WO2015111092A1 - Medical sheet material working method - Google Patents

Abstract

The present invention allows a further increase in a treatment effect of a medical sheet material which is used in treatment of a living body, for example, muscle stiffness or pain, cuts, etc., of a human being. A medical sheet material working method according to the present invention uses: a power source device formed from an AC power source which is grounded at one output terminal, and an LC parallel circuit which is connected in series to the other non-ground side output terminal of the AC power source, said power source device outputting a superpositioned wave (vo) of an output voltage (v) of the AC power source and an induced electromotive force (v') which is induced in the LC parallel circuit by an external electromagnetic wave with the other terminal of the LC parallel circuit as an output terminal; and a conductive electrode plate connected via a lead wire to the output terminal of the power source device and comprising a far-infrared radiator layer. A medical sheet material is positioned upon the upper part of the far-infrared radiator layer of the conductive electrode plate, either directly or with a gap therebetween. A fluctuating electrical field is generated in the conductive electrode plate by outputting the superpositioned wave (vo) from the output terminal of the power source device to the conductive electrode plate, the medical sheet material overall is located within the fluctuating electrical field, and the medical sheet material overall is activated.

Description

Processing method of medical sheet material

The present invention relates to a medical sheet material used as a bed, a futon, or the like for the purpose of treating insomnia or ensuring a good night's sleep, directly pasting or wrapping around an affected part of a human body such as low back pain, stiff shoulders, and hemostasis. This is related to the improvement of the processing method. It generates potential fluctuations and electric field fluctuations in the electrode plate brought into contact with the sheet material, and radiates far infrared energy from the far infrared radiation layer of the electrode plate to form the sheet material. It promotes the activation of vibrations of atoms and molecules, thereby promoting the circulation of human tissues such as the skin and muscle of the person who has pasted or wrapped the sheet material, vigorous metabolism, low back pain and The present invention relates to a method for processing a medical sheet material that can quickly and efficiently cure stiff shoulders, hemostasis, insomnia, and the like.

Traditionally, medical sheet materials that are attached directly to the affected area of the human body for treatment of back pain, stiff shoulders, hemostasis, etc., or spread on beds, duvets, blankets, etc. to treat insomnia and ensure sleep, Many have been developed and put into practical use.

However, conventional medical sheet materials of this type, such as poultices and bandages for treating low back pain and stiff shoulders, usually have a desired thickness of a therapeutic agent on one side of a flat substrate. It is manufactured and processed by coating it and drying it appropriately.
For this reason, the medical sheet material has only an effect on low back pain, stiff shoulders, and the like, which is inherently retained by the therapeutic drug layer, and does not exhibit a therapeutic effect beyond that inherent in the drug layer.

This is also true for sheet materials for insomnia treatment and ensuring sleep. FIG. 3 is a plan view of the bedding sheet A for insomnia treatment and sleep ensuring developed by the inventor of the present application, and the outer surface of the sheet material B is made of ink containing far-infrared radiation ceramic powder. It is manufactured and processed by printing a large number of patterns C such as a circle or a polygon.

By the way, if a person receives an appropriate stimulus by massage or the like on the outer surface of the skin, the majority of people will be drowsy. Many medical analysis studies have been conducted on these events, but in general, stimulation of the outer surface of the skin increases the activity of the neurotransmitter system and capillaries, resulting in sleep. It has been explained that changes in the functions of related cranial nerves and brain cells cause sleepiness.

The sheet material A for bedding shown in FIG. 3 utilizes the above-described phenomenon, and absorbs far-infrared energy on the skin outer surface to statically stimulate the skin outer surface, thereby activating capillary blood vessels. By increasing the blood flow and activating the nerve transmission system, the same sleepiness as in the case of massage or the like is induced in a person.

However, in the sheet material A for bedding shown in FIG. 3, only the far-infrared radiant energy from the infrared radioactive ceramic forming the pattern C acts to induce drowsiness in humans, and a part other than the pattern C, for example, a part of the sheet material B Only performs the function of retaining the pattern C that emits far-infrared energy.
Therefore, the stimulating effect on the skin outer surface is limited only to the far-infrared radiation energy from the pattern C portion, and the stimulating effect on the skin outer surface is relatively low. As a result, it is difficult to give sufficient stimulation to the affected area to promote blood circulation and activate muscle tissue at a high level, and it is difficult to cure stiffness and pain in a short period of time. There are difficulties. Further, when the area of the pattern C is increased in order to enhance the stimulating effect, there is a problem that the beauty as the bedding sheet material A is impaired (Japanese Patent Laid-Open No. 9-327362).

