JP2010279329A - Health food material - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a health food material for efficiently taking in amygdalin into the cancer cell of the body, and effective to ameliorate cancer treatment. <P>SOLUTION: This health food material is obtained by sealing the mixture S of silicic acid and amygdalin in a capsule K chewable in the mouth, or chewing gum G to be chewed in the mouth, or by burying the mixture S of silicic acid and amygdalin into an outer layer of artificial teeth, and eliminating the mixture S by the mesh of the artificial teeth in the mouth or the mesh of the artificial teeth and the natural teeth so as to make the material eatable. Alternatively, the health food material is obtained by molecular-bonding the mixture S of silicic acid and amygdalin followed by sealing in the capsule K swallowable without chewing. The molecular-bonded product is formed by grinding the mixture S of silicic acid and amygdalin by applying 4-6 kg pressure with an electrically insulated crushing device. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a health food material that can generate cations by chewing in the oral cavity, and relates to the improvement of Japanese Patent Application No. 2008-333504 filed earlier by the present applicant.

  In food intake and absorption, galvanic current anionization is promoted for food chewed excessively in the oral cavity, so that this food is absorbed so as to be cancerous. That is, it is considered that when food is taken into the human body, it is ionized to become an anionic substance, thereby inducing the occurrence of cancer.

  In order to prevent the food from being absorbed so as to be cancerous, the silica that can generate cations has been ingested into the body. This silica (silicon dioxide) is a fine silicon oxide occupying about 60% of the earth's crust, and is a giant covalently bonded crystal body in which a regular tetrahedral structure centering on a silicon atom is connected innumerably through oxygen atoms. Silicon is one of the most important minerals present in the human body at a ratio of about 29 ppm. In particular, silica itself is a nutrient that cannot be easily produced in the necessary human body such as blood vessels, skin, hair, nails, bones, etc., and depending on body weight, for example, about 1800 ppm is required per day for a person of about 60 kg. The

  In recent years, it has been known that amygdalin (vitamin B17) is effective for cancer treatment. Amygdalin is one of aldehyde derivatives also called laetrile, mainly ume, apricot, peach, loquat, etc. A kind of cyanide glycoside contained in immature fruits, seeds, leaves, etc. of rose family plants (for example, prunes, bamboo shoots, brown rice, soybeans, buckwheat, sesame, etc.) and benzaldehyde cyanohydrin It is widely distributed in the plant kingdom as a saccharide.

  Amygdalin is native to, for example, Iran and Syria, and is found in the mature fruit of Kentouju (a tonsil tree) cultivated in North Africa, Southern France, and California, North America. This material is hydrolyzed by the enzyme emrudine to give 2 moles of glucose and 1 mole of dextrorotatory benzaldehyde cyanohydrin, which further breaks down into benzaldehyde and hydrogen cyanide (hydrocyanic acid). Benzaldehyde is the main component of essential oils such as Kentou oil and Cassia oil.

  Cancer cells are covered with a negatively charged protein membrane. In addition, since white blood cells, lymphocytes and the like are negative electricity, they cannot approach cancer cells and cannot be erased from the body even if their immunity is high.

  However, amygdalin is said to be a substance that kills and destroys only cancer cells, and its molecule has a stable structure in which 2 units of carbohydrate (glucose), 1 unit of cyanide, and 1 unit of benzaldehyde are chemically bonded. Yes.

  That is, a large amount of a degrading enzyme called β-glucosidase for decomposing amygdalin exists in cancer cells. Only the β-glucosidase enzyme present only in the cancer cells decomposes amygdalin and liberates cyanide and benzaldehyde to liberate them.

  As a result, amygdalin cyanide glycoside is decomposed by the β-glucosidase enzyme of cancer cells to release cyanide and benzaldehyde and eradicate them only in the cancer cells. Is returned to innocuous substances by the Rhodanase enzyme in surrounding healthy cells and excreted through normal processes.

