DE2947194A1 - Detector for electro-physiological medical diagnosis - used to determine characteristics of radiation emitted by biological substance of system - Google Patents

Abstract

The detector responds to optical or electromagnetic radiation emitted by a substance and/or a biological system to determine the optical activity or the radiation polarisation, e.g. in conjunction with electro acupuncture. It comprises one or more of the following:- an antenna, a coil, a wave converter, a wave filter, a polarisation filter, a polaroid filter, a phase shifter, a Fresnel parallel epiped, a Babinet compensator and a solar compensator. One of these components or a selected combination can be used in conjunction with an inverter, which may be optical or electronic. The detector is designed for direct evaluation of the emitted radiation, for non-intrusive diagnosis, e.g. carried out by the patient himself.

Description

description

Reception and / or polarization detector for electromagnetic emissions from substances or biological systems, e.g. for electrophysiological medical Diagnostics The invention relates to a device as a reception and / or polarization detector, e.g. for medical diagnostics, such as B. Electrophysiological medical Diagnostic procedures, such as electro-acupuncture procedures, for reception and / or to differentiate or determine the electromagnetic emissions Substances and / or biological systems in terms of intensity and electromagnetic Polarization of emissions from substances and / or biological systems that are optically active or electromagnetically active.

The invention enables for the first time by means of e.g. electrophysiological medical diagnostic procedures, such as electro-acupuncture procedures, a medical in vivo diagnostics of the differentiation and determination of the optical and the electromagnetic Polarization of substances and / or biological systems that are to be diagnosed The patient himself can derive endogenous substances and / or biological systems and / or the substances not originating from the patient himself and / or biological Systems, exogenous substances, and / or biological systems, in a e.g. right circular, left circular, linear, left elliptical and / or right elliptical polarized electromagnetic radiation wave field optically or electromagnetically more active Substances and / or biological systems.

It is known that in biochemistry optically active substances in biological Systems a preferred optical, circularly polarized direction of rotation of the electromagnetic Have interactions that are physiological. While that polarized in opposite directions Isomer of the same substance and / or the same biological system, the enantiomer, the same biological system is pathologically burdened.

(Cf. Lehninger, A .: "Biochemie", Weinheim 1977, pp. 63-67 R1prt . M. : Md Rapoport, S. M. "Medical Biochemistry", Berlin 1977, p. 88) Hiochemistry " Berlin1 (377.5.XA) It is also known that substances and / or biological Systems emit their own electromagnetic radiation. This was in the experimental work by Doz. FA. Popp, Univ. Marburg, proven.

(Compare: Popp, F.A .: "Vom Wesen des Lebens" analysis of radiation biological systems, editor: "Review in Science and Technology", (1979) issue 8, page 235 Popp, F.A .: Ed .: 'tElektromagnetics - Bio-Informationf Munich 1979) The previous methods for determining the optical or electromagnetic polarization optically active substances and / or biological systems are expensive physicochemical laboratory procedures carried out in vivo using a polarimeter. However, without the possibility of a physiological and / or pathological interpretation the measured values directly on the biological system. Thus it is not possible to do this Carry out measurements in vivo.

(Cf.: Brdicka, R .: Fundamentals of Physical Chemistry "Ost-Berlin 1976, pp. 930-937) It is known that individual, described in claims 1 to 8 Arrangements of the reception and / or polarization detectors in the exemplary embodiments e.g.

as coil and / or antenna arrangements in technical applications used in high-frequency technology and in radio technology. The technical use in radio technology already allows the use of e.g. helical and / or Coil antennas to take advantage of the high degree of separation between the differently polarized electromagnetic waves, e.g. as receiving selection of a preferred polarization direction with high selectivity compared to the oppositely polarized electromagnetic Waves.

