WO2020189788A1 - 水素吸引美容法、及び水素吸引美容法に用いる高濃度水素吸引装置 - Google Patents
水素吸引美容法、及び水素吸引美容法に用いる高濃度水素吸引装置 Download PDFInfo
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Definitions
- the present invention is used for a hydrogen suction beauty method capable of promoting improvement of skin condition by ingesting high-concentration hydrogen-containing gas air in the body by oral or nasal suction under natural breathing, and a hydrogen suction beauty method thereof.
- a high-concentration hydrogen suction device suitable for is used for a hydrogen suction beauty method capable of promoting improvement of skin condition by ingesting high-concentration hydrogen-containing gas air in the body by oral or nasal suction under natural breathing.
- Hydrogen administration methods to the human body include intravenous administration, oral administration of an aqueous solution, gas inhalation (nasal suction), and a wide range of methods for taking into the body.
- Non-Patent Document 1 Non-Patent Document 1 and the like.
- Patent Document 1 The empirical result that a remarkable effect on physical function is observed (Patent Document 1), and the empirical result that improvement of living function and prevention / improvement of cognitive function of a person suspected of having mild cognitive impairment (MCI) are observed.
- MCI mild cognitive impairment
- the present invention promotes improvement of skin condition by ingesting high-concentration hydrogen-containing gas air into the body by oral or nasal suction under natural respiration on a regular basis for a predetermined time or longer for a predetermined period or longer. It is an object of the present invention to provide a hydrogen suction beauty method capable of producing a high-concentration hydrogen suction device having an appropriate configuration for use in the hydrogen suction beauty method.
- the first invention promotes non-therapeutic improvement of skin condition by routinely orally or nasally inhaling a high-concentration hydrogen-containing gas generated from a hydrogen generating means.
- a hydrogen generating means Provide hydrogen suction beauty method.
- the predetermined time per hydrogen suction which is a single time of hydrogen suction, means a suction time to which a transient miotic reaction is generally observed.
- this hydrogen suction beauty method can typically promote improvement of skin condition by reducing redness and reducing the number of red spots and brown spots. Specifically, among the skin conditions, red stains and brown stains were clearly improved by suction of high-concentration hydrogen-containing gas (see FIGS. 9 and 10).
- this hydrogen suction beauty method can promote improvement of skin condition by increasing the return rate and viscoelasticity of the skin.
- Uf R2
- R7 skin viscoelasticity
- the return elastic modulus obtained by analyzing the displacement of the skin that deforms with a constant suction pressure and time.
- oral suction or nasal suction of hydrogen-containing gas should be performed for 5 minutes or more at intervals of about 15 minutes or more, 5 times or more every day, and continued for about 2 weeks or more. Is preferable.
- the hydrogen-containing gas to be orally or nasally aspirated preferably contains 1 to 2% of hydrogen.
- the second invention is a high-concentration hydrogen suction device used in the hydrogen suction beauty method.
- a hydrogen generating means that generates and releases hydrogen
- a hydrogen transporting means for guiding a high-concentration hydrogen-containing gas mixed with hydrogen released from the hydrogen generating means to the nose and mouth of the human body. It has an attachment for oral suction or nasal suction of a high-concentration hydrogen-containing gas from the hydrogen transport means.
- the second high-concentration hydrogen suction device of the present invention is for orally or nasally sucking high-concentration hydrogen gas-containing air as a special product used for improving the skin condition.
- high-concentration hydrogen-containing air when high-concentration hydrogen-containing air is regularly ingested into the body by oral or nasal suction under natural respiration, improvement of skin condition can be promoted, and this improvement can be appropriately achieved.
- a dedicated device for obtaining each characteristic configuration is adopted in this high-concentration hydrogen suction device.
- this high-concentration hydrogen suction device there is a hydrogen generation means for generating hydrogen and mixing the generated hydrogen with environmental air, and it is possible to generate a hydrogen-containing gas having an appropriate concentration for suction.
- the generated hydrogen-containing gas having an appropriate concentration is transported to the nose and mouth by the hydrogen transporting means, and can be introduced into the nose and mouth from an attachment that can be connected to the nose and mouth. Therefore, it is possible to promote the improvement of the skin condition as in the demonstration example described later.
- a specific example of this high-concentration hydrogen suction device is a portable hydrogen suction assembly including the hydrogen generating means, the hydrogen transporting means, and the attachment.
- the hydrogen generating means has an electrolytic cell that generates hydrogen by energizing an anode and a cathode that are separated from each other in the electrolyzed water and electrolyzing the electrolyzed water.
- the hydrogen transporting means and the attachment are integrally coupled mixing portions that guide a high-concentration hydrogen-containing gas, which is a mixture of hydrogen generated in the electrolytic cell and environmental air by negative pressure by oral suction or nasal suction, to the nasal opening. Is configured as.
- This high-concentration hydrogen suction device is portable and adopts an electrolysis type that can reliably suck the desired amount of hydrogen by energizing as a hydrogen generation method.