JP-A-9-327362 JP-A-8-187428

The present invention can be applied directly to or wound around the affected part of the human body for the treatment of conventional low back pain or stiff shoulders, hemostasis, etc., or laid on the outer surface of a bed or a futon to ensure insomnia or ensure sleep. The above-mentioned problems in the medical sheet material, that is, the therapeutic drug layer in the medical sheet material such as a poultice material or a bandage simply by laminating and fixing the therapeutic drug layer on one side of the sheet material Can only affect the tissues of humans and animals, and the high efficacy beyond that inherent to the drug layer can be obtained, and b, bed sheets, blanket covers for sleep, futon sheets, etc. In the medical sheet material, only the part of the applied far-infrared radiator can exert the therapeutic effect, and it is difficult to obtain a high therapeutic effect. The whole material, That is, not only the drug component fixed or impregnated on the sheet material, but also the whole medical sheet material including the sheet material holding the drug is placed in a fluctuating electric field and subjected to an electric field treatment, and far infrared rays are applied thereto. It is a main object of the present invention to provide a method for processing a medical sheet material that significantly improves the therapeutic effects of the medical sheet material, such as stiffness, pain, hemostasis, and sleep, by irradiating and absorbing Is.

The inventor of the present application has previously developed a method for modifying a substance using high-frequency electromagnetic waves, and disclosed this as Japanese Patent Laid-Open No. 8-187428. The method of modifying the substance is to irradiate water with high-frequency electromagnetic waves to activate it, thereby promoting chemical reactivity and organic matter decomposition, brewing fermentation and shortening the ripening time, preventing food spoilage, plant growth It enables promotion and the like, and actually has a high practical utility.

Through the research and development of a method for modifying the above substances, the inventor of the present application activates the entire medical part and base material part of a conventional medical sheet material, such as a poultice material, a bandage, a sleep sheet material, etc. It was conceived that by enhancing the activation of water, which is the main component of tissues, it is possible to promote the activation and regeneration / repair of the affected tissue of the human body. Numerous studies have been conducted on the therapeutic effect of medical sheet materials on various affected areas, such as those with stiffness, pain, cuts, rheumatism and neuralgia, and analysis and confirmation of the results.

The invention of the present application was created through the above-described test and analysis of the test results. The invention of claim 1 includes an AC power supply with one output terminal grounded, and the other non-grounded output terminal of the AC power supply. An LC parallel circuit connected in series, with the other end of the LC parallel circuit as an output terminal, an output voltage v of the AC power supply and an induced electromotive force v ′ induced in the LC parallel circuit by an external electromagnetic wave A far-infrared radiator layer of the electrode plate made of a conductor using a power source device that outputs a wave vo, and a conductor electrode plate having a far-infrared radiation layer connected to the output terminal of the power source device via a lead wire A medical sheet material is arranged directly or with a gap on the upper part of the wire, and the superimposed wave vo is output from the output terminal of the power supply device to the electrode plate made of the conductor to generate a fluctuating electric field on the electrode plate made of the conductor. In a floating electric field With exposing the entire medical sheet, by irradiating far infrared rays from the far infrared radiator layer, in which the basic structure of the invention to activate the whole of the medical sheet.

According to a second aspect of the present invention, in the first aspect of the invention, the conductor electrode plate is supported and fixed by an insulator base.

According to a third aspect of the invention, in the first aspect of the invention, the conductor electrode plate and the ground are connected by a resistor Ro.

The invention of claim 4 is the invention according to claim 1, claim 2 or claim 3, wherein the frequency of the AC power source is 2 Hz to 200 Hz.

The invention of claim 5 is the invention according to claim 1, 2 or 3, wherein the resonance frequency of the LC parallel circuit is 20 kHz to 2000 kHz.

The invention of claim 6 is the invention according to claim 1, claim 2 or claim 3, wherein the conductive electrode plate is a conductive electrode plate made of rubber or plastic containing metal or metal powder. is there.

