WO2015125921A1 - Medical aqueous composition having preservative effectiveness - Google Patents
Medical aqueous composition having preservative effectiveness Download PDFInfo
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- WO2015125921A1 WO2015125921A1 PCT/JP2015/054803 JP2015054803W WO2015125921A1 WO 2015125921 A1 WO2015125921 A1 WO 2015125921A1 JP 2015054803 W JP2015054803 W JP 2015054803W WO 2015125921 A1 WO2015125921 A1 WO 2015125921A1
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- pharmaceutical composition
- aqueous pharmaceutical
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- preservative
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K47/00—Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient
- A61K47/06—Organic compounds, e.g. natural or synthetic hydrocarbons, polyolefins, mineral oil, petrolatum or ozokerite
- A61K47/20—Organic compounds, e.g. natural or synthetic hydrocarbons, polyolefins, mineral oil, petrolatum or ozokerite containing sulfur, e.g. dimethyl sulfoxide [DMSO], docusate, sodium lauryl sulfate or aminosulfonic acids
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K47/00—Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient
- A61K47/06—Organic compounds, e.g. natural or synthetic hydrocarbons, polyolefins, mineral oil, petrolatum or ozokerite
- A61K47/08—Organic compounds, e.g. natural or synthetic hydrocarbons, polyolefins, mineral oil, petrolatum or ozokerite containing oxygen, e.g. ethers, acetals, ketones, quinones, aldehydes, peroxides
- A61K47/12—Carboxylic acids; Salts or anhydrides thereof
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K47/00—Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient
- A61K47/06—Organic compounds, e.g. natural or synthetic hydrocarbons, polyolefins, mineral oil, petrolatum or ozokerite
- A61K47/16—Organic compounds, e.g. natural or synthetic hydrocarbons, polyolefins, mineral oil, petrolatum or ozokerite containing nitrogen, e.g. nitro-, nitroso-, azo-compounds, nitriles, cyanates
- A61K47/18—Amines; Amides; Ureas; Quaternary ammonium compounds; Amino acids; Oligopeptides having up to five amino acids
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K9/00—Medicinal preparations characterised by special physical form
- A61K9/0012—Galenical forms characterised by the site of application
- A61K9/0048—Eye, e.g. artificial tears
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P27/00—Drugs for disorders of the senses
- A61P27/02—Ophthalmic agents
Definitions
- the present invention is a pharmaceutical product that has excellent preservative effect even when preservatives such as benzalkonium chloride and parabens are blended at a low concentration or not at all, and is hypoallergenic for diseases and troubled eyes. It relates to an aqueous composition.
- additives such as buffering agents, isotonic agents, preservatives, stabilizers, pH adjusters and the like are generally blended with eye drops.
- the eye drops are used up in a single administration, so that it is not necessary to add a preservative.
- the multi-dose type is used in small amounts over a long period of time. Therefore, a multidose type eye drop that is frequently administered even after opening is often blended with a preservative from the viewpoint of preventing contamination due to contamination with microorganisms.
- Common preservatives used in eye drops include quaternary ammonium salts such as benzalkonium chloride, paraoxybenzoates, chlorobutanol, etc., of which the most frequently used Is benzalkonium chloride.
- Benzalkonium chloride denatures the structure of the cell membrane by binding to phospholipids constituting the cell membrane of microorganisms and exerts a strong antibacterial effect.
- Benzalkonium chloride has not only an excellent antibacterial effect, but also has a feature that it is chemically stable and has a high solubility in water. Such a feature is also preserved in aqueous pharmaceutical compositions. This is the reason why those skilled in the art choose benzalkonium chloride as the agent.
- benzalkonium chloride is known to act on cells other than microorganisms. That is, it is known that when benzalkonium chloride is added as a preservative in eye drops, it acts on corneal epithelial cells and induces corneal epithelial damage. Therefore, in order to reduce the influence of benzalkonium chloride on corneal epithelial cells, it has been frequently performed to reduce the concentration of benzalkonium chloride to be blended in the ophthalmic aqueous composition.