(Compare: Meinke, H. / Gundlach, F.H .: Pocket book of high frequency technology " Berlin, Heidelberg 1968, 5. 613 - 614 Stirner, E .: "Antennas", Volume 1, Heidelberg 1977, 5. 187 - 196) The previous status in medical diagnostics, e.g. in electrophysiological medical diagnostics, e.g. in electro-acupuncture procedures, allows reception, but not determination with simultaneous differentiation electromagnetic emissions from substances and / or biological systems.

A differentiation with simultaneous determination of the electromagnetic Polarization or the optical activity of substances and / or biological systems could not use electrophysiological medical diagnostic methods, such as with electro-acupuncture procedures, can be measured and determined.

With previous versions in medical diagnostics for reception electromagnetic emissions from substances and / or biological systems designs are used, e.g. in the electro-acupuncture procedures, which consist of Solid, closed, not structured according to high-frequency technical parameters Material are made, similar to a cube 1 and / or 2, similar to a so-called stylus electrode 3, similar to a so-called hand electrode 4.

(see: Kramer, F .: "Textbook of Electro-Acupuncture", Volume 1, Heidelberg 1976 pages 64 - 75) Medical diagnostics, e.g. with electrophysiological medical diagnostic procedures, such as electro-acupuncture procedures, the Differentiation and determination of the electromagnetic or optical activity or the electromagnetic polarization of the electromagnetic emissions from substances and / or biological systems is therefore not possible.

The invention aims to provide a device in which the above-described Disadvantages are eliminated and furthermore the disadvantages of a physicochemical laboratory process for differentiation and determination of the electromagnetic or optical activity of substances and / or biological systems and these laboratory chemical processes largely replaced, and also that the disadvantage of the previously exclusive in vitro determination the electromagnetic activity or the optical activity is switched off and by a device according to the invention for in vivo determination of the optical or the electromagnetic activity can be replaced.

The object is achieved according to the invention in that, for example, in the medical Diagnostics, e.g. in electrophysiological medical diagnostic procedures, such as in the electro-acupuncture procedures to receive the electromagnetic Radiations from substances and / or biological systems take place, as was previously the case Unstructured, solid materials described above, such as cube 1 and / or 2, used as stylus electrode 3, as hand electrode 4 will, but that to receive the electromagnetic radiation and to differentiate and for determining the electromagnetic polarization or the optical activity electromagnetic emissions from substances and / or biological systems the devices according to the invention as structured, according to the electromagnetic High-frequency conditions differentiating reception and / or polarization detectors can be used, as shown in Figures 5, 6, 7, 8, 9, 14, 15, 16 as possible Embodiments of the receiving and / or polarization detectors according to the invention shown as coil and / or antenna arrangements and as required with an inverting device, Figure 10, 11, 12, 13, to a functional unit can be combined according to protection claim 8. As a possible embodiment Figure 14 shows such a combination of reception and / or polarization detector with a possible inverting device.

The practical applications of the inventive reception and / or Polarization e.g. in medical diagnostics, such as in electrophysiological medical diagnostic procedures, e.g. in electro-acupuncture procedures, are proven by the experimental arrangements that make up the practical examples 5 to 16 led that the theoretical statements of high frequency technology with the biophysical and biochemical research results of electromagnetic interactions of substances and / or biological systems. that emit electromagnetic waves and / or are optically active, match and can be applied to them.

For example, a coil and / or antenna arrangement takes the inventive Receiving and / or polarization detectors then preferably e.g. clockwise circular and / or elliptically polarized electromagnetic waves when the helix or the direction of rotation of the winding of the receiving and / or polarization detectors according to the invention also has a clockwise direction of rotation, for example.

For counter-clockwise electromagnetic circular and / or elliptical For polarized waves, left-handed rotation of the helix is preferred.

Clockwise rotation has e.g. a reception and / or polarization detector, when looking from space in the direction of propagation of the incoming electromagnetic wave looks into the helix or coil and / or antenna device and this both can emit as well as receive clockwise electromagnetic waves.

Clockwise rotation corresponds to clockwise rotation.