The invention of claim 7 is the invention of claim 1, 2 or 3, wherein the far-infrared radiator layer is made of a ceramic sintered body or a rubber or plastic mixed with ceramics.

The invention according to claim 8 is the invention according to claim 1, claim 2 or claim 3, wherein the sheet-like base material of the medical sheet material is composed mainly of vegetable fibers such as cotton, hemp and paper. It is made into the sheet-like base material to perform.

The invention according to claim 9 is the invention according to claim 1, claim 2 or claim 3, wherein the medical sheet material is applied to the body stiffness, pain, poor blood circulation, bleeding prevention, trauma, burns, rheumatism, neuralgia. The medical sheet material used for any of the above treatments.

The present invention consists of an AC power supply with one output terminal grounded and an LC parallel circuit connected in series with the other non-grounded output terminal of the AC power supply, with the other end of the LC parallel circuit as an output terminal, A power supply device that outputs a superimposed wave vo of an output voltage v of the AC power supply and an induced electromotive force v ′ induced in the LC parallel circuit by an external electromagnetic wave, and connected to the output terminal of the power supply device via a lead wire When the far-infrared radiation layer is used, a conductive electrode plate is used, and a medical sheet material is arranged directly or with a gap on the far-infrared radiator layer of the conductive electrode plate, and the output of the power supply device By outputting the superimposed wave vo from the terminal to the electrode plate made of the conductor, a fluctuating electric field is generated in the electrode plate made of the conductor, and the entire medical sheet material is exposed to the fluctuating electric field, and from the far-infrared radiator layer Irradiate far infrared By, and the entire medical sheet to activate.

That is, a high-frequency electromotive force v ′ is induced in the LC parallel circuit of the power supply device by an external electromagnetic wave, and the induced electromotive force v ′ is superimposed on the alternating voltage v of the AC power supply. Then, when the output voltage vo of the superimposed wave in which the induced electromotive force v ′ is superimposed on the alternating voltage v is applied from the power supply device to the conductive electrode plate, the potential of the conductive electrode plate fluctuates minutely. The electric field on the surface of the electrode plate made of a conductor and in the vicinity thereof fluctuates.

When the electric field fluctuates due to the potential fluctuation of the conductor electrode plate, fluctuation occurs in the outer electron orbit of the atoms of the material constituting the conductor electrode plate, and a quantum wave based on proton vibration is emitted, The vibration of molecules and atoms in the medical sheet material in contact with or near the electrode plate made of a conductor becomes intense.
In addition, the radiant energy from the far-infrared radiator provided with the electrode plate made of conductor is irradiated onto the medical sheet material, so that the group of molecules and atoms constituting the medical sheet vibrates vigorously due to thermal motion. Will return. In this way, far-infrared radiant energy is added in synergy with electric field fluctuations, and the medical sheet material is highly activated throughout the sheet material, including the drug layer, improving the blood circulation of the affected tissue and the metabolism. This increases the therapeutic effect of the medical sheet material.

Furthermore, the frequency of molecules and atoms constituting the medical sheet generated by the electric field fluctuation and far-infrared radiation energy varies greatly depending on the resonance frequency of the LC resonance circuit. Therefore, by appropriately adjusting the frequency of the induced electromotive force v ′ and resonating the resonance frequency of the LC resonance circuit with the vibration of molecules and atoms of the affected tissue, the activation of the affected tissue and the like is further promoted and the healing thereof. Will be faster.

In addition, when far infrared rays are radiated in a fluctuating electric field, the molecules of the sheet material resonate and a part of the molecular structure of the material is denatured, and the far infrared radiation amount and emissivity of the material itself are slightly improved. As a result, the so-called far-infrared effect or terahertz effect of the sheet-like material is further enhanced.

As described above, the medical sheet material processed according to the present invention has a high utility in the treatment of the affected tissue of living organisms, and its utility has been confirmed by clinical tests. However, the theoretical analysis that the medical sheet material processed according to the present invention has a high clinical therapeutic effect on biological tissue stiffness, pain, neuralgia, rheumatism, etc. has not been sufficiently performed. Accordingly, there are many unclear points regarding the cause, action, and mechanism of the improvement of the therapeutic effect of the medical sheet material resulting from the electric field fluctuation process. However, the medical sheet material according to the invention of the present application has an actual high therapeutic effect and healing effect.

