JP2017056121A - Method for sterilizing instrument using microwave and material thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for sterilizing an instrument using microwave, even when heating water-containing gel of a water-absorbing resin along with the instrument by the microwave, preventing water from bumping, and from breaking or fouling the instrument, and preventing the water-containing gel from being stuck to the instrument, and a material for use in the method.SOLUTION: The method for sterilizing an instrument using microwave includes: storing water-containing gel of a water-absorbing resin in a heat-resistant and closed container along with an instrument; inserting the container in the microwave; and heating it. In the method for sterilizing the instrument using the microwave, the water-containing gel of the water-absorbing resin is sealed in a water-permeable bag that is formed of cloth with a basis weight of not less than 10 g/mand not more than 100 g/mor a film having a plurality of pores of not less than 0.001 mm and not more than 1 mm.SELECTED DRAWING: None

Description

  The present invention relates to a method and material for disinfecting instruments using a microwave oven.

When disinfecting baby bottles at home, it has been done by immersing them in hot water or disinfectant, but in recent years there has been a method of disinfecting baby bottles using both microwaves and steam using a microwave oven. (For example, Patent Documents 1 and 2).
However, when a specified amount of water is put in a commercially available baby bottle disinfection bag for a microwave oven, the temperature of the water suddenly rises and bumps and the baby bottle may burst. Recently, as a simple method, a method has been proposed in which a water-absorbing sheet containing a water-absorbing resin is hydrated, placed in a bag, and the target appliance is simultaneously placed, and further heated in a microwave oven (for example, Patent Document 3).

Japanese Patent Publication No. 60-58669 Japanese Examined Patent Publication 56-54676 JP-A-6-255633

However, as described above, when the water-absorbing sheet is contained in water and placed in a packaging bag and heated with a target device in a microwave oven, the water-absorbing resin in the water-absorbing sheet swells and the gel sticks to the protruding device from the water-absorbing sheet. There is a problem that it is not hygienic.
An object of the present invention is to use a microwave oven that does not break or stain the device due to sudden boiling of water even when heated together with the device in a microwave oven, and the water-containing resin hydrogel does not adhere to the device. It is to provide a method for disinfecting instruments and materials used in the method.

As a result of intensive studies in view of the above problems, the inventor has found that the above object can be achieved by heating a microwave oven by placing a water-containing resin hydrogel in a specific water-permeable bag, resulting in the present invention. .
That is, the present invention is a method for disinfecting a device using a microwave oven, characterized in that the water-containing resin hydrogel is stored in a heat-resistant airtight container together with the device, and then heated in a microwave oven,
The water-containing resin hydrous gel is enclosed in a water-permeable bag formed of a fabric having a basis weight of 10 g / m ² or more and 100 g / m ² or less, or a film having a plurality of fine pores of 0.001 mm or more and 1 mm or less. It is the method of disinfecting an instrument using the microwave oven characterized by being.
Microwaves use electromagnetic waves called microwaves. Substances that absorb electromagnetic waves are dielectrically self-heating, and the word “heating” is not appropriate, but in the present invention, it is convenient to speak generally. In particular, the word “heating” is used.

Furthermore, the present invention is characterized in that the water-absorbent resin has an amount of water-soluble component in the water-absorbent resin of 5% by weight or less.
Furthermore, the present invention is characterized in that the device is a baby bottle.
Furthermore, the present invention is a disinfecting pack in which the water-containing resin hydrous gel is used, which is used in the method of disinfecting an instrument using the microwave oven.

According to this invention, even if it heats with a device using the water-containing resin water-containing gel in a microwave oven, the water-containing gel does not adhere to the device and is hygienic.
Further, when the water-absorbent resin has a water-soluble component amount of 5% by weight or less in the water-absorbent resin, the instrument is not nullified even when the instrument is disinfected.
In addition, since water gradually evaporates from the water-absorbent resin, the water does not bump and the bag or instrument is not ruptured.

Hereinafter, embodiments of the present invention will be described in detail. Note that the present invention is not limited to the following embodiments. Various modifications can be made to the following embodiments within the same and equivalent scope as the present invention.