  Amygdalin is said to increase the activity by providing resistance and anti-disease power to healthy cells other than cancer. In addition, there is a protective enzyme called rhodanese in the human body, and it is present in large amounts everywhere except cancer, so when amygdalin approaches healthy cells other than cancer cells, it is protected by rhodanese and is not affected at all. .

  In addition, benzaldehyde, a component of amygdalin, is oxidized to be innocuous benzoic acid when it comes into contact with healthy cells, acts like aspirin, and suppresses severe pain associated with end-stage cancer. it can.

nothing special

  Conventionally, however, it is very difficult to incorporate silica silicon into the body in the form of a cation. In other words, since silicon has four outermost electrons (valence electrons) that participate in the bond, the silicon ion can be either positive or negative tetravalent, and at the same time, either ion. It ’s hard to be. Therefore, the state of the cation (plus 4 valences) that lost four of the outermost electrons (valence electrons) is only a few seconds in the outside air, and the problem is that the electrons are immediately received and become oxides or compounds. is there.

  Conventionally, it is very difficult to efficiently and reliably incorporate amygdalin into a cancer cell that has been proliferating.

  Therefore, the present invention has been devised in view of the conventional circumstances as described above, and silicon can be easily taken into the body in the form of a cation. It is reliably absorbed even by cells that are not sufficient in the body, promotes normal functioning of the stomach, intestines, cells, etc., and improves constitution such as treatment of cancer or removal of cancer constitution and improvement of immunity In addition, it is possible to provide a healthy food that is effective in improving cancer treatment by being able to properly and efficiently incorporate this silicon-bonded amygdalin into the cancer cells of the body. For the purpose.

  In order to solve the above-described problems, the present invention is characterized in that a mixture of silicic acid and amygdalin is sealed with a capsule that can be chewed in the oral cavity.

  A mixture of silicic acid and amygdalin is enclosed in a chewing gum that is chewed in the oral cavity.

  It is characterized in that a mixture of silicic acid and amygdalin is embedded in the surface layer of an artificial tooth, and the mixture is removed by eating the artificial tooth in the oral cavity or by engaging the artificial tooth with the natural tooth. To do.

  There are a plurality of locking projections on the outer surface of the crown base material of the metal crown restoration material using a metal crown base material, and a hard resin is held so as to be bitten and held by the locking projections. It is assumed that the crown outer layer material made of the adopted plastic material is coated on the upper surface of the crown base material, and the mixture is embedded in the crown outer layer material.

  Ultra high strength so that the crown base material of the crown restoration material by metal bond using the crown base material made of titanium has a plurality of locking projections on the outer surface of the crown base material and is held by biting by the locking projections It is assumed that a crown outer layer material employing a plastic material made of an MFR nanohybrid type hard resin is formed on the top and outer surfaces of the crown base material, and the mixture is embedded in the crown outer layer material.

  A mixture of silicic acid and amygdalin is molecularly bonded and sealed in a capsule that can be swallowed without chewing.

  The molecular bond is formed by crushing a mixture of silicic acid and amygdalin by applying a pressure of 4 to 6 kg with an electrically insulated crushing device.

  According to the present invention, silicic acid can be easily taken into the body in the form of a cation, and this cation is reliably absorbed into the stomach and intestines in the body and even into cells that are insufficient in the body. It promotes the normal functioning of the stomach, intestines, cells, etc., and is effective in improving the constitution, such as treatment of cancer or removal of cancer constitution and improvement of immunity. Furthermore, the amygdalin combined with silicic acid is added to the body. Therefore, it is possible to easily provide a healthy food that is effective in improving cancer treatment.

  That is, in the present invention, the mixture of silicic acid and amygdalin is sealed by a capsule that can be chewed in the oral cavity, so that the mixture of silicic acid and amygdalin can be stably stored for a long time. In the case of eating, this capsule is bound by utilizing the ability to chew well in the oral cavity, so that silicic acid can be easily taken into the body in the cation state and at the same time the amygdalin bound to this silicic acid is the shortest. It can be reliably delivered into cancer cells in time. By the way, cancer cells need silicic acid to grow.

