DE4411333A1 - Method to influence cells using an electric field - Google Patents

Abstract

Method to influence the cells of single- and multicellular living organisms. The organisms are placed within a DC field generated between two separate electrodes of opposing poles. They remain in the field for a time span which is long enough for the free electrons contained in the plasma of the mitochondria to be aligned against the field line orientation. They are deflected for collection near the positive polarised conductive layer of the mitochondria. Also claimed is an appts. with two spaced metal electrodes, of opposing poles, supplied with DC. They are surrounded by an insulating layer to prevent overloading.

Description

The invention relates to a method for influencing cells unicellular and multicellular living organic organisms and sub directions for performing this procedure.

The structural structure of the cells of all single and multi-cell organic organisms, regardless of their size and radio tion, is known to be largely identical. They consist in first approximation viewed from the cell body, the cell nucleus Cell wall and a central body as well as several organ cells and the cell wall (membrane).

The cell nucleus contains the genetic material (chromosomes as a genetic formation). It is surrounded by a cell fluid which Mass transfer is used, and also on all sides of the mitochon drium, the cell's power plant. The most karyotic, i.e. H. straight The genetic inheritance involved in sexual inheritance is in macromolecules (DNA) encoded and localized in the cell nucleus. Outside the cell  core and separated from it by the nucleus wall in the cell plasma another genetic control, Pro tein-synthesizing system with its own inheritance in the mentioned localized mitochondria, which is the extrakaryotic (plasmatic, matrokline) inheritance caused by mitosis, d. H. self-propagation through cell division.

Essential for influencing a single cell The mitochondria mentioned are in a living organism as cell organ parts with self-propagation character. You build oxy dativ the hydrocarbons taken from the food ties and cause the construction of the high-energy connection adenosine triphosphate (ATP), which the cell uses as energy ferant to carry out their energy-consuming life processes ge needed.

The extraction of energy from oxidative degradation (reaction equation 2H₂ + O₂ - 2 H₂O), in successive as cell respiration drawing individual steps, takes place in an electrical La field under the catalytic action of enzyme complexes, which are components of the mitochondrial membrane. Exam Studies in baker's yeast have shown that their cells are oxidative by cellular respiration without oxygen or light exposure un ter energy gain hydrocarbons by fermentation ver to like.

It has now been found that the Mi tochondria by externally applying a dormant, acting on the electrically conductive cell plasma DC potential depending on the effective field strong influence can be exerted. It will affect the charge carriers contained in this plasma in the mitochondria and thus exerted forces on the free electrons forming them practices. These free moving electrons are released in the  brought DC voltage field opposite to the Feldlinienrich tion more or less distracted or aligned, d. H. they collect in the area of the outer atomic layer of the leit capable body that the positive side of the DC voltage field is facing. This will result in the conductive body charge separation due to the charge of the field-generating charge generated Coulomb forces (Influenz) that each according to conductivity and field charge strength as a more or we strong polarization. Now there are the elec tronate the mitochondria in the mitotic process in vivo in this polarized direct voltage field the cell part Development process with relatively low atomic and molecular Ver bonds disturbed because the elec tronen distracted because of their polarization in their orientation and the connection positions assigned to them are not can take more. This makes cell division more known lower connections stopped, and the mother and daughter cell len die immediately after initiation of mitosis.

Bacteria and microorganism cells die relatively low DC voltage values do not decrease. You will be in the same voltage field activated by an internal voltage field that itself in the direction of the free electrons builds up positive side of the DC voltage field. Because of this The respective bacteria and micro become internal tension organisms to work faster without the need for acid Material and light supply activated. This means that the Bak teries and microorganisms, for example, in all fermentation projects React faster; the respective medium reaches quickly its final state. These organisms also become environmental harmful chemical substances in existing media taken, split and neutralized in this way.  

To achieve the effects described see an additional Method according to the invention for influencing cells more cellular living organisms that the organisms in the we kungsbereich of the DC by two spaced, opposite poles opened electrodes forming stationary DC chip field of materials with different electrochemicals equivalence and in this position during time duration of the influencing process, by which ches the free electrons contained in the plasma of the mitochondria trons opposite to the field line direction of the through the different electrochemical equivalence of the electrodes materials from the directionally activated DC field directed and by directional deflection to collect in the area of positively polarize conductive outer layer of the mitochon be influenced. The use of electrode material fen with different electrochemical equivalence, that is already without a power connection between the electrodes an electric field of low field strength through charge separation builds up. With the binding of the free electrons of some The electrode with positive charges is the other electrode this process completed; the field turns out to be DC field.

According to another very easy to use application the method according to claims 1 or 2, the electro which are introduced into liquid or mush-like media, in which contain the organisms to be influenced. These The method can be used, for example, for water contaminated with algae or sponge manure pits not yet decomposed by bacteria Come into play.  

Another application of the method according to the invention exists in the scope of the through the charged electrodes generated DC field to be introducing influencing organisms when they are in substrates are stored from a solid physical state.