The water-absorbing resin used in the present invention is not particularly limited, whether natural or synthetic, but is inexpensive, has excellent water absorption characteristics such as safety, durability, water absorption magnification and water absorption speed, and is free from the risk of spoilage. Is preferred.
Examples of such materials include synthetic water-absorbing resins, and are not particularly limited as long as they absorb and retain water. For example, crosslinked polyacrylic acid partially neutralized product, starch-acrylic acid graft Neutralized polymer, hydrolyzate of starch-acrylonitrile graft polymer, saponified vinyl acetate-acrylic ester copolymer, cross-linked isobutylene-maleic anhydride copolymer, acrylonitrile copolymer or acrylamide copolymer Hydrolyzate or cross-linked product thereof, acrylate-acrylamide copolymer cross-linked product, polyvinyl alcohol cross-linked product, modified polyethylene oxide cross-linked product, acrylamide-2-methylpropane sulfonate copolymer cross-linked product, (meth) acryloylalkane Cross-linked sulfonate copolymer, cross-linked carboxymethyl Cellulose salts, and the like crosslinked polymer of a cationic monomer. Among these, a polyacrylic acid partial neutralized product cross-linked product and a starch-acrylic acid graft polymer neutralized product are preferable because of their particularly good water absorption characteristics, safety and economic efficiency.

These water-absorbing resins may be used alone or in combination of two or more. The water absorbent resin is preferably in the form of particles, and may be granulated into a predetermined shape. Moreover, although there is no limitation in shape, such as irregular crushing shape, spherical shape, scale shape, fiber shape, rod shape, lump shape, powder shape, in order to improve water absorption property, it is more preferable that it is a powder shape.

Although there is no limitation in particular about the average particle diameter of particle | grains, Preferably it is 30-850 micrometers, More preferably, it is 60-400 micrometers. If it is larger than 30 μm, the water-absorbing resin particles are less likely to leak from the breathable substrate, and if it is smaller than 850 μm, the water absorption speed when producing a hydrous gel is good. The particle size distribution is not particularly limited, but is preferably a particle size distribution such that particles in the range of 30 to 850 μm are 95% by mass or more. Here, the average particle diameter means the mass average particle diameter, the mass average particle diameter is plotted on the logarithmic probability paper of the particle size distribution of the cross-linked polymer on the horizontal axis is the particle diameter, the vertical axis is the content based on the mass, It is measured by a method for determining the particle size that occupies 50% of the total. For example, a normal sieving method can be applied.

The water absorption capacity of the water absorbent resin is preferably 80 to 1,000 times by weight.
The water absorption ratio can be measured by the following method.
<Measurement method of water absorption capacity of water absorbent resin>
A sample of water-absorbent resin (sample amount; Xg) is placed in a nylon net bag (250 mesh), and the bag is immersed in excess water. After 60 minutes of immersion, the whole bag is pulled up in the air, left to stand and drained for 15 minutes, and then the mass (Yg) is measured to determine the water absorption capacity from the following formula. [The same operation as described above is performed using only a mesh bag, and the mass (Zg) of this amount is subtracted as a blank. ]
Water absorption magnification = (Y−Z) / X

In addition, the water-absorbing resin preferably has fewer water-soluble components, for example, low molecules such as oligomers of acrylic acid and higher molecular weight uncrosslinked acrylic acid polymers. These water-soluble components give a slimy feeling and easily come out on the surface together with water when the water evaporates, and may be scattered together with water vapor at a high temperature. In such a case, when the water-permeable bag containing the water-containing gel touches the device, the device becomes slimy and the hygiene of the device is not good. The amount of water-soluble component in the water-absorbent resin is particularly preferably 5% by weight or less, since the feeling of slime after disinfection of the device is very small, and the amount of 1% or less is particularly preferable because there is no slime when touched after disinfection. The method for measuring the amount of the water-soluble component can be measured by a method such as a gravimetric method or an electrodrop method described in JP-A-2005-445.

The water absorbent resin may be in the form of particles, but may be a water absorbent resin contained in the sheet. A known method can be applied to the method of including the water-absorbing resin in the sheet. In the present invention, the above water-absorbent resin is enclosed in a bag formed of a water-permeable base material.
As a water-permeable substrate, it is necessary that the water-containing resin hydrogel does not leak during use. Examples of the form of the breathable substrate include fabrics such as knitted fabrics, woven fabrics, and nonwoven fabrics; and films such as those obtained by making many fine holes in a sheet of polyethylene, polypropylene, or the like.