As an embodiment of the invention of receiving and / or polarization detectors show e.g. the following coil and / or antenna arrangements clockwise rotation 6, 61, 15th As an embodiment of the invention of receiving and / or Polarization detectors show, for example, the following coil and / or antenna arrangements Anti-clockwise rotation 5, 7, 9, 16, 51.

In the rest of the description, the direction of rotation designation is a According to high-frequency designations of the direction of rotation, e.g. clockwise direction having helix denoted as follows; as e.g. coil left ascending 6, 61.

For the common high-frequency designation of the direction of rotation, a In the description below, the direction of rotation designation applies to helixes with counter-clockwise rotation ascending to the right, e.g. 5, 7, 9, 51.

Possible embodiments of the previous typical receiving devices for electromagnetic emissions from substances or biological systems shown in the following figures 1, 2, 3 and 4 and are explained in more detail below described.

They show: Fig .: 1, previous typical design option as Example of previous recording devices for electromagnetic emissions from substances or biological systems.

Here as a so-called medication honeycomb.

Fig .: 2, previous, typical design options as an example previous recording devices for electromagnetic emissions from substances or biological systems.

Here as a so-called medication honeycomb.

Fig .: 3, previous, typical design option as an example a so-called pen electropod.

Fig .: 4, Previous, typical design option as 13cispicl a so-called hand electrode.

Possible embodiments of the invention are shown in the figures 5, usa, Sb, 6, 6a, 6 b, 7, 8, 9, 10, 11, 12, 13, 14, 15 and / or 16 shown and are described in more detail below.

They show: Fig .: 5, coil on the right in ascending order Fig .: 5a, coil on the right ascending, in side view Fig .: Sb, coil on the right ascending, in plan view Fig .: 6, coil on the left in ascending order Fig .: 6a, coil on the left in ascending order in side view Fig .: 6b, coil on the left ascending, in plan view Fig .: 7, embodiment of a so-called Stylus electrode Fig .: 8, embodiment of a so-called hand electrode Fig .: 9, exemplary embodiment of a so-called hand electrode Fig .: 10, exemplary embodiment an electronic transistorized inverting device Fig .: 11, exemplary embodiment an electronic integrated inverting device Fig .: 12, exemplary embodiment an optical, reflective inverting device Fig .: 13, exemplary embodiment an optical, phase-shifting inverting device Fig .: 14, exemplary embodiment a combination of the receiving and / or polarization detectors with an inverting device Fig .: 15, coil or spiral with clockwise rotation Fig .: 15a, coil or spiral with Clockwise direction of rotation, top view Fig .: 15b, coil or spiral with clockwise direction of rotation, in Side view Fig .: 16, bobbin or spiral with left-hand rotation Fig .: 16a, bobbin or spiral Spiral with left-hand rotation, top view Fig .: 16b, coil or spiral with left-hand rotation, in side view The advantages achieved by the invention exist in particular that in medical diagnostics, such as in clektrophysiological medical diagnostic procedures, such as electro-acupuncture procedures, the differentiation with simultaneous determination of the electromagnetic polarization or the optical activity of the electromagnetic emissions from substances electromagnetic biological systems can be measured in vivo.

This enables such a determination of the optical activity for the first time or the electromagnetic polarization directly on the patient, both that of the patient itself as well as that of a substance and / or a biological system that leads to the Patients endogenous and / or exogenous can be selected. With the simultaneous Possibility of determining and evaluating the measurement results for medical purposes Diagnostics with regard to the physiological and / or pathological significance in direct reference to the respective patient.

Using this method according to the invention it is e.g. medical diagnostics possible, the pathological enrichment of a non-physiological To be able to diagnose isomers of a substance. For example the pathological one Accumulation of D (-) - lactic acid in the tissue when exposed to acidotic exposure.