- it is necessary to regularly inhale high-concentration hydrogen-containing air, for example, by performing it 5 times or more every day for a predetermined time at intervals of about 15 minutes or more and continuing for about 2 weeks or more. Since it can be easily used in any place, it is essential to have portability, and even for such a request, a high-concentration hydrogen suction device having this configuration is preferable, and the demonstration described later that actually has an advantageous effect.
- the device having the same configuration is used.
- a hydrogen transfer means that mixes hydrogen and environmental air for adjusting the concentration of hydrogen and an attachment that introduces the mixed air into the nose and mouth are integrated into a negative pressure by normal suction. It is advantageous because a mixing portion that can be adjusted to an appropriate concentration is provided.
- this high-concentration hydrogen suction device is Orally or while holding the battery, a control substrate that controls power supply from the battery, and a pair of positive and negative electrodes that energize or shield the anode and cathode by the control substrate. Equipped with a main body cover member, which can be sucked through the nose,
- the electrolytic cell is a transparent or translucent body that is attached to the main body cover member, has the pair of positive and negative electrodes inserted therein, and can store water.
- the mixing portion is detachably attached to the upper part of the electrolytic cell, and is a flow path that fluidly connects the nozzle portion that guides hydrogen-containing gas air into the nose and the nozzle portion from the electrolytic cell to the nozzle portion and takes in environmental air. And are integrally configured with It is preferable that the control board controls the power supply and stop of the battery to the positive and negative electrodes by operating one operating means arranged on the side of the main body cover member.
- This high-concentration hydrogen suction device adopts a configuration that can be easily operated by a hand gripped at the time of hydrogen suction with at least one operation means so that any user can easily use it. ing. Furthermore, in the case of electrolysis type hydrogen generation, bubbles of hydrogen and oxygen are generated in the electrolytic cell, and if the electrolytic cell is made transparent or translucent, the cognitive function is lowered and the ability to continue one work is lowered. Even a user who is doing so can understand the state of foam generation, and can easily recognize that he / she is sucking good gas. This is also advantageous in that it is easy for caregivers to understand.
- oral or nasal suction is routinely performed under natural breathing, such as sucking high-concentration hydrogen-containing gas air several times every day as in the hydrogen suction beauty method. By doing so, improvement of skin condition can be promoted.
- the second high-concentration hydrogen suction device of the present invention is an appropriate device used in the first hydrogen suction beauty method of the present invention, and generates a hydrogen-containing gas having an appropriate concentration for suction in order to promote improvement of the skin condition. It can be transported to the nose and mouth and introduced into the nose and mouth.
- FIG. 1 It is a block diagram which shows typically the embodiment of the high-concentration hydrogen suction apparatus of this invention. It is a front view, a left-right side view, and a plan view which show embodiment of the embodiment of the high-concentration hydrogen suction apparatus of this invention.
- a schematic diagram showing the state of electrolysis in the electrolytic cell of the high-concentration hydrogen suction device of the present invention is shown. It is a schematic description of the specific configuration of the electrodes.
- It is a figure which shows the change of the miosis rate by hydrogen suction time.
- the hydrogen suction beauty method (hereinafter, also simply referred to as “the hydrogen suction beauty method") that promotes non-therapeutic improvement of skin condition of the present invention and its proof result will be described below.
- the mixed gas is theoretically up to 0.24% (hydrogen: hydrogen) during exhalation. : 0.18%, oxygen: 0.06%) It was calculated to be contained.
- the hydrogen gas to be inhaled was adjusted for each subject each time, and the high-concentration hydrogen suction device once used was not reused.
- the pupillary light reflex was measured when suction was performed for 1 minute, 3 minutes, 5 minutes, 7 minutes, and 9 minutes. As a result, the pupillary light reflex reduction rate due to hydrogen suction increased significantly in a time-dependent manner (Fig. 6).
- the miosis rate increased significantly after 3 minutes of hydrogen suction, and the effect was stabilized after 7 minutes of suction, and the effect was stable after 7 minutes of suction. It was clarified that the effect was stabilized by suction after the conversion. From this, it takes 5 minutes in the subsequent tests. We decided to investigate the physiological reaction when hydrogen was aspirated.
- the subjects were 17 healthy women aged 25 to 40 years. Targeted. The selection criteria were good health and no smoking. The subjects were allowed to sit in a sitting position for 30 minutes after entering a test room set at room temperature of 24 ° C. and relative humidity of 50% to acclimatize to the experimental environment. After acclimation, physiological measurements were performed. As a physiological measurement, skin temperature measurement was performed. This measurement was performed under natural respiration (control presentation) and hydrogen inhalation for 5 minutes (standard presentation), and the measurement results were analyzed. Then, by comparing and examining the measured values, the physiological effect of inhaling hydrogen gas was verified.
- the central part of the forehead of the control is H1
- the central part of the finger pad is F1
- the central part of the forehead of the sample is H2
- the central part of the finger pad is F2
- the skin temperature increased by the test product ⁇ T2 (F2-F1)-(H2-H1) ).