In the present invention, a single alternating voltage is not output, but a superposed wave in which a high-frequency alternating voltage is superimposed on a low-frequency basic alternating voltage is output. It has been confirmed that a high frequency fluctuation electric field synergistically acts on the medical sheet material, and a higher processing effect can be obtained.

In addition, by appropriately selecting the basic frequency of the AC power supply and the resonance frequency of the LC parallel circuit according to the type of medical sheet material, the medical sheet material can be more effectively activated, and the affected part It has been confirmed that it is possible to accelerate the healing of tissues and the like, and the therapeutic effect of the medical sheet material obtained by the electric field fluctuation varies depending on the material of the electrode plate.

1 is a block system diagram illustrating a first embodiment of a method for processing a medical sheet material according to the present invention. It is explanatory drawing which shows 2nd Embodiment of this invention. It is outline | summary explanatory drawing of the medical sheet | seat material for conventional sleep (sheet material A for bedding).

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block system diagram showing a first embodiment of a method for processing a medical sheet material according to the present invention, in which an affected tissue having pain or swelling due to bruise or the like, an affected tissue having stiffness, or an injury The present invention shows a method for processing a medical sheet material used for treatment of affected tissues and the like, as well as for ensuring restful sleep and insomnia, rheumatism, neuralgia, prostatic hypertrophy, diabetes and the like.

Referring to FIG. 1, a medical sheet material processing method according to the present invention includes a power supply device 1 corresponding to a transmitter and a conductor including a far-infrared radiation layer 4a connected to the power supply device 1 via a lead wire 7. The treatment is performed using a medical sheet material processing apparatus including the electrode plate 4 and the insulating material base 5 that supports the conductor electrode plate 4.

In addition, the medical sheet material 8 processed in the present invention (hereinafter referred to as an object to be treated 8) includes a compress sheet, a wound tape, a bandage, a bandage, and an adhesive layer applied to one side of the substrate. All medical sheet materials such as a sleep sheet containing or fixing a far-infrared radiator are included.
In addition, the material of the sheet-like base material constituting the medical sheet material 8 (object to be processed 8) may be a material mainly composed of vegetable fibers such as cotton, hemp, paper, or a synthetic resin. It may be a fiber-based material or a non-woven fabric.

The power source device 1 is formed of an AC power source 2 and an LC parallel circuit 10 connected in series with the AC power source 2. One side of the AC power source 2 is connected to a grounded output terminal 2b. The output terminal 2a on the non-ground side of the AC power supply 2 is connected in series to one connection point 9a of the LC parallel circuit 10, and the other connection point 9b of the LC parallel circuit 10 is connected to the power supply The output terminal 3b of the device 1 is connected. R and Ro are protective resistors.

The LC parallel circuit 10 resonates with an external electromagnetic wave having a frequency of 20 KHz to 2000 KHz by varying the capacitance C, and induces an alternating voltage v ′ having the resonance frequency. Then, a superimposed voltage vo of the alternating voltage v of the AC power source 2 having a frequency of 2 Hz to 200 Hz and the alternating voltage v 'of the resonance frequency is output between the terminals 2b and 3b.

The conductor electrode plate 4 is obtained by forming a far-infrared radiator layer 4b on the upper surface side of the metal electrode plate 4a. The metal electrode plate 4a may be a conductive electrode plate made of rubber or plastic containing metal powder.

In FIG. 1, 1a is a case, 2a is an output terminal on the non-ground side, 2b is an output terminal on the ground side, 3b is an output side terminal of a power source, 4 is an electrode plate made of a conductor, 4a is a conductive electrode plate, 4b is a far-infrared radiator layer, 4c is a terminal, 5 is a support base made of an insulating material, 6 is a ground point, 7 lead wires, 8 is an object to be processed (medical sheet material), v is a voltage waveform of an AC power source, v 'Is an induced electromotive force of the LC parallel circuit, i is a current due to the superimposed voltage Vo of v and v', C 'is a stray capacitance, and R and Ro are protective resistors.