(See: Presentation by Prof. Schlierf, Heidelberg and Prof. Kübler, Gießen, "about D (-) - lactic acid" on the occasion of the XIV. Scientific congress of the German Society for Nutrition (DGE) on October 6, 1979) As a further application example e.g. the medical age determination of a biological system, which is carried out with the inventive Device with regard to the racemate and / or the R-form enrichment of proteins can take place in a biological system and at the same time evaluated diagnostically can be.

(See: "Age determination", in Ztschr. Spectrum of Science, 1979, Issue 11, page 19) As a further advantage, the invention achieves a greater advantage Coupling factor and / or better reception with greater antenna gain with an achieved higher sensitivity of the reception and / or polarization detector regarding the electromagnetic interactions of the reception and / or polarization detector with the electromagnetic emissions from substances and / or biological Systems.

especially when using e.g. a helical antenna and / or a Helical coil, as shown in the exemplary embodiment 5, 5a, 5b, 6, 6a, 6b, are located there Advantages available, in addition there is a broadband tuning with their harmonic multiple of the lower and / or upper waves. This also applies for Examples 15, 15a, 15b, 16, 16a, Itub.

The invention achieves a further advantage through the combination according to protection claim 8 of the receiving and / or polarization detector with an inverting device 10, 11, 12, 13. The combination makes it possible for a reception and / or a differentiation and determination of the electromagnetic emissions from the to be diagnosed patient self-derived substances and / or the body's own biological systems to differentiate and determine the electromagnetic Polarization and / or the optical activity can be determined in vivo. Next to the mentioned possibility of medical diagnostics and evaluation of the patient's own or endogenous substances and / or biological systems is also one Evaluation of non-endogenous substances and / or biological systems in vivo possible in direct electromagnetic interaction with the respective patient. For example, the substance to be diagnosed and / or the biological system forms and / or the patient himself through an endogenous substance and / or biological System via the inverting device with the electromagnetic radiation field of the patient concerned. This phenomenon becomes metrological detected by means of electrophysiological diagnostic methods and used for medical purposes Diagnostics evaluated and diagnosed.

Description of Figures 1, 2, 3 and 4 Previous design options as examples of previously used recording options for electromagnetic emissions from substances or from biological systems in use in e.g. electrophysiological Medical diagnostic procedures, such as electro-acupuncture procedures, are used in Figures 1, 2, 3 and 4 shown as typical embodiments and described in more detail below.

The previous statements, of which typical, previous exemplary embodiments In Figures 1, 2, 3 and 4 as so-called medication honeycombs, handle leak death and hand-held lectures are shown, allowing the absorption of electromagnetic vibrations All previous exemplary embodiments consist of substances or biological systems 1, 2, 3 and 4 made of solid, closed, non-structured metallic material, which thus no differentiation and determination of the polarization of the electromagnetic Enable emissions from substances or biological systems. For this Basically could in medical diagnostics with electrophysiological medical Diagnostic procedures, e.g. with electro-acupuncture procedures, no differentiation and determining the electromagnetic polarization of the electromagnetic emissions from substances or biological systems as qualitative and quantitative medical ones Parameters can be made.

(Compare: Kramer, F .: "Textbook of Electro-Acupuncture", Vol. 1, Heidelbg. 1976, pages 64 - 75) Description of figures 5, 5a, Sb, 6, 6a, 6b, 15, 15a, 15b, 16, 16a, t6b as possible embodiments of the invention for receiving electromagnetic emissions and for differentiation and determination the optical or electromagnetic polarization, e.g. left circular, right circular and / or left elliptical, right elliptical and / or linear the electromagnetic The following examples are emanations from substances and biological systems selected and shown in Figures 5, 5a, 5b, 6, 6a, 6b, 7, 8, 9, 15, 15a, 15b, 16, 16a, 16b, 51 and / or 61, and described in more detail below.

In addition to the spatial, 3-dimensional exemplary embodiments 5, 5a, 5b, 6, 6a, 6b, 7, 8, 9, 51 and 61 is also a two-dimensional, two-dimensional one Execution possible, e.g. as execution option 15, 15a, 16, 16a and 16b.