  Since the mixture of silicic acid and amygdalin is sealed in the chewing gum that is chewed in the mouth, when chewing, the chewing gum is continuously chewed in the mouth so that the mixture of silicic acid and amygdalin inside. Is chewed into a molecular binding state, and amygdalin can be reliably delivered into cancer cells in the shortest time.

  Since the mixture of silicic acid and amygdalin is embedded in the surface layer of an artificial tooth, the mixture is removed by eating the artificial tooth in the oral cavity or by engaging the artificial tooth with the natural tooth. The mixture of silicic acid and amygdalin embedded in the surface layer of the artificial tooth is chewed by the engagement of the artificial tooth or the natural tooth, and further by the toothpaste etc. Silicic acid can be easily taken into the body in a bound state.

  Moreover, while administration with conventional drugs is harmful if it is too much, it is not effective if it is too little, but in the present invention, the amount of silicic acid and amygdalin reduced by artificial teeth is appropriate, so that an appropriate amount of amygdalin is used. Can be reliably transferred into cancer cells.

  There are a plurality of locking projections on the outer surface of the crown base material of the metal crown restoration material using a metal crown base material, and a hard resin is held so as to be bitten and held by the locking projections. The crown outer layer material made of the adopted plastic material is coated on the upper surface of the crown base material, and the mixture is embedded in the crown outer layer material, so that it does not break in all crowns, bridges, etc. A mixture of silicic acid and amygdalin with approximately the same strength as the metal bond can be held in the crown outer layer material on the upper surface of the crown base material, and the silica outer The mixture with amygdalin is in a molecularly bonded state, and when swallowed, silicic acid can be easily taken into the body in the form of a cation, and at the same time, the amygdalin bound to this silicic acid is ensured in the shortest time. It can be fed to cancer in cells.

  In addition, it does not generate a galvanic current in the mouth or around the lips, eliminates the sense of incongruity, and is effective in improving the constitution, such as removing cancer constitution and improving immunity in addition to eliminating metal allergy It will be something.

  Ultra high strength so that the crown base material of the crown restoration material by metal bond using the crown base material made of titanium has a plurality of locking projections on the outer surface of the crown base material and is held by biting by the locking projections Since the outer crown layer material using a plastic material made of MFR nanohybrid hard resin is coated on the upper and outer surfaces of the crown base material, the mixture is embedded in the outer crown layer material. By making improvements, for example, the same strength as that of the metal bond that does not break in any single crown, bridge, etc. is created, and a mixture of silicic acid and amygdalin is applied to the crown on the top surface of the crown base material. The mixture of silicic acid and amygdalin is in a molecularly bonded state due to the engagement of the outer layer material of the crown or the toothbrushing, etc. Easily it can be fed amygdalin bound to the silicate at the same time can be incorporated into the body to the shortest time reliably cancer intracellular down state.

  In particular, since an ultra-high-strength MFR nanohybrid hard resin plastic material is used as the outer crown layer material, it is possible to easily embed a mixture of silicic acid and amygdalin in the manufacturing process of the crown restoration material. In other words, using a brush or the like, stack the outer crown layer material on the outer surface of the crown base material, then embed a mixture of silicic acid and amygdalin in the outer crown layer material, irradiate light and heat to solidify. It is possible to retain a mixture of silicic acid and amygdalin in a crown restoration material that is strong and durable against brushing and occlusion of food.

  A mixture of silicic acid and amygdalin is molecularly bonded and encapsulated in a capsule that can be swallowed without chewing, so the silica and amygdalin are preliminarily molecularly bonded, so the capsule is simply swallowed without chewing it with teeth. Thus, amygdalin together with silicic acid can be reliably delivered into the cancer cell in the shortest time.

