JP5982088B2 - Biofilm removing agent and biofilm removing composition - Google Patents

Description

The present invention relates to a biofilm removing agent and a biofilm removing composition containing the biofilm removing agent, and more specifically, a biofilm formed on a hard surface or the like in various fields involving microorganisms. The present invention relates to a biofilm removing agent that effectively removes the biofilm and reduces the harm by removing the biofilm, and a biofilm removing composition containing the biofilm removing agent.

In recent years, buildings with high airtightness and excellent moisture retention have become widespread in single-family houses as well as apartment houses such as apartments due to the extensive use of aluminum sashes and heat insulating materials.
On the other hand, with the improvement of people's standard of living, the concept of amenity, that is, “comfort” has spread, and awareness of wanting to live as comfortably and cleanly as possible in a limited living space has increased. Reflecting these modernization of architectural styles and changes in residents' consciousness, biofilms generated around the water in bathrooms, kitchens, washrooms and toilets, etc., which are particularly humid in the home, cause slime, clogging, and foul odors. It is regarded as a problem, such as causing discomfort.

Biofilms are formed from microorganisms such as microorganisms such as bacteria and mold that adhere to hard surfaces such as floors and sinks, and grow in a short time under high temperature and humidity conditions using organic matter such as human dirt and soap as nutrients. It is known to be a viscous material that produces high-molecular substances such as polysaccharides and proteins. When microorganisms inhabit the environment, they are often in a biofilm state.
When microorganisms form biofilms, they are much more resistant to washing, removal, antibiotics, drugs, heat, drying, etc. than they are floating, and normal washing and sterilization methods are sufficiently effective. This is often a serious problem because it makes it difficult to thoroughly eliminate microorganisms.

Until now, in order to prevent the harm of biofilm, the idea of not allowing bacteria to grow by giving bactericidal or bacteriostatic action to microorganisms, particularly bacteria, has been generally studied. For example, Patent Document 1 describes an antibacterial preparation containing arginine hydrochloride, arginine ethyl ester, arginine glutamic acid or other arginine or a derivative thereof and a compound exhibiting antibacterial activity, but the effect is still satisfactory. However, this document shows an antibacterial effect on microbial aggregates, and is not intended to remove biofilms composed of microorganisms and microbial polymer substances formed on hard surfaces or the like.

JP-A-8-151324

The present invention relates to a biofilm remover that effectively removes a biofilm composed of microorganisms and microorganism-produced polymer substances formed on a hard surface or the like in various fields, and a biofilm remover containing the biofilm remover It is an object to provide a composition for use.

The present inventor conducted intensive research to obtain a biofilm remover that effectively removes a biofilm formed on a hard surface and the like and microorganisms therein. Polylysine was found to be a biofilm and microorganisms therein. As a result, the present invention has been completed.

That is, the biofilm remover of the present invention is
The following general formula (1)

(In the formula, n is an integer of 2 or more.)
It consists of polylysine represented by these.

Moreover, the composition for removing a biofilm of the present invention contains the biofilm removing agent of the present invention.
Here, the concentration of the biofilm remover is preferably 0.05 to 25% by weight.

Since the biofilm removing agent of the present invention is made of polylysine, it can effectively remove the biofilm formed on the hard surface or the like.
Moreover, since the composition for biofilm removal of this invention contains the said biofilm removal agent, it can remove a biofilm effectively.

The biofilm remover of the present invention is
The following general formula (1)

(In the formula, n is an integer of 2 or more.)
It consists of polylysine represented by these.

Polylysine is an amino acid polymer in which the amino group at the ε-position and the carboxyl group of L-lysine, which is one of the essential amino acids, are linked in a straight chain and have a hydrophobic methylene group and a hydrophilic group in the molecule. It is a polyamino acid that has a surface-active action because it has a functional amino group and a carboxyl group, and becomes a polycation in an aqueous solution because it has an amino group in the side chain.
Moreover, the polylysine used as the biofilm remover of the present invention has an n (degree of polymerization) of 9 to 35 in the general formula (1) from the point that a biofilm formed on a hard surface or the like can be more effectively removed. Preferably there is.
The more preferable n (degree of polymerization) of the polylysine is 15 to 35, more preferably 20 to 35, and particularly preferably 25 to 35.

Examples of such commercially available polylysine include polylysine 50% powder (manufactured by Chisso Corporation).

The composition for removing a biofilm of the present invention contains the biofilm removing agent.
In the biofilm removing composition, the upper limit of the concentration of the biofilm removing agent is preferably 25% by weight, more preferably 20% by weight, still more preferably 15% by weight, and particularly preferably 10% by weight. On the other hand, the lower limit is preferably 0.05% by weight, more preferably 0.1% by weight, still more preferably 0.5% by weight, and particularly preferably 1.0% by weight.
When the concentration of the biofilm remover is within this range, the biofilm formed on the hard surface or the like can be more effectively removed. If the concentration is less than 0.05% by weight, the biofilm may not be effectively removed, and if the concentration exceeds 25% by weight, the production of the raw material itself may be difficult. It is also disadvantageous in terms of cost.
In the biofilm removing composition, the concentration of the biofilm remover means the concentration at the time of use, for example, assuming that it is diluted with water at the time of use of a concentrated detergent, etc. It means the concentration after dilution.