In a further embodiment of the method, it can be advantageous be that the plate-shaped electrodes with a Direct current from a voltage between 0.5 and 100 volts their surface is statically charged. Furthermore, after a further process proposal, the electrodes through the Charging voltage before introducing the organ to be influenced men applied and during the duration of the process by the electricity source, or the electrodes can be removed during the Duration of the procedural interference with the power source be connected.

According to a further embodiment, the electrodes in Ver Driving stages with direct current of different voltages be hit. Here it depends in which periods prevents the cell proliferation process of selected materials and certain cells are to be destroyed; or as the guest The process of accelerating certain media is accelerated or given chemical substances should be neutralized.

According to a further modified proposal, it is possible that stored energy is applied to the electrodes in order to the process in this way over long periods of time to be able to see clearly.

To carry out the method according to the invention, a pre proposed direction, the two spaced, opposite poles the same has current-applied metal electrodes, which for ver avoiding rollovers covered with an insulating layer  are. A DC voltage field is created between the electrodes testifies, with the insulation flowing electrical Electricity is avoided. The most advantageous insulation effect is achieved if the insulating layer made of a PVC material with a dielectric constant between 3 and 6.

After further development, the device can use electrodes have the ge as flat or curved plates or spatially curved structures are specially designed according to that seen location or area of application. In line with the external conditions of use and the material to be influenced the distance between the electrodes can be at least 5 mm and depending on the field strength of the charge to be applied speed of the electrode and insulating layer material and the measured applied DC voltage. Zones and areas, which is not affected by the DC electrical field shielding (Faraday Cage) can be neutralized.

The device for performing the method can with Elek be provided with trodes made of aluminum or a material same electrochemical equivalence exist. Through this out the electrodes to be influenced with direct current Electrical charge of the same size already at the beginning of the process towards.

To carry out the method advantageously, an elec trode made of copper with an electrode made of aluminum be arranged connection. Other metals can also be used different electrochemical equivalence than electrodes material that is already selected without a power connection Charge separation generate a DC electric field.  

Further advantageous embodiments of the implementation of the Ver driving can be that the device with a Energy storage is equipped such that the electrodes on a permanent battery, a dry battery or a rechargeable battery Battery with power supply are connected. There is another one Execution possible in that the energy-storing Ele elements are waterproof encapsulated.

The fields of application of the invention are very broad. It can be used wherever certain living Cells are prevented from existing and reproducing should. At the same time, the invention can be used for acceleration any fermentation processes are used or these at all first get going. Part of the possible areas of application listed below: sponge manure pits, sewage sludge solids basin, including nitrogenous lakes and bodies of water their riparian zones, contaminated soils and waters, Destruction of algae in contaminated water, wine and beer manufacture, manufacture of dairy products, yeast manufacture.

The procedure according to the invention has been numerous practical applications proven to be extremely effective, of which the most important exemplary embodiments are shown below are:

Example I

As a representation of the interruption of the cell division process with Destruction of algae cells and subsequent activation the cells of existing bacteria and microorganisms apply following experiment:  

In an extensive algae culture in a pond or lake with an area of approximately 500 square meters and a depth of 1.60 m 4 devices according to the invention were introduced. The floor of the lake was 50 cm thick at the start of the experiment Layer of mud covered. He also gets a mas of 25 kg of fish feed and the excretions of about 50 Wild ducks burdened. The interacting electrodes were on a voltage source of 12 V connected, so that in the a static electrical chip surrounding them field with an expansion of approx. 150 square meters per front direction, which also the closer surrounding the lake Areas covered. The rapidly growing algae stel len the lowest form of atomic and molecular connection and die in the DC electrical field the relatively low voltage quickly and easily. Since the Mitochondria of algal cells by influencing their La potential for growth and disintegration not only prevent the formation of daughter cells, but we Due to the damage to the mitochondria, the maternal cell also died len.

The bacteria and microorganisms in the water are not destructible at the applied low voltage values; You will be activated to act faster; harmful che Mixed substances in the water are from the bacteria and micro organisms absorbed and split, whereby for the growth of the Required oxygen is released to aquatic plants.

After 3 to 4 days the algae culture of the lake had died; she had become a very loose mass of the smallest, loose, plankton-like, dead components dissolved. With the beginning of the The lake's chemical oxygen demand was experimented with  registered a value of 25.9; after 4 months the measurement showed a value of size 8. Likewise, the oxygen Lake content at the beginning of the experiment was given as 4.0; after two months, this was also temperature-dependent Value on the order of 20.1.

The procedure described was also carried out with a Device performed, the electrodes of which are waterproof encapsulated permanent battery were connected. It was the achieved the same effects.

Example II

As an example for the activation of cells of bacteria and The invention becomes microorganisms in a sponge manure pit as well as a sewage sludge pit.