  The molecular bond is formed by crushing a mixture of silicic acid and amygdalin by applying pressure of 4 to 6 kg with an electrically insulated crushing device, so that a molecular bond between silicic acid and amygdalin is easy. Is obtained.

It is a partially cutaway perspective view of the health food in the best mode for carrying out the present invention. It is a partially cutaway perspective view showing another example of health food. FIG. 6 is a cross-sectional view showing a state in which a mixture of silicic acid and amygdalin is embedded in the depressions of the outer crown layer material in the configuration of the crown restoration material using a single crown. FIG. 6 is a cross-sectional view showing a state in which a mixture of silicic acid and amygdalin is embedded in a plurality of depressions of the outer crown layer material in the crown restoration material using the bridge. FIG. 5 is a cross-sectional view showing a state in which a mixture of silicic acid and amygdalin is embedded in the depression of the outer crown layer material in the configuration of the dental crown restorative material using dentures. It is sectional drawing which shows the state which embedded the mixture of a silicic acid and an amygdalin between the hollows of a crown outer layer material in the structure of the crown restoration material which similarly formed the undercut part. It is a figure which shows the molecular structure of amygdalin. It is a figure which shows the chemical formula of a silicic acid. It is a figure which shows the molecular structure of a nesosilicate.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
As shown in FIG. 7, the amygdalin (vitamin B17) molecule, which is a substance that selectively destroys only cancer cells, comprises 2 units of carbohydrate (glucose), 1 unit of cyanide, and 1 unit of benzaldehyde. It has a stable structure that is extremely tightly coupled. In order to efficiently draw this amygdalin into cancer cells in the stage of proliferation, silicon oxide (hereinafter referred to as silicic acid) is required to assist the growth of cancer cells. That is, amygdalin is decomposed into a cyanide compound by an enzyme possessed by cancer cells. This kills the cancer cells.

Silicic acid is a gel-like substance in which silicon dioxide (common name silica) and water are combined, and is a compound of silicon, oxygen, and hydrogen represented by the chemical formula [SiO _x (OH) _4-2x ] _n shown in FIG. There are orthosilicic acid, metasilicic acid, metadisilicic acid and the like. Orthosilicic acid is rarely present alone and is often a mixture. Metasilicic acid is not a simple silicon, oxygen, or hydrogen molecule, but a tetrahedral structure in which four oxygen atoms are coordinated around one central silicon atom. This is a crystal body.

  In an ionization equilibrium state in an aqueous solution, orthosilicic acid is considered to be a tetravalent acid from the chemical formula. In the basic solution, polymerized polysilicate ions are also present depending on the pH and concentration. Orthosilicate ions are present in natural minerals such as magnesium salts or meteorites and are called nesosilicates. This is an isolated tetrahedral structure as shown in FIG. 9, and the bond distance between silicon and oxygen in the iron meteorite crystal is 164 pm.

  Further, a mineral containing disilicate ions obtained by condensing two silicate tetrahedrons with oxygen and cross-linked with oxygen is called solosilicate and includes chlorite. Furthermore, there are inosilicates in which silicate tetrahedrons are linked in a chain, cyclic silicates having a cyclic structure, phyllosilicates having a layered structure, and tectosilicates having a three-dimensional structure. These silicates are ionic crystals containing silicate ions and are components of many minerals.

  As shown in FIG. 1, the health food material according to the present invention includes a mixture S of silicic acid and amygdalin enclosed in a capsule K made of, for example, gelatinous material that can be chewed in the oral cavity. When eating, capsule K is crushed together with the mixture S at a pressure of 4 to 6 kg, and the silicic acid and amygdalin in the mixture S are molecularly bonded, so that the amygdalin bonded to the silicic acid is reliably obtained in the shortest time. It can be sent into the body's cancer cells.