The basis weight of the fabric is 10 g / m ² or more and 100 g / m ² or less. If it is less than 10 g / m ² , there is a problem that the water-absorbent resin or its gel is extruded by water vapor and leaks. If it exceeds 100 g / m ² , the fibers become dense, the water absorption rate decreases, and at the same time, it is difficult for water vapor to come out, and water vapor accumulates in the fabric, and when pressure exceeding the wet strength of the fabric is applied from the inside, the bag ruptures and gels There is a problem that scatters. Preferably at 15 g / ^{m 2} or more 50 g / ^{m 2} or less, particularly preferably 15 g / ^{m 2} or more 30 g / ^{m 2} or less.

The film has a hole size of 0.001 mm to 1 mm, preferably 0.01 mm to 0.5 mm. If it is less than 0.001 mm, the pores are too small and the water absorption speed becomes small, making it difficult to use. If it exceeds 1 mm, there is a problem that the pores are too large and the water-absorbent resin or its gel passes and leaks.

As a material for such a water-permeable substrate, heat resistance that can withstand the use temperature of a microwave oven (about 120 ° C.) is necessary. Specifically, for example, natural materials such as cotton, hemp, wool, cellulose, and pulp are used. Synthetic resins such as fiber, polyester, nylon, acrylic, polypropylene, polyurethane, polystyrene, poval, and modified products thereof, and fibers, semi-synthetic fibers such as rayon, acetate, and the like, and mixed materials thereof can be applied.

As a form of said water-permeable base material, a fabric is preferable and a nonwoven fabric is especially preferable especially. As a nonwoven fabric, the nonwoven fabric currently used industrially can be used.
The thickness of these base materials is preferably 0.001 to 5 mm, more preferably 0.01 to 3 mm.

The water permeability is preferably 30 seconds or less, more preferably 20 seconds or less, and particularly preferably 10 seconds or less, when expressed in terms of time (seconds) for 100 ml of 25 ° C. ion-exchanged water to pass through an area of 100 cm ^2. It is.

  In the present invention, a bag formed of a water-permeable base material (hereinafter sometimes simply referred to as a disinfecting bag) in which a water-absorbing resin hydrogel is enclosed is referred to as a disinfecting pack. The sanitizing bag can be manufactured by a normal manufacturing method using the above water-permeable substrate as a bag. For example, after manufacturing a bag, water-absorbing resin particles or a sheet thereof is put, and the surroundings are sewn, bonded, and heat sealed. There is a way to close it. Instead of these, the water-containing resin hydrogel may be closed after being put in the bag, but it is efficient and preferable to put the water-absorbing resin in the bag first and then immerse in water to make a disinfecting pack. .

  The sanitizing bag can be formed in an appropriate shape such as a rectangle, a square, a round, an ellipse, an oval, or a polygon. Examples of the size include those having a side or diameter of 0.5 cm to 10 cm, and may be selected according to use. Although the amount of the water-absorbing resin in the bag depends on the size of the bag, the water-absorbing resin is preferably 0.1 g or more and 1.0 g or less in one bag. If it is 0.1 g or more, the instrument can be disinfected with a microwave oven, and if it is 1.0 g or less, it is economical.

  The disinfecting bag containing the water-absorbing resin can be immersed in water to form a disinfecting pack. The temperature at which the bag is immersed in water is not particularly limited, but is preferably room temperature because it is easy to carry out. If the immersion time is 30 seconds or more and 10 minutes or less, the water-absorbing resin can be water-containing to form a gel. Although the thickness of a disinfection pack does not have limitation in particular, Preferably it is 3-30 mm, More preferably, it is 4-20 mm.

  The amount of water contained in the disinfection pack is not particularly limited as long as it is not less than the amount of water that is heated once in a microwave and evaporates, but is preferably 20 g / piece or more and 100 g / piece or less, more preferably 20 g / piece or more. 80 g / piece or less. Within this range, a sufficient amount of steam is generated and can be disinfected. Moreover, when using a disinfection pack repeatedly, it is preferable to increase the said water content by the magnification for the frequency | count.

  A heat-resistant airtight container is a container in which a sterilization pack is placed and heated and sterilized by a microwave oven, for example, a plastic rigid box-shaped container with a lid or a bag made of a soft sheet. be able to. “Heat resistance” in the present invention refers to a property that is stable and exhibits resistance to a temperature at least exposed to a microwave oven.

