarized electromagnetic radiation of inactivated pathogenic microorganism strain has working cell placed in reservoir containing the inactivated pathogenic microorganism strain. The cell has at least one unit for recording and displaying biological cell radiation spectrum and means for measuring temperature. The device also has control unit connected to means for measuring temperature and additional cell for restoring polarized electromagnetic radiation level of an inactivated pathogenic microorganism strain in the working cell designed like the latter one and placed in the reservoir containing the inactivated pathogenic microorganism strain. The additional cell is connected to control unit and output and working cell input with its inputs. The working and additional cells are connected to each other and to inactivated pathogenic microorganism strain. The device has at least one reference cell used for restoring polarized electromagnetic radiation level of an inactivated pathogenic microorganism strain in the working and additional cell and having at least unit for recording and displaying biological cell luminescence spectrum and means for measuring temperature connected to each other as well as electromagnetic radiation generator unit set near the reservoir containing an inactivated pathogenic microorganism strain. Chip is used as the unit for recording and displaying biological cell luminescence spectrum having at least two crystal semiconductors of different conductivity type and al one semiconductor transition and at least one crystal selected from a group composed of silicon, germanium, diamond, and gallium arsenide. The device for changing pathogenic microorganism activity has working cell having at least one unit for recording and displaying biological cell luminescence spectrum storing polarized electromagnetic radiation data of an inactivated pathogenic microorganism strain and means for measuring temperature bound to means for biological cell, control unit, at least one additional and reference cell for restoring polarized electromagnetic radiation level of an inactivated pathogenic microorganism strain and unit for erasing polarized electromagnetic radiation data. EFFECT: wide range of functional applications. 17 cl, 8 dwg

Similar patents RU2199356C2

Title Year Author Number
DEVICE FOR REDUCTION OF ELECTROMAGNETIC BACKGROUND INDUCED BY ELECTRONICS AND OPERATION MODE OF DEVICE 2013
  • Petrenko Sergej Ivanovich
RU2533687C1
METHOD FOR ELIMINATION OF PATHOGENIC AND OPPORTUNISTIC MICROORGANISMS 2010
  • Tuchin Valerij Viktorovich
  • Tuchina Elena Svjatoslavna
RU2430757C1
METHOD AND DEVICE FOR AFFECTING PATHOGENIC MICROORGANISMS 1999
RU2146540C1
METHOD FOR ELIMINATION OF PATHOGENIC AND OPPORTUNISTIC MICROORGANISMS 2010
  • Tuchin Valerij Viktorovich
  • Tuchina Elena Svjatoslavna
RU2430756C1
METHOD OF CHANGING BIOLOGICAL ACTIVITY OF MICROORGANISMS 2004
  • Vyzulin Sergej Aleksandrovich
  • Vyzulina Viktorija Igorevna
RU2287014C2
METHOD FOR INACTIVATION OF PATHOGENIC FUNGI 2002
  • Strakhovskaja M.G.
  • Rubin A.B.
  • Mironov A.F.
  • Seregin A.M.
  • Sinajskij V.V.
RU2230110C2
DEVICE FOR INFLUENCE OF WAVEFORM INFORMATION ON MICROORGANISMS 2000
RU2161516C1
METHOD FOR APPLYING WAVE ACTION TO PATHOGENIC MICROORGANISMS, VIRUSES AND TUMOR CELLS IN EXPERIMENT 2003
  • Khachatrjan A.P.
  • Spiridonov A.N.
RU2250788C2
Bacillus subtiliS STRAIN CAPABLE OF SPLITTING SUGARS AND HAVING ANTAGONISTIC EFFECT ON PATHOGENIC AND OPPORTUNISTIC PATHOGENIC BACTERIA AND FUNGI, AND USE THEREOF 2013
  • Kuznetsova Tat'Jana Nikolaevna
  • Kuznetsov Vjacheslav Ivanovich
  • Kuznetsova Marija Vjacheslavovna
RU2539762C1
BACTERIUM STRAINS LACTOBACILLUS RHAMNOSUS, WITH A WIDE SPECTRUM OF ANTAGONISTIC ACTIVITY RELATING TO PATHOGENIC AND CONDITIONALLY PATHOGENIC MICROORGANISMS 2016
  • Chervinets Vyacheslav Mikhajlovich
  • Chervinets Yuliya Vyacheslavovna
  • Chervinets Lyudmila Fedorovna
  • Lebedev Sergej Nikolaevich
  • Belyaeva Ekaterina Andreevna
  • Troshin Andrej Valerevich
  • Chervinets Alina Vyacheslavovna
  • Kuznetsova Valeriya Sergeevna
  • Danilenko Valerij Nikolaevich
RU2627166C1

RU 2 199 356 C2

Authors

Petrenko S.I.

Dates

2003-02-27Published

2000-11-13Filed