JP7403771B2 - Ozone bubbling device for improving traumatic inflammation and method for improving traumatic inflammation - Google Patents

Description

The present invention relates to an ozone bubbling device for improving traumatic inflammation and a method for improving traumatic inflammation, which can alleviate traumatic inflammation such as capsulitis, which is known as inflammation of the legs of horses.

For example, capsulitis, which is a traumatic inflammation caused by microorganisms, is an inflammation of the distal sesamoid bones (radii) that make up the limbs and the surrounding ligament attachments and synovial sacs, and is an inflammation that often occurs in riding horses. be. Treatment for capsulitis is mainly performed by hoofing therapy and administration of anti-inflammatory analgesics.

Methods of treating such cystitis include, for example, treating capsulitis in horses by delivering a liquid polyglycol-based, fully synthetic, biocompatible formulation to a targeted site in the horse's hoof. A method is disclosed in Patent Document 1.

Special table 2016-515140 publication

However, although drugs exhibit anti-inflammatory effects, there are concerns about side effects. Therefore, in view of the side effects of drugs, it is expected to provide a safer means for improving inflammation.

Therefore, the present invention has been made in view of the above problems, and provides an ozone bubbling device for improving traumatic inflammation and a method for improving traumatic inflammation, which is less likely to cause side effects and is capable of alleviating traumatic inflammation. The purpose is to provide

The ozone bubbling device for improving traumatic inflammation of the present invention includes an ozone generating section that generates a gas containing ozone, a bathtub section that is formed to be able to store water, and an ozone bubbling device that applies the ozone to the water stored in the bathtub. an ozone supply section that supplies a gas containing the ozone generated by the generation section, and has a structure that allows an affected area with traumatic inflammation to be immersed in water stored in the bathtub section. There is.

According to the ozone bubbling device for improving traumatic inflammation of the present invention, it is possible to supply gas containing ozone to water stored in a bathtub. As a result, ozone can be contained in the water stored in the bathtub. Then, the user can improve the traumatic inflammation by immersing the affected area in the water stored in the bathtub.

The ozone bubbling device for improving traumatic inflammation of the present invention is preferably used for improving traumatic inflammation caused by microorganisms.

The ozone bubbling device for improving traumatic inflammation of the present invention is preferably used for improving traumatic inflammation caused by ligament damage.

The method for improving traumatic inflammation of the present invention includes the steps of preparing the ozone bubbling device for improving traumatic inflammation, storing water in the bathtub, and applying the ozone to the water stored in the bathtub. The method is characterized by comprising the steps of supplying the gas containing the ozone from the supply section, and immersing the affected area of an animal (excluding humans) suffering from traumatic inflammation in the water of the bathtub section.

In the method for improving traumatic inflammation of the present invention, the traumatic inflammation is preferably traumatic inflammation caused by microorganisms.

In the method for improving traumatic inflammation of the present invention, the traumatic inflammation is preferably traumatic inflammation caused by ligament injury.

In the method for improving traumatic inflammation of the present invention, the animal is preferably a horse, and the affected area is preferably a leg of the horse.

It is a conceptual diagram of an ozone bubbling device for improving traumatic inflammation. FIG. 2 is a block diagram of an ozone generator in FIG. 1. FIG. FIG. 2 is a plan view of the ozone supply section in FIG. 1; 4 is an enlarged plan view of the ozone supply section of FIG. 3. FIG. FIG. 2 is a flow diagram of a method for improving traumatic inflammation. FIG. 2 is a diagram showing how the ozone bubbling device for improving traumatic inflammation is used in Test Example 1.

FIG. 1 is a perspective view of an ozone bubbling device for improving traumatic inflammation (hereinafter also referred to as an ozone bubbling device) 100. As shown in FIG. 1, the ozone bubbling device 100 includes an ozone generating section 10 that generates gas containing ozone, a bathtub section 20 that is formed to be able to store water, and a bathtub section 20 that generates a gas containing ozone. It has an ozone supply section 30 that supplies a gas containing ozone generated by the ozone generation section 10.

The ozone generation unit 10 is a device that generates gas containing ozone and sends the gas to the ozone supply unit 30. The ozone generation unit 10 generates ozone, for example, by applying a predetermined voltage to air.