- the skin temperature of the forehead was hardly changed by hydrogen suction, but the skin temperature of the index finger was found to be significantly increased by an average of 3.6 ° C. ( p ⁇ .001). In some subjects, the skin temperature of the index finger increased by 6 ° C or more due to hydrogen suction.
- the difference between the control and the blank and the difference between the test product and the blank were compared using the t-test.
- the significance level of the t-test was set to less than 5%.
- the subjects were 22 healthy women aged 25 to 40 years living in and around Tokyo.
- Subject selection conditions include good health and non-smoking, deterioration of skin properties due to stress and fatigue, for example, lack of firmness, awareness of sagging, and dullness, and a simple stress level checklist 30.
- the stress level was in a mild stress state corresponding to 6 to 10.
- each subject was asked to perform according to the skin care method that they routinely perform, and no additions or changes to cosmetics or supplements were requested.
- the test period was a total of 4 weeks, in which the high-concentration hydrogen suction device 1 was used continuously for 2 weeks and was not used for 2 weeks, and a comparative evaluation was carried out between the unused period and the hydrogen use period. That is, 11 subjects were divided into two groups, A group and B group, respectively. Group A sets the first 2 weeks as the hydrogen use period and the next 2 weeks as the unused period, and conversely, group B sets the first 2 weeks as the unused period and the next 2 weeks as the hydrogen trial use period. did.
- Skin physiologic measurements were performed at the start of the study (zero week), 2nd and 4th week (although omitted here, in practice, the 30 stress checklist questionnaires and multifaceted emotion scale questionnaires were used. Also answered, and examined the effect on stress, which is a factor in increasing skin metabolism). Measurement items include stratum corneum water content, percutaneous water evaporation, skin viscoelasticity, skin color, facial image analysis taken with a digital imaging device (VSIA), and skin blood flow measurement with a non-contact blood flow meter. Carried out. In the 2nd and 4th weeks of the test, the above psychological questionnaire was answered and the skin physiology measurement was performed, and the psychological and physiological effects of hydrogen suction were verified by comparing and examining each measured value.
- VSIA digital imaging device
- the high concentration hydrogen suction device 1 was used as in the single test described above.
- the subjects were allowed to perform suction for 5 minutes each time in the morning and evening and about 1 hour after each meal, as in the single test, with the goal of using 5 times a day.
- Skin physiological measurements include stratum corneum water content, percutaneous water evaporation, skin viscoelasticity, skin color, facial image analysis taken with a digital imaging device (VISIA), and skin blood with a non-contact blood flow meter. Blood flow measurement was performed. These skin physiology measurements were performed at the zero week, the second week, and the fourth week, and the skin physiology effect of hydrogen inhalation was verified by comparing and examining each measured value. In the measurements listed below, after washing the face, the cheek region, which is the measurement region, was measured after 15 minutes of acclimation in a constant temperature and humidity chamber (temperature 20 ⁇ 2 ° C., humidity 50 ⁇ 10%). The contents of each measurement are described below.
- ⁇ Measurement of keratin water content and percutaneous water evaporation (TEWL) (continuous evaluation test) The degree of skin moisturization was determined by measuring the water content of the stratum corneum. The water content of the stratum corneum at the measurement site was measured using SKICON-200EX (manufactured by Yayoi Co., Ltd.). The measurement was performed 5 times on the cheek, and the average value of 3 measurements excluding the highest value and the lowest value was taken as the measured value. Measured at zero, second and fourth weeks. In addition, the degree of skin barrier ability was determined by measuring the amount of transepidermal water loss.
- the TEWL at the measurement site was measured using a cyclone moisture evaporation meter AS-CT1 (manufactured by Asahi Biomed Co., Ltd.). The measurement was performed 5 times on the cheek, and the average value of 3 measurements excluding the highest value and the lowest value was taken as the measured value. Measured at zero, second and fourth weeks.
- Uf indicates the maximum height of the skin drawn into the probe during negative pressure
- Ua indicates the height returned from the skin height at maximum extension after the negative pressure was released.
- Ua / Uf indicates the return rate of the skin.
- Ue immediate extension
- Uv delayed distortion
- Ue mainly reflects the elasticity of the skin
- Uv mainly reflects the viscosity of the skin
- Uv / Ue is said to represent the degree of viscosity that contributes to changes in the skin.
- Ur (immediate retraction) / Uf is said to represent biological elasticity. It is suggested that as the skin elasticity increases, the R2 value increases, the R6 value decreases, and the R7 value increases.
- the difference average value of the instantaneous skin return rate R7 (Ur / Uf) value was 0.01 during the hydrogen continuous use period, whereas it was ⁇ 0. It was 01.
- the p value was 0.028, which was statistically significant, and the effect size was 0.74, showing a moderate effect.
- the difference average value of the skin return rate R2 value was 0.01 during the hydrogen use period, whereas it was ⁇ 0.02 during the hydrogen non-use period.