- Patent Document 2 As an alternative to benzalkonium chloride, there is an invention that has a preservative effect without combining a preservative in an ophthalmic composition by combining several additives that are not preservatives. Combinations are mentioned (Patent Document 2).
- cysteine is L-cysteine (also known as 2-amino-3-mercaptopropionic acid) (Non-patent Document 2) or L-cysteine hydrochloride hydrate (Non-patent Document 3).
- L-cysteine also known as 2-amino-3-mercaptopropionic acid
- Non-patent Document 3 L-cysteine hydrochloride hydrate
- it is blended for uses such as a stabilizer of the active ingredient (also referred to as a stabilizer, hereinafter the same) and a solubilizer.
- malic acid refers to DL-malic acid, and is generally formulated for use as an active ingredient stabilizer, buffering agent, flavoring agent, coating agent, etc. Patent Document 2).
- the combination of cysteine and malic acid shown in the present invention can be used to add a preservative to an aqueous pharmaceutical composition without adding a preservative. It is not known at all to have the same preservative effect as when blended, and there is no known aqueous pharmaceutical composition formulated in such a combination.
- the problem to be solved by the present invention is to replace preservatives, particularly benzalkonium chloride, which are currently blended in aqueous pharmaceutical compositions with additives that exhibit preservative effects without causing side effects peculiar to preservatives. And a pharmaceutical aqueous composition containing an additive or a combination of additives and additives that exhibit preservative effects without causing side effects peculiar to preservatives. It is to provide a composition, especially an ophthalmic aqueous composition.
- the present invention relates to a method for blending cysteine and malic acid, which are additives, in order to obtain an aqueous pharmaceutical composition that is compatible with a storage efficacy test, a combination of additives having storage efficacy, and the aforementioned aqueous pharmaceutical composition Is to provide.
- an aqueous pharmaceutical composition comprising (A) cysteine and (B) malic acid.
- aqueous pharmaceutical composition according to ⁇ 1> wherein (A) cysteine / (B) malic acid (concentration ratio) in the composition is 0.001 to 300.
- concentration ratio concentration ratio
- B The aqueous pharmaceutical composition according to any one of ⁇ 1> to ⁇ 3>, wherein the malic acid concentration is 0.01 to 1.0 (w / v%).
- ⁇ 5> The aqueous pharmaceutical composition according to any one of ⁇ 1> to ⁇ 4>, wherein the pH is 3.0 to 9.0.
- ⁇ 6> The aqueous pharmaceutical composition according to any one of ⁇ 1> to ⁇ 5>, which does not contain a preservative.
- the buffer is selected from the group consisting of boric acid, phosphoric acid, citric acid, ⁇ -aminocaproic acid, acetic acid, tartaric acid, trometamol and pharmaceutically acceptable salts thereof or hydrates thereof.
- the aqueous pharmaceutical composition according to any one of ⁇ 1> to ⁇ 6> comprising at least one kind.
- aqueous pharmaceutical composition according to any one of ⁇ 1> to ⁇ 7>, which is in the form of an aqueous ophthalmic composition.
- a method of imparting storage efficacy to an aqueous pharmaceutical composition comprising adding (A) cysteine and (B) malic acid to the aqueous pharmaceutical composition.
- a preservative for an aqueous pharmaceutical composition comprising (A) cysteine and (B) malic acid.
- the aqueous pharmaceutical composition of the present invention has a preservative effect even if it does not contain a preservative that causes factors such as corneal damage, particularly benzalkonium chloride, and therefore, for example, a drug is administered over a long period of time such as glaucoma or allergy. It hardly affects the cornea etc. of patients with the necessary symptoms.