In addition to the biofilm remover, the biofilm removal composition contains, for example, a solvent, a surfactant, a bactericidal agent, an antibacterial agent, a cleaning agent, an alkali agent, an alkali builder, a metal scavenger, a dispersant, and the like. Furthermore, for example, functional components such as aromatic components and deodorant components, anti-redeposition agents, pH adjusters, thickeners, viscosity adjusters, suspension agents, preservatives, antioxidants, It may contain UV absorbers, enzymes, pigments such as pigments and dyes, fluorescent agents, excipients, soil release agents, bleaching agents, bleach activators, powdering agents, granulating agents, coating agents, etc. .

More specifically, for example, when using a biofilm remover as a toilet detergent or bathroom detergent, it is preferable to contain at least a surfactant, a metal scavenger and a fragrance in addition to the biofilm remover, When used as a kitchen detergent, it is preferable to contain at least a surfactant, a solvent and a fragrance in addition to the biofilm remover. When used as a drainage pipe cleaning agent, at least an alkali agent other than the biofilm remover, It is preferable to contain chlorine and a surfactant.

The dosage form of the composition for removing a biofilm is not particularly limited, and may be appropriately selected depending on the application, purpose, etc. Aerosol etc. are mentioned.
Moreover, it is good also as storing and conveying in the concentrated state which raised the density | concentration of the biofilm removal agent, and diluting suitably at the time of use.

The use target of the composition for removing biofilm is not particularly limited as long as it is a place where a biofilm is formed, not to mention hard surfaces such as kitchens, kitchens, bathrooms, toilet floors and sinks, such as kitchens and kitchens. Kitchens, bathrooms, toilet drains, drains, food or beverage production plants, cooling water systems such as industrial cooling towers, circulating water systems such as desalination equipment, pools, artificial ponds, endoscopes, catheters, Examples thereof include medical equipment such as an artificial dialysis machine.

The method of using the biofilm removing composition is not particularly limited as long as the biofilm removing composition can be applied to the biofilm, and the biofilm removing composition can be applied or dispersed. And immersion of the object.
Specific examples include, for example, a method of applying using a sponge, towel, brush, brush, etc., a method of directly dropping the composition for removing a biofilm onto an object, a container filled with a propellant and sprayed. And a method of immersing the object in a container containing the composition for removing a biofilm for a predetermined time.
Moreover, after making the said biofilm removal composition act, it is preferable to wash away with the biofilm from which the biofilm removal composition was removed using water etc. as needed.

Hereinafter, the present invention will be described in more detail with reference to specific examples. However, the present invention is not limited to the following examples.

Examples 1-4 and Comparative Examples 1-7
Preparation of aqueous solution for evaluation drug (composition for removing biofilm) Using sterilized purified water (manufactured by Otsuka Pharmaceutical Co., Ltd.), aqueous solutions of polylysine and other various evaluation drugs were prepared at predetermined concentrations. The types, concentrations and trade names of each evaluation drug are as shown in Table 1 below.

Evaluation of Biofilm Removal Performance (1) 10 mL of SCD medium was added to a 50 mL sterilized centrifuge tube.
(2) One platinum loop of the test bacterium (Pseudomonas aeruginosa NBRC13275 preserved in the kajiton medium) was collected and inoculated into the SCD medium of (1), followed by shaking culture under conditions of 30 ° C., 24 h, and 120 rpm. A liquid was prepared.

(3) A 96-well plate was prepared separately from the operations (1) and (2) above, and 0.15 mL of N = 3 SCD medium was dispensed as a negative control 1 into the 96-well plate.
(4) N = 3 0.15 mL of SCD medium as a negative control 2 was dispensed into a 96-well plate.
(5) 0.15 mL of N = 3 SCD medium was dispensed in 96-well plates according to the number of samples of the aqueous solution for evaluation.

(6) 5 μL each of the test bacterial solution prepared in (2) above was inoculated into the SCD medium dispensed in (4) and (5) above.
(7) The culture was stationary at 30 ° C. for 72 hours.

(8) After discarding the solution in each well, it was allowed to stand naturally until it looked dry.
(9) Each well was rinsed twice with 0.15 mL of distilled water.
(10) Nothing is added to the negative control 1 depending on the well, 0.20 mL of distilled water is added to the negative control 2, and the mixture is allowed to stand at room temperature for 10 minutes. The operation of adding 0.20 mL of the aqueous drug solution and allowing to stand at room temperature for 10 minutes was performed.