- the p value was 0.076, which was not statistically significant, but the effect size was 0.59, showing a moderate effect, and it was judged that there was a significant tendency due to continuous hydrogen use. It is considered that the continuous use of hydrogen suction indicates that the instantaneous recovery power of the skin and the increase of the skin return rate are observed, which suggests the recovery of the firmness of the skin and the improvement of the sagging.
- the skin color of the measurement site was analyzed by dividing it into three factors (L *, a *, b *). That is, the analysis was divided into the degree of black and white of the skin; L *, the degree of redness; a *, and the degree of yellowness; b *.
- L * the degree of black and white of the skin
- L * the degree of redness
- a * the degree of yellowness
- b * the difference average value of each factor was ( ⁇ L *; +0.30, ⁇ a *; ⁇ 0.23, ⁇ b *; ⁇ 0.20), but the non-continuous use period.
- VISIA®-Analysis of skin properties by Evolution continuous evaluation test (Fig. 9 and Fig. 10)
- Skin images of the measurement site were taken using VISIA (registered trademark) Evolution (Canfield Imaging Systems), and each skin property was analyzed.
- the software attached to the device was used to measure the scores of pores, age spots, wrinkles, texture, redness, porphyrin, and brown spots. Measured at zero, second and fourth weeks.
- pores, spots, wrinkles, texture, redness, porphyrin, and brown spots were analyzed as skin properties by VISIA (registered trademark).
- VISIA registered trademark
- the measured values of pores, wrinkles, and texture showed no difference between the hydrogen continuous use period and the non-continuous use period (results are not shown).
- the number of porphyrins tended to decrease during the hydrogen continuous use period (difference average value; -103.05) as compared with the non-continuous use period (difference average value; +190.68), but it was not significant. It was.
- VISIA registered trademark
- VISIA Evolution operation manual VISIA Evolution operation manual
- the difference average value of the number of stains was -1.8 during the hydrogen continuous use period, while it was 4.7 during the hydrogen unused period.
- the p value was 0.0012, which was statistically significant, and the effect size was 0.86, showing a large effect.
- the average difference in the number of tea stains during the hydrogen continuous use period was -13.7, whereas it was 3.8 during the hydrogen non-use period.
- the p value was 0.046, which was statistically significant, and the effect size was 0.68, showing a moderate effect.
- the difference value ( ⁇ value) is calculated from the measured values before and after the hydrogen use period and the unused period of the subjects in each group, and the difference value of the subjects in each hydrogen use period group or the unused period group.
- the value calculated by the addition average of was taken as the difference average value of the hydrogen use period group and the difference average value of the unused period group.
- the formula for calculating the difference average value is as follows.
- Average difference of hydrogen usage period group A ⁇ (2W-0W) + B ⁇ (4W-2W)
- Average difference of unused period group A ⁇ (4W-2W) + B ⁇ (2W-0W)
- the p value was calculated as the probability of whether there was a statistically significant difference in the difference average value of each group, and the effect size was calculated as an index showing the magnitude of the difference in the difference average value, and a comparison was performed between the two groups.
- FIGS. 1 to 5 a representative embodiment of the second invention as a hydrogen generator recommended for performing a biological improvement method for improving the living function and / or cognitive function of the first invention is shown in FIGS. This will be described in detail below with reference to FIG. However, it goes without saying that the high-concentration hydrogen suction device 100 is not limited to the one shown in FIGS. 1 to 5.
- FIG. 1 is a block diagram schematically showing the embodiment
- FIG. 2 is a six-view view of a typical example of the embodiment of FIG. 1
- FIG. 4 is a high-concentration hydrogen suction device for electrolysis in an electrolytic cell.
- a schematic diagram showing the situation is shown.
- FIG. 5 illustrates a specific configuration of the electrode.
- the high-concentration hydrogen suction device 1 of the present invention is not limited to the one shown in the drawing, and also includes a device in which the contents of the illustration and description are modified within the scope of common sense.
- the high-concentration hydrogen suction device includes a battery 4, an LED 16, a control means 17, an electrolytic cell 3, an fragrance or supplement cartridge (hereinafter, also simply referred to as “cartridge”) 5, a mixing unit 2, and a nozzle. It is generally composed of part 8.
- the battery 4 is rechargeable, and a pair of positive and negative electrodes 6 and 7 are arranged in the electrolytic cell 3.
- the positive and negative electrodes 6 and 7 are supplied with electric power from the battery 4 via the control means 33, and the LED 16 is connected to the battery 4.
- the control means 17 includes an electrode control circuit 17a, a heater control circuit 17b, an LED control circuit 17c, and a power supply means (power supply circuit) 17d.
- a pressure sensor switch 19 is provided at the bottom of the receiving portion of the cartridge 5, and when the lower end of the cartridge presses the pressure sensor switch 19, the power of the battery 4 is supplied to the cartridge 5 by the power supply means 17d of the control board 17. ..
- the electrode control circuit 17d controls energization / disconnection of the pair of electrodes 6 and 7 in the electrolytic tank 3, and the power supply means 17d supplies the power from the battery 4.
- the amount of electric power generated is variable to supply electric power to the electrodes 6 and 7.