Figures 5, 5a, 5b, 6, 6a, 6b, 7, 8, 9, 15, 15a, 15b, 16, 16a, 16b, 51, 61 show exemplary embodiments of reception and / or polarization detectors as coil arrangements. Depending on the diagnostic requirement, the winding sense is of the coil arrangements in ascending order on the right, Figures 5, 5a, 5b, 51, or on the left ascending, Figures 6, 6a, 6b, 61, wrapped.

In addition to the items shown in Figures 5, 5a, 5b, 6, 6a, 6b, 14, 15, 16, shown possible final assignments 23, 24, 30, 31, 32, 33, 34, 35, 36 can further, as mentioned in protection claim 6, are executed.

As an example of the use of the reception and / or polarization detectors, such as those in Figures 5, 5a, 5b, 6, 6a, 6b, 7, 8, 9, 15, 15a, 15b, 16, 16a, 16b, 51, 52 shown as coil arrangements for recording electromagnetic emissions from substances and / or biological systems in use e.g. in electrophysiological medical diagnostic procedures, such as electro-acupuncture procedures, the following applications are mentioned, which are based on the placement of the substance and / or the biological system within and / or outside the clear width or the coil opening or the coil winding arrangement of the coil arrangements and / or other exemplary embodiments of the invention can be.

As examples of applications where the substance and / or the biological Systems within the clear width of the coil arrangement and / or other exemplary embodiments of the invention are, for example, medical diagnostic methods such as e.g. with medical electrophysiological diagnostic methods and / or e.g. Electro acupuncture procedure. In these diagnostic procedures will with the receiving and / or polarization detectors according to the invention, both the quantitative reception as well as qualitative differentiation and / or determination the electromagnetic polarization and / or the optical activity of the electromagnetic Emission from substances and / or biological systems enables, e.g. a Gabzkörperdiagnostik of the patient and / or with these procedures on the named parameters to be tested and zii diagnosed substances. Both the body of the patient as well as the substance to be tested are e.g. within the Coil assembly is located.

As examples of applications where the substance and / or the biological systems outside the clear width of the coil arrangements and / or other embodiments of the invention are, for example, medical Diagnostic methods, such as medical electrophysiological diagnostic methods and / or e.g. electro-acupuncture procedures. In these diagnostic procedures, the receiving and / or polarization detectors according to the invention, both the quantitative Reception as well as the qualitative differentiation and / or determination of the electromagnetic Polarization and / or the opto-activity of the electromagnetic emissions from substances and / or biological systems, such as those mentioned Process as hand electrode, Figures 8 and 9, or as stylus electrodes, Figure 7, for the acquisition of measured values of the named physical quantities and parameters, e.g. at the electro acupuncture points. Both the patient's body and the substance to be tested is e.g. outside and / or inside the coil arrangement is located.

According to the usual high-frequency technical direction of rotation designation of The receiving and / or polarization detectors 6 have filaments and / or coils, 6a, 6b, 15 and 61 clockwise rotation; the reception and / or polarization detectors 5, Sa, 5b, 16 and 51 counter-clockwise rotation.

Description of Figures 7, 8 and 9 As possible exemplary embodiments for receiving electromagnetic emissions - and for differentiation and determination the optical or electromagnetic polarization of the electromagnetic emissions of substances and biological systems in use in e.g. electrophysiological medical diagnostic procedures, such as electro-acupuncture procedures, are in Figures 7, 8 and 9 are shown, among other things, as possible exemplary embodiments and are described in more detail below.

Figure 7 shows a possible embodiment of a stylus electrode for electrophysiological medical diagnostic procedures, such as electro-acupuncture procedures, e.g. a conical arrangement. Other embodiments can also be used such as cylindrical and / or as mentioned in claim 3.

Figure 7 shows an ascending coil winding arrangement on the right.