- the aqueous pharmaceutical composition of the present invention can be used as an ophthalmic composition such as artificial tears, contact lens mounting liquids, and eye drops by taking advantage of its characteristics, and can also be used as injections, oral preparations, ear drops. It can also be used in the form of agents, nasal drops, coating agents and the like.
- the preservative is added to a multi-dose type pharmaceutical product for the purpose of preventing microbial contamination, and has a sufficient bactericidal action against bacteria and fungi. It refers to those that show side effects by increasing permeability, causing membrane disruption and cytoplasmic degeneration, leading to inhibition of cell proliferation, decreased cell adhesion, and the development of hypersensitivity.
- the preservative causes a change in formulation with the main agent and other additives, or the preservative itself is not stable against heating and long-term storage.
- the preservative include parabens such as quaternary ammonium salts and paraoxybenzoic acid esters such as benzalkonium chloride and benzethonium chloride, and chlorobutanol.
- the preservative refers to a substance different from the preservative.
- the preservative in the present specification has a broad antibacterial spectrum against gram-negative bacteria, gram-positive bacteria, fungi, etc. without causing problems in side effects and pharmaceutical stability like the above-mentioned preservatives, and promotes the growth of microorganisms. It refers to those that can be blocked and are water-soluble and exhibit the storage stability of pharmaceuticals.
- the preservative is less irritating at the time of administration, does not cause damage to the administered tissue, and does not cause an allergic reaction due to long-term use.
- a preservative refers to a combination of cysteine and malic acid.
- Cysteine used in the present invention is L-cysteine and pharmaceutically acceptable salts.
- examples of the pharmaceutically acceptable salt of L-cysteine include L-cysteine hydrochloride.
- the concentration of cysteine is usually 0.001 to 3.0 (w / v%), and is preferably 0.001 to 1.0 (w / v) because cysteine is completely dissolved and stable in an aqueous solution. v%), more preferably 0.001 to 0.3 (w / v%).
- the malic acid used in the present invention is DL-malic acid.
- the concentration of malic acid is usually 0.01 to 1.0 (w / v%), preferably 0.05 to 1.0 (w / v%), more preferably 0.1 to 1.0 (w / v%). w / v%).
- the ratio of (A) cysteine concentration and (B) malic acid concentration used in the present invention is expressed as (A) / (B).
- (A) / (B) is not particularly limited as long as the effect of the present invention can be obtained, but is usually 0.001 to 300, and cysteine and malic acid are completely dissolved in an aqueous solution. In order to achieve this, it is preferably 0.001 to 20, more preferably 0.001 to 3.
- the buffer used in the present invention is not particularly limited as long as the effects of the present invention are obtained, but boric acid, phosphoric acid, citric acid, ⁇ -aminocaproic acid, acetic acid, tartaric acid, trometamol, and pharmaceutically acceptable salts thereof. Or at least one selected from the group consisting of hydrates thereof.
- the pH of the aqueous pharmaceutical composition in the present invention is usually 3.0 to 9.0, preferably 5.0 to 8.0, more preferably 5.5 to 8. .0.
- various pH adjusting agents that are usually added can be used.
- the acids include ascorbic acid, hydrochloric acid, glucuronic acid, gluconic acid, acetic acid, lactic acid, phosphoric acid, sodium dihydrogen phosphate, sulfuric acid, citric acid, malic acid, tartaric acid and the like.
- the base include borax, potassium hydroxide, calcium hydroxide, sodium hydroxide, magnesium hydroxide and the like.
- examples of other pH adjusters include amino acids such as glycine, histidine, and epsilon aminocaproic acid.
- aqueous pharmaceutical composition of the present invention In preparing the aqueous pharmaceutical composition of the present invention, pharmaceutically acceptable isotonic agents, solubilizers, thickeners, stabilizers, etc., if necessary, do not impair the effects of the present invention. It can be added to the aqueous pharmaceutical composition of the present invention within a range.
- the isotonic agent include sugars such as glucose, sugar alcohols such as mannitol, sorbitol, and xylitol, propylene glycol, glycerin, sodium chloride, potassium chloride and the like. Sodium chloride and propylene glycol are preferred.