In the 4 m deep pits, each with a volume of 150 cubic meters two devices were introduced, their plate-shaped Electrodes were already charged with a charger. By an additionally connected direct current source with a DC voltage of 12 V was another feed when needed possible. The enforcement of the sponge man or the clarifier sludge from the activated microorganisms occurred in 1 up to 2 weeks. The ongoing enforcement process is based on of the contents of the sponge manure pit explained in more detail: The Aus animal divorces are not fully digested; they ent still keep grains and other solid food ingredients in not significantly changed form. There are also straw stocks parts from animal stables and liquid manure. The contained aqueous Components of the sponge manure collect in the lower part of the Pit, while the solid components prove to be up to 1.50 m  solidify the thick layer on the surface of the pit. These solid components are from the existing bacteria and Microorganisms absorbed and excreted converted. It a homogeneous, mush-like mass is formed, which immediately becomes Fertilization can be used.

Example III

In the same way, the process took place with contaminated sites infected so-called acidic soils. Through the decomposition work the activated microorganisms received such forest floor an area of approximately 500 square meters in 1 to 2 years normal loose condition again. There were 4 according to the invention Devices placed in the ground.

Claims (21)

1. A method for influencing cells of single and multicellular living organisms, characterized in that the organisms are brought into the area of action of the electrodes, which are at a distance from each other and have the same current applied in the opposite polarity, and are held in this position during the duration of the influencing method, by which the free electrons contained in the plasma of the mitochondria are directed opposite to the field line direction and are influenced by directional deflections for collection in the region of the positively polarized conductive outer layer of the mitochondria. 2. Method for influencing cells single or multiple liger living organisms, characterized, that the organisms are within the scope of the beabstan by two Dete, opposite polarity applied electrodes dormant DC voltage field made of materials with under brought different electrochemical equivalence and in this Situation during the duration of the influencing process by which the ent in the plasma of the mitochondria held free electrons opposite to the field line rich by the different electrochemical equivalence of the electrode materials activated directivity dynamically current field aligned and by directional deflection to collect in the area of positively polarized conductive outer Layer of the mitochondria can be affected. 3. The method according to claims 1 or 2, characterized net that the electrodes in liquid or mush-like media be introduced in which the organisms to be influenced are included. 4. The method according to claims 1 or 2, characterized net that to be influenced in substrates of solid Physical state of stored organisms in the effective range of the direct current field generated by the charged electrodes of the introduced. 5. The method according to claims 1 or 2 and 3 and 4, since characterized in that the plate-shaped Electrodes with a direct current of a voltage between 0.5 and 100 volts are statically charged on their surface.   6. The method according to claims 1 or 2 and 3 to 5, since characterized in that the electrodes through the drawer tension before introducing the organisms to be influenced acted upon and by the power source during the duration of the procedure are separated. 7. The method according to claims 1 or 2 and 3 to 5, since characterized in that the electrodes during the duration the procedural interference with the power source ver are bound. 8. The method according to claims 1 or 2 and 3 to 7, since characterized in that the electrodes in process stages applied with direct current of different voltage become. 9. The method according to claims 1 or 2, characterized in net that in rhythmic intervals the polarity of the elec tapping is reversed. 10. The method according to claims 1 or 2 and one or several of claims 3 to 9, characterized in that the electrodes are loaded with stored energy. 11. Device for performing the method according to the An sayings 1 or 2, characterized by two spaced metal electrodes with opposite polarity, which to avoid flashovers with an insulating layer are covered. 12. The apparatus according to claim 11, characterized in that the insulating layer made of a PVC material with a Dielectric constant between 3 and 6 exists.   13. Device for performing the method according to one of the Claims 1 and 2 and according to one of claims 11 and 12, characterized in that the electrodes as flat or ge curved plates or spatially curved structures are formed are. 14. The apparatus according to claim 11, characterized in that the distance between the electrodes is at least 5 mm and according to the applied field strength of the charge depending on the electrode and insulating layer material and the opened th DC voltage measured. 15. Device for performing the method according to claim 1 and according to one or more of claims 11 to 14, since characterized in that the electrodes made of aluminum or a material with the same electrochemical equivalence stand. 16. An apparatus for performing the method according to claim 2 and according to one or more of claims 11 to 14, since characterized in that an electrode made of copper with a Aluminum electrode is arranged in operative connection. 17. An apparatus for performing the method according to claim 1 or 2 and one or more of claims 11 to 16, characterized in that the electrodes are connected to a permanent battery terie are connected. 18. Device for performing the method according to claim 1 or 2 and one or more of claims 11 to 16, characterized in that the electrodes are dry battery are connected.   19. Device for performing the method according to claim 1 or 2 and one or more of claims 11 to 16, characterized in that the electrodes are connected to a rechargeable Battery with power supply are connected. 20. Device according to claims 17 to 20, characterized records that the batteries and / or the power supply with the Capacitor plates are connected so that they are structural Form unity. 21. Device for performing the method according to the An sayings 1 or 2 and one or more of the claims 17 to 20, characterized in that the energy-storing Elements or the batteries and / or the power supply are waterproof are encapsulated.