The bathtub section 20 has a structure that allows an affected area with traumatic inflammation to be immersed in water stored in the bathtub section 20. In this embodiment, the bathtub section 20 is formed into a box shape. The bathtub section 20 only needs to be able to immerse the affected area in the stored water and accommodate the ozone supply section 30, and may be, for example, a water tank, a bathtub, or the like. Further, the bathtub section 20 is not limited to a box shape, but may be a bag shape.

By making the bathtub section 20 bag-shaped, the size of the bathtub section 20 can be easily changed depending on the affected area. For example, if a horse has an affected part on its leg, the bathtub part 20 may be formed to cover the affected part of the horse's leg. By forming the bathtub section 20 in this way, for example, the horse only needs to raise its legs and insert the horse into the bathtub section 20, so treatment work can be performed more easily than when placing the horse in the bathtub section 20 shaped like a water tank. can.

In addition, by changing the size of the bathtub section 20 appropriately according to the affected area, the ozone concentration of the water stored in the bathtub section 20 can be easily adjusted to an appropriate value according to the affected area, and the size can be reduced. Therefore, it is possible to reduce costs.

The ozone supply section 30 is connected to the ozone generation section 10 by a connecting member 40. The ozone supply section 30 supplies air containing ozone sent out from the ozone generation section 10 into the bathtub section 20 .

The connection member 40 is a piping member that connects the ozone generation section 10 and the ozone supply section 30. The connecting member 40 may be any member that serves as a gas passage, and is not particularly limited, but for example, an annular rubber hose may be used.

FIG. 2 shows the configuration of the ozone generation section 10. As shown in FIG. 2, the ozone generation unit 10 has a housing 11. The housing 11 is, for example, formed in a box shape.

The housing 11 houses a pump 12 that takes in air from outside the housing 11 and discharges pressurized air. The pump 12 receives power from an external source and discharges a certain amount of air.

Furthermore, the housing 11 houses an ozone generator 13 that generates ozone from air containing oxygen. The ozone generator 13 is, for example, a silent discharge type device that generates (generates) ozone gas by applying a high voltage to oxygen-containing air and causing it to discharge.

Note that the ozone generator 13 is not limited to a silent discharge type device, and may be, for example, an electrolysis type device or an ultraviolet lamp type device.

The ozone generator 13 is connected to the pump 12 by a connecting member 50. The connecting member 50 is a piping member that connects the ozone generator 13 and the pump 12. The connecting member 50 may be any member that serves as a gas passage, and is not particularly limited, but for example, an annular rubber hose may be used.

Therefore, the ozone generator 10 can mix the ozone generated by the ozone generator 13 and the air sent out from the pump 12 to generate a gas containing ozone.

Further, the ozone generator 13 is connected to a connecting member 40. Therefore, the ozone generation section 10 can send out gas containing ozone to the ozone supply section 30 via the connection member 40.

Ozone generator 13 has a timer (not shown). The ozone generator 13 may generate ozone according to the time counted by a timer. For example, when operating the ozone bubbling device 100 for a predetermined period of time, the operating time may be controlled by a timer.

Note that the adjustment of the ozone concentration in the bathtub section 20 is not limited to control using such a timer. For example, a detector for detecting the ozone concentration is provided in the bathtub section 20, and the ozone concentration is adjusted according to the ozone concentration in the bathtub section 20. The ozone concentration of the air sent out from the section 10 may be adjusted.

The housing 11 includes, for example, a switch (not shown) that turns ON or OFF the operation of the pump 12 and the ozone generator 13, and a power supply unit (not shown) that supplies power to the ozone bubbling device 100. may have been done. Further, the housing 11 may be provided with an adjustment button for adjusting the air volume of the pump 12.

It is preferable to provide a ventilation hole (not shown) through which air from outside the casing 11 can be taken into the inside of the casing 11. It is preferable to provide a filter in the ventilation hole in order to remove impurities such as dust from the air.

FIG. 3 shows a plan view of the ozone supply unit 30. As shown in FIG. 3, the ozone supply section 30 has a connecting section 31 that is formed so as to be connectable to the connecting member 40, and a discharge section 32 that is connected to the connecting section 31 and can discharge gas containing ozone.