The plastic hard container only needs to have an inlet and be sealed like a bottle sterilization container used in a commercially available microwave oven. A bag made of a soft sheet can be carried, so that it can be carried out if there is a microwave oven even when going out.
The soft sheet can be used as long as it is heat resistant and does not allow moisture (steam) to pass through at all or is very small even if it passes through. For example, a synthetic resin sheet made of polyester, polypropylene, or the like is preferably used. be able to. Moreover, the composite synthetic resin sheet which laminated | stacked 2 or more types of synthetic resin sheets can be used.

  In the heat-resistant airtight container, it is preferable that a steam discharge means is provided in order to prevent the container from bursting. As the steam discharge means, any means may be used as long as the steam generated inside the bag body can be gradually released to the outside. Specifically, a large number of pinholes or notches provided in the container body, one or two to three small holes (holes larger than the pinholes), and a vent valve that opens by pressing (vapor pressure) from the inside Etc.

A method of disinfection using the microwave oven of the present invention will be described.
After the disinfecting pack is stored in a heat-resistant airtight container together with the appliance, the container is placed in a microwave oven and heated by turning on the switch. During electromagnetic wave irradiation with a microwave oven, water vapor comes out of the disinfection pack with the heating of the container itself or when the water of the water-containing gel in the container is directly heated by electromagnetic waves, and the container is heated to a high temperature. The water vapor fills up and the instrument can be disinfected.

During electromagnetic wave irradiation, the generated electromagnetic wave passes through the sealed container and hits water molecules in the disinfection pack. Thereby, the water | moisture content in a disinfection pack changes into water vapor little by little. Since the sealed container is impermeable to moisture, the interior gradually fills with water vapor and the internal pressure in the sealed container increases. The appliance in it is exposed to water vapor and is uniformly steamed from the surroundings and heated. Since the internal pressure in the container increases, the heating effect is improved. The temperature at this time reaches about 100 to 120 ° C. This can kill bacteria as well as viruses attached to the instrument.
Although the electromagnetic wave irradiation conditions by a microwave oven are suitably selected according to the object to be sterilized, for example, it is sufficient to irradiate at 500 W for 1 to 8 minutes with a baby bottle.

  What can be subjected to electromagnetic wave treatment using the disinfecting pack of the invention includes rubber products such as rubber gloves and tubes, glass products such as baby bottles, syringes and test tubes, tweezers, scissors, scalpels, and other dental fields Metal products such as mirrors, drills, grinders, and oral spats. It is particularly suitable for disinfecting baby bottles.

  Examples will be described below, but the present invention is not limited thereto.

Example 1
(1) Disinfection pack 12cm x 8cm polyester / polyolefin-based spunbond nonwoven fabric "Elves (S0303WDO)" (manufactured by Unitika Co., Ltd., basis weight: 30g / m ² ) is folded to 6cm x 8cm. A sanitizing bag was prepared by heat sealing 0.8 cm.

  3 g of “eye polymer T-100” (cross-linked polyacrylate type water-absorbing resin, water absorption ratio 160 times, average particle size 355 μm, water-soluble component amount 1.0% by weight) is put into this sanitizing bag, The direction was heat-sealed by about 1 cm to obtain a non-woven fabric pack enclosing a water-absorbing resin. When this nonwoven fabric pack was put into a cup containing about 150 ml of tap water, it immediately swelled. When taken out after 2 minutes, about 1 g of the nonwoven fabric pack absorbed water up to about 30 g, and the disinfecting pack according to the present invention was obtained.

(2) Preparation of disinfection set Two commercially available plastic baby bottles (240 ml) are divided into a main body container and a nipple, respectively, and 1.8 × 10 ⁷ CFU / 100 ml water dispersion of general bacteria (soil bacteria) in the main body container 10 ml of each liquid was added. The above-mentioned disinfection pack is put into a nylon / polybag having a steam release seal portion of 20 cm in length and 30 cm in width, and the main body container and the nipple of one baby bottle are put therein and sealed, and the disinfection set (A-1 ).