- solubilizer examples include polysorbate (for example, polysorbate 80), polyoxyethylene castor oil, polyoxyethylene hydrogenated castor oil, polyoxyl stearate (for example, polyoxyl 40 stearate), tyloxapol, polyethylene glycol and the like. You may use these solubilization individually or in combination of 2 or more types.
- Other additives include water-soluble polymers (eg, viscous agents such as methylcellulose and povidone K25), ethylenediaminetetraacetic acid and their pharmaceutically acceptable salts, tocopherol and its derivatives, taurine, epsilon aminocaproic acid, sulfite. Stabilizers such as sodium can be mentioned.
- the osmotic pressure ratio of the aqueous pharmaceutical composition of the present invention is not particularly limited as long as the effects of the present invention are obtained, but is usually 0.5 to 2.0, preferably 0.7 to 1.6, more preferably Is 0.8 to 1.3, most preferably 0.9 to 1.2.
- the aqueous pharmaceutical composition of the present invention includes a dry eye therapeutic agent, a corneal injury healing agent, a glaucoma therapeutic agent, an anti-inflammatory agent, an allergy therapeutic agent, a mydriatic agent, an ophthalmic surface anesthetic agent, a cataract therapeutic agent or an antibacterial agent
- a dry eye therapeutic agent a corneal injury healing agent, a glaucoma therapeutic agent, an anti-inflammatory agent, an allergy therapeutic agent, a mydriatic agent, an ophthalmic surface anesthetic agent, a cataract therapeutic agent or an antibacterial agent
- a variety of drugs can be indicated.
- the aqueous pharmaceutical composition of the present invention preferably contains no preservative. If the concentration is as low as about 0.001 to 0.003 w / v%, the side effects caused by the preservatives can be significantly reduced, and may be included. Since the aqueous pharmaceutical composition of the present invention exhibits a preservative effect without containing a preservative, it can be used as a multi-dose type or a mono-dose type. For the same reason, the container for storing the aqueous pharmaceutical composition of the present invention is not particularly limited.
- an aqueous pharmaceutical composition of the present invention was prepared and a storage efficacy test was conducted.
- the storage efficacy was confirmed by a storage efficacy test.
- the test procedure for the preservation efficacy test was based on the 16th revised Japanese Pharmacopoeia Manual, reference information, and the preservation efficacy test method.
- Three kinds of bacteria Esscherichia coli, Pseudomonas aeruginosa, Staphylococcus aureus
- two kinds of fungi Candida albicans, Aspergillus brasiliensis
- These cultured cells were collected aseptically, and a suspension containing about 10 8 cells / mL viable bacteria or spores was used as each inoculum.
- Comparative Example 1 is a composition containing cysteine but not malic acid. Comparative Example 1 met the 7th day in the storage efficacy test, but failed on the 14th day. From the determination on the 7th day, it was shown that the boric acid formulation of Comparative Example 1 had a storage effect, albeit slightly. Comparative Example 2 contains cysteine but does not contain malic acid, and is further added with EDTA (sodium edetate hydrate), which is used as a stabilizer. However, even in Comparative Example 2 to which EDTA was added, in the storage efficacy test, it matched on the 7th day, but it showed non-conformity on the 14th day. From the above, it was found that, in the formulation containing cysteine as in Comparative Examples 1 and 2, but not containing malic acid, it was necessary to add a preservative or the like in order to have sufficient storage efficacy.
- EDTA sodium edetate hydrate
- Examples 1 to 8 which are the compositions of the present invention, have a preservative effect without adding a preservative such as benzalkonium chloride.
- Example 2 According to Table 2, arbitrary components were added to 80 mL of purified water and dissolved. After adjusting this solution to a predetermined pH, purified water was added to make up the volume to make 100 mL of a colorless and clear solution. Subsequently, Examples 9 to 21 were prepared by filtration sterilization with a membrane filter.