- Hydrogen generated from the negative electrode 7 flows into the lid member 2 via the attachment 14 on the upper part of the electrolytic cell 3. Further, the oxygen generated from the positive electrode 6 is vented.
- the cartridge 5 when the pressure sensor switch 19 is turned on, the cartridge 5 is supplied with power from the battery 4 to the heater in the cartridge 5 by the power supply means 17d, and is attached to the internal steam chamber (not shown).
- -Heat a cartridge that has adsorbed aroma components or supplements that have a beauty-promoting effect.
- the supplement-containing vapor generated in the cartridge 5 is released into the mouth by sucking the nozzle portion 8.
- hydrogen released from the attachment 4 flows in the lid member 2 and passes through the gap between the periphery of the upper part of the cartridge 5 exposed in the lid member 2 and the inner wall of the nozzle portion 8. Then, it is mixed with the supplement-containing air and guided into the mouth. It is also conceivable to generate supplement-containing steam by heating this.
- FIG. 2 shows a specific configuration example of the high-concentration hydrogen suction device 1.
- FIG. 2A shows a front view of the high-concentration hydrogen suction device 1
- FIG. 2B shows a top view
- FIG. 2C shows a left side view
- FIG. 2D shows a right side view.
- (A) is a state in which the lid member 2 of the high-concentration hydrogen suction device 1 is removed, and a tubular cartridge receiving portion (a) extending downward from the opening on the upper right side with the lid member 2 removed (opened).
- a receptor” 20 The cartridge 5 is inserted into the receiving portion 20.
- Cartridge 5 is a substitute part for the main body of a general-purpose tubular heated electronic cigarette.
- the cartridge 5 When the cartridge 5 sucks in the upper part and a negative pressure is generated, it is turned on, and when the main power supply described later is turned on, power is supplied from the rechargeable battery in the battery 30, the steam chamber is heated by the heater, and the supplement Alternatively, the aromatic component is released. Further, when the cartridge 5 sucks the upper end to apply a negative pressure and at the same time the electric power from the battery 30 is supplied, the LED 30b at the lower end of the battery 30 lights up.
- the cartridge 5 is inserted into the receiving portion 20 of the high-concentration hydrogen suction device 1.
- a pressure sensor switch 19 is arranged at the bottom of the receiving portion 20, and a convex screw 19a having the same shape as the attachment 30a is provided at the upper end thereof as an electric terminal.
- the pressure sensor switch 19 When the pressure sensor switch 19 is pressed, electric power from the rechargeable battery (lithium battery) 4 is supplied to the convex screw 19a, and the supplement-containing vapor can be sucked.
- the right side portion (see FIG. 2C) of the high-concentration hydrogen suction device 1 is provided with a cartridge ON / OFF switch 16c, an LED indicator 16b, and a main power supply / hydrogen button 16a.
- the cartridge ON / OFF switch 16c is an ON / OFF switch of the pressure sensor switch 19, and when it is ON, the rechargeable battery 4 to the cartridge 5 is pressed when the attachment 5a at the lower end of the cartridge 5 is connected to the convex screw 19. When the power is off, the rechargeable battery 4 does not supply power even if the pressure sensor switch 19 is pressed.
- main power supply / hydrogen button 16a is a button-type power supply switch between the positive cathodes 6 and 7 in the electrolytic cell 3 described later and the main power supply, and the main power supply is turned on / off and the positive cathode 6 is depending on how / time it is pressed. It also serves as power supply ON / OFF to 7.
- pressing and holding the main power / hydrogen button 16a for 3 seconds energizes the positive cathodes 6 and 7 for 5 minutes to generate hydrogen, and pressing 3 times for 2 seconds turns off the main power.
- the main power supply is automatically turned off after 20 minutes even if the operation of turning it off is not performed.
- the main power supply / hydrogen button 16a is lit while hydrogen is being generated, and has a function of displaying the remaining amount of the rechargeable battery 4 according to the lighting color. In this example, when the remaining battery level is 20 to 80%, it lights up in blue, and when the remaining battery level is 80 to 100%, it lights up in white.
- the LED indicator 16b is provided with two upper and lower LEDs, the upper LED lights up when power is supplied to the positive cathodes 6 and 7 in the electrolytic cell 3, and the lower LED has a pressure sensor switch 19. It lights up when it is turned on and the cartridge 5 is energized. The lighting of the electronic cigarette ON / OFF switch 16c, the LED indicator 16b, and the main power supply / hydrogen button 16 is controlled by the internal indicator board 26.
- the electric power from the rechargeable battery 4 is also supplied to the pair of positive and negative electrodes 6 and 7 by the control board 17.
- the pair of positive and negative electrodes 6 and 7 may be arranged horizontally on the inner bottom portion of the electrolytic cell 5, or may be arranged vertically as shown in FIG.
- the rechargeable battery 4 can receive power from the USB terminal 16d on the side of the high-concentration hydrogen suction device 1 and is charged (see FIG. 2D).