In the processing of the medical sheet material according to the present invention, first, a medical sheet material manufactured by a conventional manufacturing method, for example, a poultice sheet, wound tape, bandage, or adhesive bandage in which a drug layer is applied and fixed to one side of a base material A sleep sheet or the like containing or fixing a far-infrared radiator is placed above the conductive electrode plate 4a.
Next, the sine wave AC power supply 2 is activated and the LC parallel circuit 10 is tuned to a spatial electromagnetic wave having a desired frequency, and the voltage v of the AC power supply 2 and the induction of the LC parallel circuit 10 are induced between the terminals 3 b and 2 b of the power supply device 1. The superimposed voltage Vo with the power v ′ is output. Thereby, the alternating current i by the superimposed voltage Vo flows through the lead wire 7, the conductor electrode plate 4, and the stray capacitance C ′.

When the alternating current i by the superimposed voltage vo flows through the electrode plate 4 made of the conductor, the electric potential of the electrode plate 4 made of the conductor fluctuates, and thereby the electric field also fluctuates. Further, radiant energy from the far-infrared radiator 4 b is radiated to the object to be processed (medical sheet material) 8.
That is, when the electric field of the electrode plate 4 made of a conductor fluctuates, protons (plus ions) are generated in the electrode plate 4a, and thereby quantum waves are emitted. Further, far-infrared rays are emitted from the far-infrared radiator 4b. Then, by absorbing the emitted quantum waves and far-infrared energy, as described in the 0023 column and the 0024 column, the object to be processed (medical sheet material) 8 is more highly activated, The healing effect of the affected tissue is improved.

In addition, the action mechanism about improving the affected part healing effect of the to-be-processed object (medical sheet material) 8 by the electric potential fluctuation | variation of the said conductor electrode plate 4, electric field fluctuation | variation, and absorption of far-infrared radiation energy is the following. As described above, it is in reality that it cannot be said that it has been completely elucidated theoretically at present. However, these healing effects have been confirmed by tests and experiments.

Further, it is confirmed that the frequency of the AC power source 2 of the power source device (transmitter) 1 is optimally about 2 Hz to 200 Hz, and the resonant frequency of the LC parallel resonant circuit 10 is optimally about 20 KHz to 2000 KHz. ing.

As the power supply device (transmitter) 1, an AC power supply 2 having a frequency of 2 Hz to 200 Hz, an LC parallel resonance circuit having a resonance frequency of 20 KHz to 2000 KHz, a maximum output voltage vo of 25 to 250 volts, and a maximum transmission output of 3 to 10 watts The conductive electrode plate 4a is made of a rubber plate kneaded with metal powder (150 mm × 300 mm × 10 mm (thickness)), and the far infrared radiator layer 4b is made of rubber containing a far infrared radiation ceramic powder (thickness 30 mm). A commercially available ship material (100 mm × 200 mm / thickness mm), a bandage and a sleep sheet are placed on the upper part of the far-infrared radiator layer 4b as an object to be treated (a medical treatment sheet material 8), and each has an activity of 30 to 180 minutes. The treatment was performed.

Then, the treated ship material or adhesive bandage is directly attached to a human shoulder, the treatment for 24 hours per day is continuously performed for 3 days, and a commercially available ship material or adhesive bandage is used on the shoulder and the present invention. A comparison test of the state of elimination of stiff shoulder with the case of using the heel-shipping material and bandage treated by the above was performed. The average output of the power supply device (transmitter) 1 was 5 watts.

There are five test subjects in the above test. First, each test subject is given the same load condition to cause stiff shoulders, and once a day, 24 hours, 3 days on the market. We performed treatment by pasting the shipping material with drugs and investigated the resolution of stiff shoulders. Next, at the interval of 10 days, each of the same subjects was given the same load conditions as the previous time to cause stiff shoulders and processed according to the present invention once a day, 24 hours, 3 days. We performed treatment by pasting a shipping material with a drug on the market, and investigated the elimination of stiff shoulders with the same contents.

According to the results of the survey, all of the five test subjects recognized that the treatment with the drug-added ship material processed according to the present invention had the highest healing effect for the stiff shoulders. Has been proven.

FIG. 2 shows a second embodiment of the present invention. When the electrode plate 4 made of a conductor and the grounding point 6 in FIG. 1 are connected via a resistor Ro and the frequency of the AC power source 2 is low (that is, the frequency of the output vo (superposed alternating voltage) from the power source device 1 is The only difference from the case of the first embodiment is that the current flowability when the current is low) is different from that of the first embodiment. Other processing apparatus configurations and medical sheet material processing methods (medical sheet material processing methods) Is exactly the same as in the first embodiment.