The winding direction of the coil winding arrangement depends on the diagnostic requirement ascending to the right, Figure 7, and / or ascending to the left.

According to the usual high-frequency technical sense of rotation designations the receiving and / or polarization detector according to the invention 7 counterclockwise rotation.

Figures 8 and 9 show possible embodiments of e.g. hand electrodes for electrophysiological medical diagnostic procedures, such as.

Electro-acupuncture procedures, e.g. a cylindrical coil arrangement, Figure 8, and a cone-shaped coil arrangement, Figure 9.

The winding sense of the coil winding arrangement of the hand electrode in Figure 9 is in ascending order on the right. The winding sense of the coil winding arrangement however, it can be ascending to the right and / or ascending to the left, depending on the diagnostic requirement to be wrapped. According to the usual high-frequency technical sense of rotation designations the embodiment of the invention of Figure 9 has left-hand rotation.

For the exemplary embodiments in Figures 7, 8 and 9, you can choose the pin assignment as specified in protection claim 6 can be made. The vote of the coil material according to claim 2 can be selected.

The versions 7,8,9 can be spatially, 3-dimensional, as also flat, 2-dimensional, can be executed.

Definitions of terms for Figures 10, 11, 12, 1 and 14 Description drawing 20 Possible implementation of an emitter and / or a collector for electromagnetic waves, e.g. waveguides and / or strip conductors and / or Antennas 21 Possible connection assignments for the feeds and / or the removal of the electromagnetic waves, e.g. as an input port.

22 Possible connection assignments for the supply and / or the removal of the electromagnetic waves, e.g. as an output terminal X total of the electromagnetic waves Radiations from substances and / or biological systems that do not change will.

X X- cross: total electromagnetic emissions from substances and / or biological systems that are inverted. X = - X 23 output of the pin assignment from the reception and / or polarization detector of the coil 51 24 output of the connection allocation from the reception and / or polarization detector of the coil 61 25 input to the inverting device, optionally, depending on e.g. medical diagnostic requirements, with the output 23 and / or is connected to the output 24.

26 Radiated electromagnetic wave that strikes the mirror flat and which has the meaning of X.

27 Electromagnetic wave to be received, coming from the mirror surface 37 to the meaning of X has been changed.

28 Radiated electromagnetic wave that hits the lambdahalbe shift plate 39 and has the meaning of X.

29 Electromagnetic wave to be received, which is the half-lambda phase-shift plate 39 has passed and has been changed to the meaning of X.

51 reception and / or polarization detector as a possible embodiment of the invention, similar to the embodiment according to Figures 5 and 15 61 receiving and / or polarization detector as a possible embodiment of the invention, similar to the design according to Figures 6 and 16 description to Figures 10, 11, 12 and 13 As possible exemplary embodiments of the invention an inverting device according to claim 8, among others, the following options selected and shown in Figures 10, 11, 12, 13 and in more detail below described.

What they all have in common is that the electromagnetic Waves X are inverted so that the tapped at the outputs 22 electromagnetic Waves have the meaning of X.

The embodiments of an inverting device with transistorized inverting device 10 and / or that of an integrated inverting device 11 bring about a quantitative Inversion of the electromagnetic oscillations, e.g. the amplitude, e.g. from the input intensity a to the output intensity -a of the electromagnetic waves.

The designs of an inverting device with a mirror inverting device 12 and / or that of an optical phase-shifting inverting device 13 a qualitative inversion of the electromagnetic oscillations, e.g. polarization. So z.ß. from the input polarization right circularly polarized wave to the output polarization left circularly polarized wave.

The embodiments 12, 13 of the invention can be used both with waveguides, Striplines as well as with optical devices can be carried out.

In the exemplary embodiment of an optical, specular inverting device 12, a reflecting surface 37 and a partition wall 38 have been used.

In the embodiment of an opto-phase, phase-shifting inverting device 13, a half-lambda phase shift plate 39 has been inserted.