- the electrolytic cell 3 in which water is stored is generally a hollow tubular member 3b extending in the longitudinal direction, a bottom member 3a that closes the bottom of the tubular member 3b, and a lid member 3c that closes the upper portion of the tubular member 3a. It is composed of 3d (3c and 3d may be integrally molded).
- oxygen (O 2 ) is generated in the vicinity of the positive electrode 6
- hydrogen (H 2 ) is generated in the vicinity of the negative electrode 7.
- the electrolytic cell 3 is provided with a partition member 8 extending downward from the upper end thereof and dividing the electrolytic cell 3 into a hydrogen gas generating layer 12 on the negative electrode 7 side and an oxygen gas generating layer 13 on the positive electrode 6 side. There is.
- the lower end of the partition member 8 is provided with a gap 3 g from the upper surface of the bottom member 3a so as to fluidly connect the hydrogen gas generation layer 12 and the oxygen gas generation layer 13.
- the partition member 8 inhibits the mixing of oxygen and hydrogen in the electrolytic cell 3 while the oxygen and hydrogen are moving upward.
- the partition member 8 in the lower portion of the gap 3g provided in the lower part of the partition plate 8 is not partitioned by the partition member 8, the free movement of water (H 2 O), i.e. oxygen and ions required in the generation of hydrogen ( " OH - "and” it is possible to move the H + ").
- the partition member 50 achieves inhibition of mixing of oxygen and hydrogen while performing electrolysis.
- the lid member 3c closes the upper part of the oxygen gas generating layer 13, but an opening 3e is provided between a part of the lid member 3c or the lid member 3c and the partition member 8 or the tubular member 3b.
- the opening 3e is closed by the oxygen permeable membrane 9. Therefore, even if hydrogen leaks from the hydrogen gas generation layer 12 to the oxygen gas generation layer 13 due to the gap 3g or the like, the gas released to the outside by the oxygen permeation film 9 is limited to oxygen.
- the oxygen permeable membrane 9 may be arranged at the electrolytic solution injection port / hydrogen generation port 14 (described later) shown in FIG. 2, but is preferably arranged in a hole dedicated to the electrolytic cell 3.
- the upper part of the hydrogen gas generation layer 12 is closed by the lid member 3d, but an opening 3f is provided in the upper part of the tubular member 3b on the hydrogen gas generation layer 12 side.
- the opening 3f is connected to the bypass flow path 3h. Therefore, the hydrogen in the hydrogen gas generation layer 12 generated by the negative electrode 7 flows into the bypass flow path 3h and flows upward.
- the electrolytic solution injection port / hydrogen generation port 14 is the opening 3f, and the gap between the upper portion of the electrolytic cell 3 and the lid member 2 is the bypass flow.
- the electrolytic solution injection port / hydrogen generation port 14 has a function as an inlet for injecting the electrolytic solution or water into the electrolytic cell 5 and a function as an opening 3f for discharging hydrogen in the electrolytic cell 5 to the outside. And have.
- It has a shape that can be detachably screwed to the electrolyte injection port / hydrogen generation port 14, and the electrolyte or water is injected from the opening 3f in a state where the screws are loosened and removed. Further, when the screws are fastened, the leakage of the electrolytic solution or the like in the electrolytic cell 5 is suppressed, but hydrogen is hydrogenated from a gas permeable membrane (not shown) that closes the holes or the like separately provided in the electrolytic solution injection port / hydrogen generation port 14. Is released.
- the released hydrogen flows in the lid member 2 in the left direction (cartridge 5 direction) as shown by the dotted line in FIG.
- the lid member 2 has a tubular nozzle portion 2a that protrudes with an opening at the upper end at the left end, covers the upper end of the cartridge 5 and the electrolytic solution injection port / hydrogen generation port 14, and is arranged on the upper part of the electrolytic cell 5. It is a removable integral member to be installed.
- the nozzle portion 2a is in a state in which the upper end of the cartridge 5 is nested in the opening with a gap 26 around it.
- the high-concentration hydrogen suction device 1 is provided with a cover 1a that can be opened and closed, and the example of FIG. 2 shows a state in which the cover 1a is open.
- An opening (electrolyte solution confirmation window) 3i for observing the amount of liquid in the electrolytic cell 5 is provided on the side of the high-concentration hydrogen suction device 1 so that the amount of liquid in the electrolytic cell 3 can be visually recognized.
- FIG. 5 shows an external photographic diagram of an embodiment of the high-concentration hydrogen suction device 1 of the present invention.
- FIG. 5A is a view of the high-concentration hydrogen suction device 1 viewed diagonally from the front left
- FIG. 5B is a view of the high-concentration hydrogen suction device 1 viewed diagonally from the front right
- FIG. 5C is a view of (a). ) Is shown in a state in which the cover 1a of the high-concentration hydrogen suction device 1 viewed from the front obliquely to the left is opened.
- high-concentration hydrogen-containing gas air is continuously applied on a daily basis.