  Moreover, in FIG. 2, the mixture S of silicic acid and amygdalin is sealed in the chewing gum G chewed in the oral cavity. When eating, the chewing gum G is chewed in the mouth to simultaneously crush the internal mixture S. By swallowing only the mixture S, the amygdalin combined with silicic acid can be surely removed in the shortest time. It can be sent into cells.

  FIG. 3 shows a specific example in which the health food according to the present invention is applied to a crown restoration material for forming artificial teeth. That is, the dental crown restoration material includes a dental crown base material 1 made of a metal material such as a titanium material and a gold-silver-palladium alloy, and the dental crown base material 1. It is comprised from the crown outer layer material 3 by the plastic material which employ | adopted the hard resin coat-formed on the upper surface.

  The outer crown layer material 3 is applied with MFR nanohybrid technology in which an active MFR filler and a glass filler are hybridized with high density in a resin matrix in which nanofillers that are ultrafine silica particles are uniformly dispersed in advance. Yes.

  In other words, since the nano filler is uniformly dispersed and arranged in the resin matrix portion, it becomes difficult to generate a gap between the resin matrix and the glass filler due to polishing, so that the bending strength is improved and uneven wear of the resin matrix portion is not generated. In addition, durability against brushing and occlusion is improved.

  In particular, in a crown restoration material employing such an ultra-high-strength MFR nanohybrid hard resin, high physical properties that can withstand harsh oral environments can be easily obtained by using photopolymerization and heat polymerization in combination. can get.

  A plurality of locking projections 2 are formed on the outer surface of the crown base material 1 of the crown restoration material by metal bond using the crown base material 1, and the crown outer layer material 3 is formed by the locking projections 2. Is designed to hold the bite. That is, on the outer surface of the crown base material 1, for example, a plurality of substantially spherical convex locking projections 2 are integrally projected at substantially equal intervals, and the crown outer layer material 3 is placed on the top surface of the crown base material 1. When covered and solidified, the outer crown layer material 3 is firmly held by the locking projections 2 so that, for example, as shown in FIG. 4, in addition to a single crown as shown in FIG. The bridge and the dentures as shown in FIG. 5 all have substantially the same strength as the metal bond that does not break.

  Needless to say, the locking projection 2 provided on the outer surface of the dental crown base material 1 may be, for example, a square shape other than the substantially spherical convex shape shown in the figure.

  In addition, as shown in FIG. 6, when using a crown restoration material for a tooth having a width such as a molar, for example, an undercut portion is formed at the lower edge portion of the crown base material 1 covering the tooth base P. 4 may be formed, and the crown outer layer material 3 may be held by the undercut portion 4.

  As shown in FIGS. 3 to 6, the mixture S of silicic acid and amygdalin is embedded in, for example, the upper surface depressions of the outer crown layer material 3. When the mixture S is chewed or crushed by the engagement of the outer crown layer material 3 or the toothpaste, etc., silicic acid and amygdalin are molecularly bonded in the oral cavity. By swallowing this, the amygdalin bonded to the silicic acid is surely obtained in the shortest time. To be sent into the cancer cell. At this time, the silicon atoms constituting the silicic acid are taken into the body in the form of cations.

Next, an example in which the health food according to the present invention configured as described above is used as a dental crown restoration material will be described.
This forming procedure is the same for a bridge as shown in FIG. 4 and a denture as shown in FIG. 5 in addition to a single crown.

  First, on the upper surface of, for example, a titanium material as the crown crown base material 1, a crown outer layer material 3 made of a plastic material employing a hard resin is covered and formed using a brush or the like.

  At this time, in order to prevent the metal material of the crown base material 1 from being exposed to the surface in the state of covering the tooth bed P at the time of restoration, the crown outer layer material 3 wraps up the crown base material 1 from the upper side. In this way, it is covered.

  The crown outer layer material 3 is irradiated with light for about 3 minutes to undergo photopolymerization, and then heated and polymerized in an oven or the like to solidify the outer crown layer material 3, and after the solidification, the outer crown layer material 3 is shaped. A crown restoration material is formed by polishing.