The connecting portion 31 is formed of a flexible tubular member such as a rubber hose, for example. The connecting portion 31 has a distal end portion 31 a connectable to the connecting member 40 and a proximal end portion 31 b connectable to the emitting portion 32 .

The discharge section 32 is formed into a rectangular plate shape. The discharge section 32 has a plurality of supply sections 33 on one surface (upper surface) that can supply the gas containing ozone sent out from the connection section 31.

Each of the supply parts 33 is formed into a hollow cylindrical shape. Each of the supply units 33 is arranged at intervals from each other on one surface. In this embodiment, each of the supply units 33 is arranged in 7 rows and 10 columns.

FIG. 4 shows an enlarged plane view of the emitting section 32. As shown in FIG. 4, four through holes 34 are formed in one surface of each of the supply parts 33, extending from one surface to the other surface. Therefore, the internal space of the discharge section 32 communicates with the outside of the discharge section 32 through the four through holes 34 .

Each of the supply units 33 arranged adjacent to each other is connected to each other by a plurality of pipes 35. The pipe 35 is connected to the base end 31a of the connecting portion 31. Therefore, when the gas containing ozone is sent out from the connection part 31, the gas passes through the pipe 35 and is released from the through holes 34 of the plurality of supply parts 33.

Note that a fixing member (not shown) that can fix the discharge part 32 to the bottom surface of the bathtub section 20 may be provided on the surface (bottom surface) on the back side of the front surface of the discharge part 32 . For example, a suction cup, a magnet, a double-sided tape, a hook-and-loop fastener, or the like may be used as the fixing member.

A method for improving traumatic inflammation using the ozone bubbling device 100 described above will be described. FIG. 5 shows the steps of a method for improving traumatic inflammation. As shown in FIG. 5, a storage step of storing water in the bathtub section 20 of the ozone bubbling device 100 is performed (step S01).

In step S01, water may be stored with the ozone supply section 30 disposed at the bottom of the bathtub section 20. The storage of water is not particularly limited as long as the amount is sufficient to soak the affected area in water. Further, from the viewpoint of supplying the gas containing ozone to water, it is preferable that water is stored to at least cover the ozone supply section 30 . Note that the water is not limited to cold water and may be adjusted to an appropriate temperature.

A supply step is performed in which gas containing ozone is supplied from the ozone supply section 30 to the water stored in the bathtub section 20 (step S02).

In step S02, the pump 12 and the ozone generator 13 are operated by turning on a switch disposed in the housing 11 of the ozone generator 10. When the pump 12 and the ozone generator 13 are operated, gas containing ozone is sent from the ozone generation section 10 to the ozone supply section 30 via the connection member 40.

The ozone supply section 30 discharges the ozone-containing gas sent out from the ozone generation section 10 from the discharge section 32 . When gas containing ozone is supplied to water, the gas containing ozone is supplied until the water reaches a predetermined concentration. When ozone is bubbled into the water, the concentration of hydrogen peroxide generated based on the ozone is preferably 0.010 to 0.100 ppm, more preferably 0.030 to 0.070 ppm, more preferably 0. It is preferable to set it to .034-0.068 ppm.

There is no established method for measuring the amount of ozone contained in water when ozone is bubbled into the water. On the other hand, it is possible to measure the amount of hydrogen peroxide derived from the ozone. Therefore, the ozone content of water is estimated by measuring the hydrogen peroxide content of water. Furthermore, from an academic point of view, it is believed that water contains an amount of ozone equal to or greater than the amount of hydrogen peroxide derived from ozone.

For example, As One spectrophotometer ASV11D-H can be used to measure the amount of hydrogen peroxide. Furthermore, when the concentration of ozone (concentration of hydrogen peroxide) in the water reaches a predetermined concentration, the supply amount of ozone is adjusted to adjust the concentration of ozone (concentration of hydrogen peroxide) mentioned above. It is better to perform adjustment control.

A dipping step is performed in which the affected area of the animal having traumatic inflammation is immersed in water in the bathtub section 20 (step S03).

The time period for which the affected area is immersed in water may be changed depending on the ozone concentration of the water and the condition of the skin of the affected area. For example, the time period for soaking the affected area in water may be 1 to 60 minutes, preferably 5 to 30 minutes, and more preferably 10 to 20 minutes.