- oral or nasal suction it is possible to promote improvement of skin condition, provide a new method for improving skin condition to the beauty industry, and contribute to the expansion of the beauty market by providing appropriate equipment used for this. ..
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Abstract
Description
水素を発生させ、放出する水素発生手段と、
該水素発生手段から放出される水素と環境空気と混合した高濃度の水素含有ガスを人体の鼻口まで案内する水素搬送手段と、
該水素搬送手段から高濃度の水素含有ガスを経口吸引又は経鼻吸引するアタッチメントと、を有する。
前記水素発生手段は、互いに離間する陽極及び陰極を電解水内で通電して電解水を電気分解することにより水素を発生させる電解槽を有し、
前記水素搬送手段と前記アタッチメントは、経口吸引又は経鼻吸引による負圧で前記電解槽で発生した水素と環境空気とを混合した高濃度の水素含有ガスを鼻口まで案内する一体結合した混合部として構成される。
電池と、該電池から電力供給を制御する制御基板と、該制御基板により前記陽極及び陰極への通電又は遮電がされる一対の陽陰電極と、を有して片手で把持しながら経口又は経鼻吸引することが可能な本体カバー部材、を備え、
前記電解槽は、前記本体カバー部材に取り付けられ、前記一対の陽陰電極が内部に挿入され、貯水可能な透明体又は半透明体であり、、
前記混合部は、前記電解槽の上部で脱着可能に装着され、鼻口内に水素含有ガス空気を案内するノズル部と前記電解槽から該ノズル部まで流体的に接続するとともに環境空気を取り込む流路とを有して一体に構成され、
前記制御基板は前記本体カバー部材の側部に配設される1つの操作手段の操作で前記電池から陽陰電極への電力供給及び停止を制御する、ことが好ましい。
上述する適正な水素ガス吸引時間を評価した瞳孔対光反応測定による瞳孔対光反応縮率(図6)について、その計測方法としてとしては、ゴーグル様の電子瞳孔計(イリスコーダデュアル、浜松ホトニクス製)を顔面に装着し、遮光した状態で5分間暗順応させた。瞳孔の散瞳が安定したのを確認後、0.1秒の光刺激を実施した。瞳孔対光反射により瞳孔が一過性の知縮瞳反応が観察された。コントロール (空気)5分間,およびサンプル(水素吸引)5分間吸引における光刺激前の初期状態瞳孔直径D1,光刺激後の瞳孔直径D2の変化量D1-D2とし,縮瞳する割合である縮瞳率(CR)を(D1-D2)/D1で求めた。なお、縮瞳後に瞳孔は速やかに散瞳するが、その際の散瞳速度(vd)は、交感神経活動の状態を反映している。瞳孔径の変化解析により、自律神経活動における交感神経活動及び副交感神経活動の優位性を判断した。図6からは、水素吸引後、特に5分間以上吸引後では、縮瞳率CRが吸入前に比べて有意に上昇したことがわかる(p<.001)。一方、散瞳速度(vd)は、ほとんど変化していなかった(図示せず)。
末梢血管網の多くが交感神経活動支配を受けていることから末梢部位の血流の変化あるいは、末梢部位の皮膚温の変化を計測することで交感神経活動の優劣性を評価できることから本検証では、皮膚温の変化をその指標とした。即ち、温度センサー(グラム社製)(グラム社製)(グラム社製)により末梢部位の皮膚温(額中央と人差し指第一節腹)の変化を計測した。コントロールの額中央部をH1、指腹中央部をF1、サンプルの額中央部をH2,指腹中央部をF2とし、試験品で上昇した皮膚温ΔT2=(F2-F1)-(H2-H1)で求めた。たとえば、水素吸引により有意に皮膚温の上昇が観察されば、交感神経活動が水素吸引により劣位なったもと推察される。試験の結果、図7に示すように水素吸引により額の皮膚温は、ほとんど変化が認められなかったが、人差指の皮膚温は、平均3.6℃、有意に上昇することが認められた(p<.001)。被験者の中には、水素吸引により人差し指の皮膚温が6℃以上も上昇するものも存在した。
角層水分量を測定することで肌の潤いの程度を判定した。測定部位の角層水分量は、SKICON-200EX (株式会社ヤヨイ製) を用いて測定した。測定は、頬部において5回行い、最も高値と低値を省いた3回の測定の平均値を測定値とした。ゼロ週、2週目および4週目に測定した。また、経皮水分蒸散量を測定することで肌のバリア能の程度を判定した。測定部位のTEWLは、サイクロン水分蒸散計AS-CT1 (有限会社アサヒバイオメッド製) を用いて測定した。測定は、頬部において5回行い、最も高値と低値を省いた3回の測定の平均値を測定値とした。ゼロ週、2週目および4週目に測定した。