(11) The solution in each well was discarded, and each well was rinsed twice with 0.20 mL of distilled water.
(12) 0.20 mL of 0.1% crystal violet aqueous solution (w / v) was added and stained for 30 minutes.
(13) The 0.1% crystal violet aqueous solution was discarded, and each well was rinsed twice with 0.20 mL of distilled water.

(14) 0.20 mL of 95 wt% ethanol was added to each well and left for 10 minutes to sufficiently solubilize the dye (crystal violet).
(15) The absorbance of the ethanol solution obtained in (14) above was measured at a wavelength of 595 nm. Here, the absorbance of the negative control 1 was a blank value, the absorbance of the negative control 2 was an initial value, and the absorbance of each evaluation drug was a measured value.

(16) The biofilm removal rate of each evaluation drug was calculated by the following formula using the average value obtained by performing this test three times. The biofilm removal performance is determined to be a biofilm removal rate of 90% or more and 100% or less ☆, 80% or more and less than 90% ◎, 50% or more and less than 80% ○, 0% or more and less than 50% × Judged by criteria.

Biofilm removal rate (%) = 100 × [{(initial value−blank value) − (measured value−blank value)} / (initial value−blank value)]

The calculated biofilm removal rate is shown in Table 2.

As shown in Table 2, it was confirmed that the biofilm can be effectively removed by using the biofilm removing composition containing the biofilm removing agent of the present invention.

Regarding the biofilm removing composition of the present invention, in addition to the above-described examples, the biofilm removing composition is adjusted so that the concentration of the biofilm removing agent is 10% by weight, 15% by weight, and 25% by weight. When the biofilm removal performance was prepared and evaluated in the same manner, it was confirmed that these biofilm removal compositions can effectively remove the biofilm similarly to the examples.

Hereinafter, the composition for removing a biofilm of the present invention will be described in more detail in Formulation Examples 1 to 6, but the formulation examples of the composition for removing a biofilm of the present invention are limited to the following formulation examples. is not.
Here, Formulation Example 1 is a formulation example related to a toilet detergent or bathroom detergent of the type used by dropping the stock solution or spraying with a spray, and Formulation Example 2 is a powder type toilet detergent or bathroom detergent. Formulation Example 3 is a formulation example relating to a liquid type kitchen detergent used for dishwashing, cutting board, sink washing, etc. Formulation Example 4 is a powder that is poured directly into a pipe and allowed to flow with water after standing. It is a prescription example regarding a type drain pipe cleaning agent, prescription example 5 is a prescription example regarding a tablet type drain pipe cleaning agent, and prescription example 6 is a prescription example regarding a liquid type drain pipe cleaning agent.

(Formulation Example 1: Toilet Detergent / Bathroom Detergent (Liquid Type))
Polylysine 50% powder 40% by weight
Fatty acid potassium 5% by weight
Sodium carbonate 2% by weight
Ion exchange water 53 wt%
Total 100% by weight

(Formulation Example 2: Toilet Detergent / Bathroom Detergent (Powder Type))
Polylysine 50% powder 50% by weight
Citric acid 23% by weight
Sodium bicarbonate 21% by weight
Sodium carbonate 5% by weight
Sodium lauryl sulfoacetate 1% by weight
Total 100% by weight

(Formulation example 3: Kitchen detergent (liquid type))
Polylysine 50% powder 30% by weight
Palm oil fatty acid diethanolamide 5% by weight
Alkyl polyglucoside 20% by weight
Sodium xylene sulfonate 2% by weight
43% by weight of ion exchange water
Total 100% by weight

(Formulation example 4: Drainage pipe cleaning agent (powder type))
Polylysine 50% powder 40% by weight
Citric acid 27% by weight
Sodium bicarbonate 27% by weight
Sodium carbonate 6% by weight
Total 100% by weight

(Formulation example 5: Drainage pipe cleaner (tablet type))
Polylysine 50% powder 20% by weight
Sodium carbonate 14% by weight
Sodium bicarbonate 30% by weight
Citric acid 36% by weight
Total 100% by weight

(Formulation Example 6: Drainage pipe cleaner (liquid type))
Polylysine 50% powder 30% by weight
Sodium alkylbenzene sulfonate 5% by weight
Xanthan gum 0.5% by weight
Ethylene glycol 5% by weight
Ion-exchanged water 59.5% by weight
Total 100% by weight

Claims (2)

The following general formula (1)

(In the formula, n is an integer of 2 or more.)
Containing a biofilm remover comprising polylysine represented by
The biofilm removing composition, wherein the concentration of polylysine in the biofilm remover when used is 0.05 to 25% by weight. The composition for removing a biofilm according to claim 1, wherein the concentration of polylysine in the biofilm remover when used is 0.5 to 25% by weight.