Description of Figure 14 In addition to other possible designs as an embodiment of the invention according to claim 8 is a possible arrangement shown as an example. The combination of the inventive reception and / or Polarization detectors with an inverting device according to protection claim 8 is shown as a possible embodiment in Figure 14 and in more detail below described.

The combination of the receiving and / or polarization detectors according to the invention with an inverting device according to protection claim 8 is a possible Ausführungsheispicl shown in Figure 14.

Itie z.l3. from the reception and / or polarization detectors 51 and / or 61 recorded electromagnetic waves are optional, as required from output 23 and / or from output 24 forwarded to input 25. At the output 22 the inverted electromagnetic wave X is available.

Instead of using the selected inverting device as shown in the illustration 12, others are also usable, such as inverting devices as in FIGS Figures 10, 11, 13 shown.

The combination according to Figure 14 of the electromagnetic according to the invention Receiving and / or polarization detectors with an inverting device according to protection claim 8 enables, for the first time, use in medical electrophysiological Diagnostic procedures, such as electro-acupuncture procedures, a differentiation and determination of the electromagnetic polarization of substances and / or biological ones Systems, which can also come from the patient to be diagnosed himself, directly in a non-invasive measurement process on the same patient. The ones from the detectors e.g. 51 and / or 61 recorded electromagnetic waves of the substance and / or of the biological systems form the body's own or the patient's own substances and / or biological systems to the electromagnetic to be diagnosed Wave X of the patient with the electromagnetic available at output 22 Wave that is fed to the medical electrophysiological diagnostic process will cause interference due to the inversion to X, depending on the used Detector 51 and / or 61 is detected for diagnostics. The ones shown in the exemplary embodiment Detectors 51 and / or () I may, for example, be similar among other possible designs the statements in Figures 5, 6, 15, 16 and / or in accordance with the designs according to protection claims.

The embodiment in combination with a possible inverting device has been designed with a reflective surface 37 and a partition 38.

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Claims (8)