- composition of the present invention was optimal over a wide pH range from basic to acidic.
- Example 3 According to Table 3, each component was added to 80 mL of purified water and dissolved. After adjusting the pH of this liquid appropriately, purified water was added to make up the volume to make 100 mL of a colorless and clear solution. Then, Examples 22 to 26 were obtained by sterilizing by filtration with a membrane filter.
- the present invention can also be effective when a solubilizer such as polysorbate 80 or polyoxyl 40 stearate, a stabilizer such as EDTA, or a thickener such as methylcellulose or povidone is further added. Indicated.
- a solubilizer to the present invention even when a poorly soluble active ingredient is selected as a drug to be included in the composition of the present invention. It can be dispersed evenly, suggesting that it can have excellent storage stability.
- a thickening agent to the present invention means that in the composition of the present invention, the increase in the retention at the administration site increases the sustainability and migration of the active ingredient, and the bioactivity of the active ingredient. This suggests that it is possible to improve availability. From the above, it was found that the composition of the present invention can be provided as a highly versatile base.
- Example 4 According to Table 4, each component was added to 80 mL of purified water and dissolved, and then any amount of purified sodium hyaluronate, travoprost, timolol maleate, diclofenac sodium, acitazanolast hydrate or moxifloxacin hydrochloride Salt was added to dissolve. After adjusting the pH of this liquid appropriately, purified water was added to make up the volume to make 100 mL of a colorless and clear solution. Then, Examples 27-32 were those sterilized by filtration with a membrane filter.
- the composition of the present invention did not show a phenomenon that the storage efficacy was lowered due to the change in the composition in an aqueous solution even when a drug selected as an active ingredient of a pharmaceutical was added. It has been found that the present invention can be widely used as pharmaceutical preparations.
- Examples 33 and 34 were prepared according to Table 5. As Comparative Examples 3 and 4, 0.002% and 0.005% benzalkonium chloride aqueous solutions were selected, respectively.
- Human corneal epithelial cells (product name: Human Corneal Epithelial Cell (HCE-T), RIKEN BioResource Center) were used as test materials. In addition, a total of five drug solutions were used: Examples 33 and 34, Comparative Examples 3 and 4, and phosphate buffered saline (PBS) as a negative control.
- SHEM modified medium DMEM / F-12 (1: 1) + 1% PS + 10 ng / mL EGF + 5 ⁇ g / mL insulin + 0.5% DMSO containing 5% FBS
- each drug solution had a total of 6 wells.
- the contact time is 1, 2, 5 or 10 minutes.
- the wells are washed with PBS, and each well has a reagent for measuring the cell number (Product name: Cell counting kit-8, Dojin Chemical Research Co., Ltd.). 10 ⁇ L each) was added.
- the absorbance at 450 nm was measured using a microplate reader (device name: Infinite M200 PRO, manufactured by TECAN).
- the cell viability (%) was calculated from the absorbances of Examples 33 and 34 and Comparative Examples 3 and 4 with the absorbance of the negative control as 100. The test results are shown in FIG.
- Comparative Examples 3 and 4 cell viability decreased with increasing contact time. Further, even when the contact time was the same, Comparative Example 4 having a higher concentration of the preservative showed lower cell viability than Comparative Example 3. On the other hand, in Examples 33 and 34 of the present invention, the cell viability was higher than in Comparative Examples 3 and 4, and the cell viability was not significantly reduced with the increase in contact time.
- Example 35 was prepared according to Table 6. As Comparative Example 5, a 0.01% benzalkonium chloride aqueous solution was selected.
- Example 35 For Example 35 and Comparative Example 5, corneal epithelial disorder in white rabbits was confirmed.