(3) Disinfection operation The steam disinfection set (A-1) was put in the microwave oven, and the microwave oven was operated at 500 W for 5 minutes. The disinfection set was swollen by the generated water vapor, and excess water vapor escaped from the vapor vent seal. About 5 minutes after the microwave oven stopped, the disinfection set had been cooled to the extent that it could be touched by hand. Therefore, the disinfection set was taken out of the microwave oven, and the baby bottle body and nipple were taken out. The surface of the baby bottle body was smooth.

(4) Evaluation result 1 ml of the liquid remaining inside the baby bottle body after the disinfection operation is collected with a sterilized pipette, put into a sterilized petri dish, and then sterilized 4% SCD agar medium “DAIGO” (Nippon Pharmaceutical Co., Ltd.) After adding 10 ml and shaking gently, the petri dish was covered, and it culture | cultivated at 37 degreeC for 2 days, and measured the number of bacteria. The results are shown in Table 1. As a blank, 1 ml of 1.8 × 10 ⁷ CFU / 100 ml aqueous dispersion of the above general bacteria (soil bacteria) was collected with a pipette using another set of feeding bottles and cultured in the same manner as described above.

(Example 2)
In Example 1, instead of “eye polymer T-100”, another water-absorbent resin (crosslinked polyacrylate type water-absorbent resin, average particle size 451 μm, water absorption 240 times, water-soluble component amount 4.5 weight %) Was used in the same manner as in Example 1 except that sanitizing bags, disinfecting packs, and disinfecting sets were prepared and disinfecting operations were performed. The results are also shown in Table 1.

(Comparative Example 1)
In Example 1, instead of “eye polymer T-100”, another water-absorbent resin (crosslinked polyacrylate type water-absorbent resin, average particle size 313 μm, water absorption factor 150 times, water-soluble component amount 7.5 weight) %) Was used in the same manner as in Example 1 to prepare a disinfecting bag, a disinfecting pack, and a disinfecting set, and a disinfecting operation was performed. The results are also shown in Table 1.

(Comparative Example 2)
In Example 1, a polyester / polyolefin-based spunbonded nonwoven fabric “Elvis (S0303WDO)” (manufactured by Unitika Ltd., basis weight: 30 g / m ² ) was used instead of a polyester / polyolefin-based spunbonded nonwoven fabric (weight: 7 g / m ² ). A disinfection bag, a disinfection pack, and a disinfection set were prepared in the same manner as in Example 1 except that the disinfection operation was performed. The results are also shown in Table 1.

(Comparative Example 3)
In Example 1, instead of the polyester / polyolefin-based spunbond nonwoven fabric “Elvis (S0303WDO)” (manufactured by Unitika Ltd., basis weight: 30 g / m ² ), a polyester / polyolefin-based spunbond nonwoven fabric (weight: 110 g / m ² ) was used. A disinfection bag, a disinfection pack, and a disinfection set were prepared in the same manner as in Example 1 except that the disinfection operation was performed. The results are also shown in Table 1.

From Table 1, it can be seen that the number of bacteria is markedly reduced in both Examples and Comparative Examples as compared with the blank, and the result of the heat disinfection with the gelled product of the water absorbent resin is good. When the water-soluble component of the water-absorbent resin used is 4.5% by weight or less, the surface of the baby bottle after disinfection is smooth. Moreover, the gel adhered to the instrument as the basis weight of the nonwoven fabric was 7 g / m ² or 110 g / m ² .
From the above, it was confirmed that the method of the present invention was effective.

Claims (4)

A method for disinfecting a device using a microwave oven characterized in that the water-containing resin hydrous gel is stored in a heat-resistant airtight container together with the device, and then heated in a microwave oven,
The water-containing resin hydrous gel is enclosed in a water-permeable bag formed of a fabric having a basis weight of 10 g / m ² or more and 100 g / m ² or less, or a film having a plurality of fine pores of 0.001 mm or more and 1 mm or less. A method of disinfecting an instrument using a microwave oven characterized by being. The method for disinfecting a device using a microwave oven according to claim 1, wherein the water-absorbent resin has a water-soluble component amount in the water-absorbent resin of 5% by weight or less. 3. The method for disinfecting a device using a microwave oven according to claim 1 or 2, wherein the device is a baby bottle. A disinfection pack in which the water-containing resin hydrous gel is enclosed, which is used in the method of disinfecting an instrument using the microwave oven according to claim 1.