In addition, if the affected area is in a part such as the head where it is difficult to keep immersed in water, water supplied with ozone-containing gas may be applied to the affected area. For example, water containing ozone-containing gas may be applied to the affected area using a shower, a pail, or the like.

Further, the ozone bubbling device 100 of the present invention can be used for animals such as humans, horses, cows, dogs, cats, and pigs. The ozone bubbling device 100 of the present invention can be used on affected areas of these animals that are covered with skin, such as the legs, arms, abdomen, back, and head. Further, the ozone bubbling device 100 of the present invention is particularly effective against traumatic inflammation such as capsulitis, ligament damage, sprains, cuts, etc. In particular, the method for improving traumatic inflammation of the present invention is effective for treating affected areas on the legs of horses. It is effective for capsulitis.

The method for ameliorating traumatic inflammation of the present invention can be used on the above-mentioned affected areas of the above-mentioned animals (excluding humans). Furthermore, the method for improving traumatic inflammation of the present invention can be used for the above-mentioned traumatic inflammation.

As described above, according to the ozone bubbling device 100 of the present invention, it is possible to supply gas containing ozone while bubbling the water stored in the bathtub section 20. As a result, the water stored in the bathtub section 20 can contain ozone.

Further, according to the method for improving traumatic inflammation of the present invention, the user can improve traumatic inflammation by immersing the affected area in water stored in the bathtub section 20.

[Test Example 1] (Verification of effect on capsulitis)
The effectiveness of horses suffering from capsulitis, a traumatic inflammation caused by microorganisms, was verified by immersing the affected area in water in the bathtub of an ozone bubbling device once a week.

(Ozone bubbling device)
FIG. 6 shows how the ozone bubbling device 100 is used in Test Example 1. As shown in FIG. 6, the ozone bubbling devices 100 are connected to each other so that air containing ozone generated by the ozone generation section 10 is supplied from the ozone supply section 30 via the connection member 40. In this test example, the bathtub section 20 was formed into a cylindrical bag shape with one end open. Ozone supply 30 is arranged at the bottom of bathtub section 20.

Water is stored in the bathtub section 20 to a point where the affected area is submerged when the horse's leg 50 is inserted into the bathtub section 20. Therefore, the air containing ozone supplied from the ozone supply section 30 is released into the water stored in the bathtub section 20. The ozone bubbling device 100 controls the air supplied from the ozone supply section 30 so that the ozone concentration in the water stored in the bathtub section 20 is less than 0.1 ppm (the hydrogen peroxide concentration is less than 0.100 ppm). Adjust amount. Moreover, the temperature of the water was around 25°C.

(Target individual)
The target individual is a horse (female, 15 years old in 2020). The subject began to show symptoms of capsulitis in his left front leg around April 2016. The subject's cystitis symptoms included abnormal lameness to the extent that he was unable to walk normally.

(Treatment history of target individual)
The target individual continued to receive treatment with antibiotics and other drugs after symptoms began, but no improvement in the symptoms of capsulitis was observed.

In September 2018, we started treatment using an ozone bubbling device 100 (product name: Refobath, manufactured by Camos Co., Ltd.) about once a week. Specifically, the treatment involved immersing the affected area of the subject in the ozone bubbling device 100 for 10 to 20 minutes, and observing the progress of the affected area. In some cases, drugs to treat capsulitis were also used in this treatment.

(Verification of effectiveness of ozone bubbling device)
From around April 2019, the subject's capsulitis symptoms improved, and his walking condition gradually improved. In July 2019, the subject was able to fully recover and walk normally.
Since then, ozone bubbling has been used and no drugs have been administered to date, but the symptoms of capsulitis have not worsened. The period of treatment was 2 years.

As described above, the ozone bubbling device 100 for improving traumatic inflammation and the method for improving traumatic inflammation were confirmed to be effective in alleviating symptoms of traumatic inflammation including capsulitis.

100 Ozone bubbling device for improving traumatic inflammation 10 Ozone generation section 20 Bathtub section 30 Ozone supply section

Claims (1)

a step of storing water in the bathtub;
supplying gas containing ozone to the water stored in the bathtub by bubbling;
immersing the leg of a horse suffering from inflammation due to capsulitis in the water stored in the bathtub;
A method for improving inflammation in a horse's leg, the method comprising:

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