In the present invention, the power supply device (transmitter) 1 is configured to change the waveform of the superimposed output voltage vo from the power supply device (transmitter) 1 to the conductor electrode plate 4 by adjusting the capacitance C of the LC parallel circuit. .
However, although not shown, the power supply device (transmitter) 1 may have any configuration as long as it is a transmitter configured to transmit a transmission wave (fundamental wave) and a high-frequency superimposed wave, It is also possible to provide a high-frequency transmitter configured to output a modulated wave obtained by amplitude-modulating a transmission wave (fundamental wave) with a high frequency (carrier wave).
Since the power supply device (transmitter) 1 itself is known, detailed description thereof is omitted here.

As described above, the present invention increases the activity of the medical sheet material itself by generating potential fluctuations and electric field fluctuations in the conductive electrode 4, thereby improving the effectiveness of the drug inherently held by the medical sheet material itself. The above high healing effect is obtained. As a result, it is possible to more effectively perform treatment of affected parts such as body stiffness, cuts, and rheumatic pains of all living organisms, and to achieve an excellent practical utility that rapid healing and recovery can be achieved.

The present invention can be applied not only to the treatment of affected parts of humans and animals but also to the processing of medical sheet materials for various organisms, and can also be used in fields such as agriculture and livestock industry and fishery.

1 Power supply (transmitter)
1a Case 2 AC power supply 2a AC power supply ungrounded output terminal 2b AC power supply grounded output terminal (output terminal of power supply device)
3b Output side terminal of power supply device 4 Conductor electrode plate 4a Conductive electrode plate 4b Far-infrared radiator layer 4c Terminal 5 Insulating material indicator 6 Grounding point 7 Lead wire 8 Medical sheet material (object to be processed)
9a connection point 9b connection point 10 LC parallel circuit i current v AC power supply voltage v 'induced electromotive force vo output voltage (superposed wave of v and v')
C capacitance L coil C 'stray capacitance R protection resistance Ro protection resistance

Claims (9)

1. An AC power supply having one output terminal grounded and an LC parallel circuit connected in series to the other non-grounded output terminal of the AC power supply, with the other end of the LC parallel circuit serving as an output terminal, A power supply device that outputs a superimposed wave vo of an output voltage v and an induced electromotive force v ′ induced in the LC parallel circuit by an external electromagnetic wave, and far-infrared radiation connected to the output terminal of the power supply device via a lead wire A conductive electrode plate having a layer, a medical sheet material is disposed directly or with a gap on the far-infrared radiator layer of the conductive electrode plate, and the conductive material is disposed from the output terminal of the power supply device. By outputting the superimposed wave vo to the electrode plate, a fluctuating electric field is generated on the electrode plate made of the conductor, and the entire medical sheet material is exposed to the fluctuating electric field, and far infrared rays from the far infrared radiator layer are irradiated. By doing Method of processing a medical sheet, characterized in that to activate the whole of the medical sheet.
2. The method for processing a medical sheet material according to claim 1, wherein the conductive electrode plate is supported and fixed by an insulating material stand.
3. The method for processing a medical sheet material according to claim 1, wherein the conductor electrode plate and the ground are connected by a resistance R.
4. The method for processing a medical sheet material according to claim 1, wherein the frequency of the AC power source is 2 Hz to 200 Hz.
5. 4. The method for processing a medical sheet material according to claim 1, wherein the resonance frequency of the LC parallel circuit is 20 kHz to 2000 kHz.
6. The method for processing a medical sheet material according to claim 1, 2, or 3, wherein the conductive electrode plate is a rubber or plastic conductive electrode plate containing metal or metal powder.
7. The method for processing a medical sheet material according to claim 1, wherein the far-infrared radiator layer is a ceramic sintered body or rubber or plastic mixed with ceramic.
8. The sheet-like base material of the medical sheet material is a sheet-like base material mainly composed of vegetable fibers such as cotton, hemp, and paper, according to claim 1, claim 2, or claim 3. Processing method of medical sheet material.
9. The medical sheet material is a medical sheet material used for the treatment of stiffness, pain, poor circulation, bleeding prevention, trauma, burns, rheumatism, neuralgia, prostatic hypertrophy, or diabetes. The processing method of the medical sheet material of Claim 2 or Claim 3.

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