Designation of reception and / or polarization detector electromagnetic Radiations from substances or biological systems, e.g. for electrophysiological Medical diagnostics claims 1) 7 device as receiving and / or polarization detector electromagnetic emissions, e.g. for medical diagnostics, e.g. electrophysiological medical diagnostic procedures, such as electro-acupuncture procedures, for receiving electromagnetic emissions from inorganic and / or organic Substances and / or biological systems and / or for differentiation or for Determination of the optical activity or the electromagnetic polarization of the electromagnetic emissions from organic and / or inorganic substances and / or biological systems that are optically or electromagnetically active thereby characterized in that as a detector for receiving the electromagnetic emissions from substances or biological systems and / or for differentiation or for Determination of the polarization of electromagnetic emissions from substances or optical and / or electromagnetic devices following biological systems and / or waveguide devices used individually and / or in an optional combination can be: antennas, coils, wave type converters, wave type filters, polarization filters, Polaroid filters, half-lambda phase shift plates, quarter-lambda phase shift plates, Fresnel parallelepiped, Babinetscher compensator, compensator from Soleil and / or that these devices, e.g. according to medical diagnostic requirement, with a Inverting device that inverts electromagnetic radiations, combined can be. 2) Device according to claim 1, characterized in that the receiving and / or polarization detectors made of an electrical conductor and / or semiconductor or other material. For what both inorganic and organic respectively. biological materials and / or biological systems are suitable, which show a certain and / or different cross-section. Claims (continued) 3) Device according to claim 1 or 2, characterized in that as flat and / or spatial arrangements of the receiving and / or polarization detectors of all geometric shapes are suitable. Some examples are mentioned; such as round, rectangular, square, elliptical, spiral cross-sectional shapes. The spatial arrangement cylindrical, conical, elliptical, hyperbolic, ellipsoidal, helical is possible, as well as flat. These forms can be used individually or in an optional combination are applied to each other. In the design of the reception and / or polarization detectors as antenna arrangements and / or as coils, the winding arrangements of the Antennas or coils according to their orientation, e.g. clockwise increasing (5, 51) or e.g. counterclockwise increasing (6,61), or clockwise rotation (15), counterclockwise rotation (16). 4) Device according to claim 1 to 3, characterized in that the substances and / or biological systems to receive their electromagnetic Radiations and differentiation of electromagnetic polarization both can be brought inside the receiving and / or polarization detectors as well as that the substances and / or biological systems outside of the receiving and / or polarization detectors are placed. These different uses are used in the following exemplary embodiments of the invention as follows. As an embodiment of the invention, this is, for example, in the application represented by coils and / or antennas. Here, the substances and / or biological systems both within the coil turns and / or antenna turns respectively. inside the coil and / or antenna openings or the clear Width of the coil and / or antenna arrangements are brought in as well as that the substance and / or the biological system outside the coil and / or antenna arrangements be placed. Claims (continued) 5) Device according to claim 1 to 4, characterized in that the reception and / or polarization detector in the exemplary embodiments of the invention as coil and / or antenna arrangements, the coil and / or antenna windings can be manufactured in all possible designs, e.g. in single-layer and / or multilayer and / or single and / or double and / or multi-stranded or wiry, parallel e.g. helical, coil and / or antenna winding arrangements or coil and / or antenna windings, as well as in bifilar and / or several parallel and / or non-parallel coil and / or antenna turns, with different and / or constant slope and / or slopes of the individual and / or the entire coil and / or antenna turns. The designs of the turns of the coils and / or the antennas can as an air coil and / or as an air antenna without a support body and / or on a support body to be wrapped. The coil and / or antenna shapes can be used individually or in can be used in an optional combination with one another. Both e.g. several identical and / or non-identical designs of the coil and / or antenna arrangements arranged in regular placement as well as irregular placement can be. 6) Device according to claim 1 to 5, characterized in that the reception and / or polarization detector in the exemplary embodiments of the invention as a coil and / or antenna arrangement as well as coil and / or antenna connections the coil and / or antenna start as well as the coil and / or antenna end and / or an optional connection assignment in a free combination of the coil and / or antenna beginnings or the coil and / or antenna ends as well as a coil and / or antenna center tap and / or taps can be used at other coil and / or antenna locations. Claims (continued) 7) Device according to claim 1 to 6, characterized in that for reception and / or for differentiation or for determination the polarization of the electromagnetic radiation from substances and / or biological systems also following optical and / or electronic and / or electromagnetic Devices and / or waveguide and / or stripline devices individually and / or can be used in optional combination, e.g. Antennas, such as Yagi antennas, dipoles, loop dipoles, round antennas, Cross antennas, spiral antennas, turnstile radiators, such as hollow and / or strip conductors, such as horn and / or funnel radiators, wave type converters, wave type filters, hollow and / or stripline couplers, beat couplers, cross couplers, directional lines, Circulators, Faraday rotators, Faraday circulators, directional couplers, hollow and / or Stripline preculator, such as optical devices such as polarization filters, lambda half phase shift plate (39), lambda quarter phase shift plate, Fresnel parallelepiped, Babinet compensator, Soleil compensator. 8) Device according to claim 1 to 7, characterized in that these devices, as required, in combination with an inverting device can be used. The inversion is an intensity inversion, e.g. of the amplitude a to the amplitude a, with a = - a and / or a polarization inversion, e.g. from left circularly polarized to right circularly polarized or vice versa. The inverting device can be used as an electronic inverse circuit, for example (10, 11) and / or as an optical or electromagnetic inverting device (12, 13) are executed. The combination of receiving and / or polarization detectors with an inverting device can be carried out both by a galvanic and by a galvanic connection between the two devices is not carried out. Further inverting devices are those used in high-frequency technology known waveguide and / or stripline devices can also be used, such as. Circulator, Faraday rotator, Faraday circulator, directional, beat, Cross coupler.