皮膚の粘弾性を測定することで、皮膚のハリ、たるみの程度を判定した。測定部位の皮膚粘弾性は、キュートメーターMPA580 (C+K electronic GmbH.) を用いて測定した。なお、角層の乾燥状態が測定値に影響することから、測定の約15分前に測定部位に市販のクリーム製剤を少量塗布し、角層の乾湿の影響を排除した。測定は頬部において5回行い、もっとも高値と低値を省いた3回の測定の平均値を測定値とした。ゼロ週、2週目および4週目に測定した。
測定部位の皮膚色は、ハンディー型色差計NR555 (日本電色工業株式会社製) を用いて測定した。測定は頬部において7回行い、最も高値と低値を省いた5回の測定の平均値を測定値とした。ゼロ週、2週目および4週目に測定した。
測定部位の皮膚画像をVISIA(登録商標) Evolution (Canfield Imaging Systems) を用いて撮影し、各皮膚性状を解析した。機器付属のソフトウェアにより、毛穴、シミ、シワ、キメ、赤み、ポルフィリン、茶ジミのスコアをそれぞれ計測した。ゼロ週、2週目および4週目に測定した。
測定部位の皮膚血流量を2次元レーザー血流画像装置(OMEGAZONE OZ-2 , オメガウェーブ株式会社製) を用いて測定した。測定部位は全顔を対象とした。1分安静後、測定は30秒間行い、その間の平均値を測定値として用いた。ゼロ週、2週目および4週目に測定した。
差分平均値の計算式は以下の通りである。
水素使用期間群の差分平均値:AΔ(2W-0W) + BΔ(4W-2W)
未使用期間群の差分平均値:AΔ(4W-2W) + BΔ(2W-0W)
各群の差分平均値に統計的有意な差があるかの確率としてp 値を、差分平均値の差の大きさを表す指標として効果量を算出し、2群間比較を行った。
次に、第1の本発明の生活機能及び/又は認知機能を改善する生体改善方法を行うために推奨される水素発生装置としての第2の本発明の代表的な実施形態を、図1~図5を参照しながら以下、詳細に説明する。ただし、本高濃度水素吸引装置100は、図1~図5に図示されるものに限られないことはいうまでもない。
2 蓋部材
3 電解槽
4 充電池
5 カートリッジ
6 陽電極
7 陰電極
8 ノズル部
17 制御手段
18 操作ボタン(操作手段)
19 圧力センサスイッチ
19a 凸ネジ
20 カートリッジ用受容部
25 サプリメントを吸着させたカートリッジ
Claims (8)
- 水素発生手段から発生する高濃度の水素含有ガスを1回当たり所定時間以上、所定期間継続して、常用的に経口吸引又は経鼻吸引することにより非治療的に肌状態の改善を促す水素吸引美容法。
- 赤みの低減、赤シミ及び茶ジミの個数の減少により肌状態の改善を促す、請求項1に記載の水素吸引美容法。
- 皮膚の戻り率及び粘弾性が増加することによる肌状態の改善を促す請求項1に記載の水素吸引美容法。
- 水素含有ガスの経口吸引又は経鼻吸引は、略15分以上間隔をあけて1回あたり5分以上、毎日5回以上行い、略2週間以上継続する、請求項1~3のいずれか1項に記載の水素吸引美容法。
- 経口吸引又は経鼻吸引する水素含有ガスは、水素が1~2%含有している請求項1~4のいずれか1項に記載の水素吸引美容方法。
- 請求項1~5のいずれか1項に記載の水素吸引美容法に用いる高濃度水素吸引装置であって、
水素を発生させ、放出する水素発生手段と、
該水素発生手段から放出される水素と環境空気と混合した高濃度の水素含有ガスを人体の鼻口まで案内する水素搬送手段と、
該水素搬送手段から高濃度の水素含有ガスを経口吸引又は経鼻吸引するアタッチメントと、を有する高濃度水素吸引装置。 - 前記水素発生手段と前記水素搬送手段と前記アタッチメントとを備える携帯型の水素吸引組立体であり、
前記水素発生手段は、互いに離間する陽極及び陰極を電解水内で通電して電解水を電気分解することにより水素を発生させる電解槽を有し、
前記水素搬送手段と前記アタッチメントは、経口吸引又は経鼻吸引による負圧で前記電解槽で発生した水素と環境空気とを混合した高濃度の水素含有ガスを鼻口まで案内する一体結合した混合部として構成される、請求項6に記載の高濃度水素吸引装置。 - 電池と、該電池から電力供給を制御する制御基板と、該制御基板により前記陽極及び陰極への通電又は遮電がされる一対の陽陰電極と、を有して片手で把持しながら経口又は経鼻吸引することが可能な本体カバー部材、を備え、
前記電解槽は、前記本体カバー部材に取り付けられ、前記一対の陽陰電極が内部に挿入され、貯水可能な透明体又は半透明体であり、、
前記混合部は、前記電解槽の上部で脱着可能に装着され、鼻口内に水素含有ガス空気を案内するノズル部と前記電解槽から該ノズル部まで流体的に接続するとともに環境空気を取り込む流路とを有して一体に構成され、
前記制御基板は前記本体カバー部材の側部に配設される1つの操作手段の操作で前記電池から陽陰電極への電力供給及び停止を制御する、請求項8に記載の高濃度水素吸引装置。
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