  Finally, the mixture S of silicic acid and amygdalin is embedded in, for example, the upper surface recess of the outer crown layer material 3.

  By biting the mixture S between the depressions of the outer crown layer material 3 by meshing or toothing, the silicic acid and amygdalin are molecularly bonded in the oral cavity and swallowed. Amygdalin combined with acid is surely sent into cancer cells in the body in the shortest possible time.

  Moreover, as another specific example in which the health food material according to the present invention is applied to a crown restoration material for forming artificial teeth, a material containing silicic acid is used for No. 4 and No. 5 premolars. Or, fill the complete denture with a filling containing the silicic acid (same color as the teeth), and drink natural amygdalin, for example tea with loquat leaves while chewing at a pressure of 4-6 kg . At this time, silicic acid and amygdalin are molecularly bonded in the oral cavity.

  Moreover, as another specific example of the health food according to the present invention, silicic acid and amygdalin may be preliminarily molecularly bound and swallowed without being chewed and taken into cells. In order to molecularly bond such silicic acid and amygdalin, the mixture S of silicic acid and amygdalin is crushed by applying a pressure of 4 to 6 kg with an occlusal crushing device such as a sawtooth. In this way, a molecular combination of silicic acid and amygdalin that can be absorbed into cells bound at the molecular level by crushing under a pressure of 4 to 6 kg is obtained. Just swallow it without sealing it.

  The amygdalin thus fed into the cancer cell together with the silicic acid is efficiently and accurately taken into the cancer cell whose growth is suppressed by the cation of the silicon atom of the silicic acid and kills the cancer cell. At this time, there is a large amount of a degrading enzyme called β-glucosidase for degrading amygdalin near the cancer cells. Only the β-glucosidase enzyme present only in the cancer cells decomposes amygdalin and liberates cyanide and benzaldehyde to liberate them.

  As a result, amygdalin cyanide glycoside is degraded by the β-glucosidase enzyme of cancer cells to release cyanide and benzaldehyde, and only cancer cells are selected and eradicated. It returns to innocuous substances again by the Rhodanase enzyme in healthy cells and is excreted through normal processes.

P tooth bed K capsule G chewing gum S mixture of silicic acid and amygdalin 1 crown base material 2 locking projection 3 crown outer layer material 4 undercut part

Claims (7)

  A health food material comprising a mixture of silicic acid and amygdalin sealed in a capsule that can be chewed in the oral cavity.   A health food comprising a mixture of silicic acid and amygdalin enclosed in a chewing gum chewed in the oral cavity.   It is characterized in that a mixture of silicic acid and amygdalin is embedded in the surface layer of an artificial tooth, and the mixture is removed by eating the artificial tooth in the oral cavity or by engaging the artificial tooth with the natural tooth. Healthy ingredients to do.   There are a plurality of locking projections on the outer surface of the crown base material of the metal crown restoration material using a metal crown base material, and a hard resin is held so as to be bitten and held by the locking projections. 4. A health food material according to claim 3, wherein an outer crown layer material made of a plastic material is coated on the upper surface of the crown base material, and the mixture is embedded in the outer crown layer material.   Ultra high strength so that the crown base material of the crown restoration material by metal bond using the crown base material made of titanium has a plurality of locking projections on the outer surface of the crown base material and is held by biting by the locking projections 4. A health food material according to claim 3, wherein a crown outer layer material employing a plastic material made of an MFR nanohybrid type hard resin is coated on the upper and outer surfaces of the crown base material, and the mixture is embedded in the crown outer layer material. .   A health food comprising a mixture of silicic acid and amygdalin that is molecularly bonded and encapsulated in a capsule that can be swallowed without chewing.   7. The health food according to claim 6, wherein the molecular bond is formed by crushing a mixture of silicic acid and amygdalin by applying a pressure of 4 to 6 kg with an electrically insulated crushing device.

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