- Example 35 and Comparative Example 5 Male Japanese white rabbits were used as test animals. A total of two chemical solutions of Example 35 and Comparative Example 5 were used. Example 35 and Comparative Example 5 were instilled into 4 eyes of each test animal at 50 ⁇ L, 3 times a day, 4 hours apart for 15 days. After instillation for 15 days, the corneas of the test animals were stained with fluorescein, and excess fluorescein was washed away with physiological saline. The stained spots of the cornea were observed, and photographs were taken in the dark state (under blue light irradiation). A photograph is shown in FIG.
- Example 35 of the present invention no staining spots were observed in all four eyes, and no corneal epithelial disorder was observed.
- Example 35 which did not contain a general preservative showed no corneal epithelial disorder. Thus, it was speculated that Example 35 had a lower risk of developing corneal epithelial disorder during clinical use than Comparative Example 5. From the above, it was shown that the composition of the present invention has a preservative effect without adding a preservative, and thus is a highly safe aqueous pharmaceutical composition with reduced side effects.
- aqueous medicinal composition having a preservative effect without adding a preservative such as benzalkonium chloride or parabens.
- the aqueous pharmaceutical composition provided by the present invention can reduce corneal damage caused by preservatives by adapting it to a liquid preparation such as an eye wash or eye drops.
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Abstract
The present invention provides a medical aqueous composition which contains cysteine and malic acid and therefore has preservative effectiveness, and which is mildly irritative. The medical aqueous composition according to the present invention can additionally contain an additive that can be added to a medical aqueous composition, such as a buffering agent and a tonicity agent, and can optionally contain a medicinal agent.
Description
本発明は、ベンザルコニウム塩化物やパラベン類などの防腐剤を低濃度に配合し又は全く配合しなくとも保存効力に優れ、かつ、疾患やトラブルのある眼などに低刺激性である医薬用水性組成物に関するものである。
The present invention is a pharmaceutical product that has excellent preservative effect even when preservatives such as benzalkonium chloride and parabens are blended at a low concentration or not at all, and is hypoallergenic for diseases and troubled eyes. It relates to an aqueous composition.
点眼剤には、一般に主薬の他、緩衝剤、等張化剤、防腐剤、安定化剤、pH調節剤等の添加物が配合されている。点眼剤は、モノドーズ型の場合、一回の投与で使い切るため、防腐剤を配合する必要がない。これに対し、マルチドーズ型の場合、長期にわたり少量ずつ使用される。よって、開封後も頻繁に投与するマルチドーズ型の点眼剤には、微生物の混入による汚染防止の観点から防腐剤を配合することが多い。点眼剤に配合される一般的な防腐剤としては、ベンザルコニウム塩化物等の第4級アンモニウム塩、パラオキシ安息香酸エステル類、クロロブタノール等があり、この中で最も頻繁に配合されているものはベンザルコニウム塩化物である。
In addition to the main drug, additives such as buffering agents, isotonic agents, preservatives, stabilizers, pH adjusters and the like are generally blended with eye drops. In the case of the monodose type, the eye drops are used up in a single administration, so that it is not necessary to add a preservative. In contrast, the multi-dose type is used in small amounts over a long period of time. Therefore, a multidose type eye drop that is frequently administered even after opening is often blended with a preservative from the viewpoint of preventing contamination due to contamination with microorganisms. Common preservatives used in eye drops include quaternary ammonium salts such as benzalkonium chloride, paraoxybenzoates, chlorobutanol, etc., of which the most frequently used Is benzalkonium chloride.
ベンザルコニウム塩化物は、微生物の細胞膜を構成するリン脂質に結合することで細胞膜の構造を変性させ、強い抗菌効果を発揮する。また、ベンザルコニウム塩化物は抗菌効果が優れているだけでなく、化学的に安定で、かつ、水に対する溶解性が高いといった特徴を有し、このような特徴も医薬用水性組成物において防腐剤として当業者がベンザルコニウム塩化物を選択する理由になっている。
しかし、ベンザルコニウム塩化物は微生物以外の細胞に対しても作用することが知られている。即ち、点眼剤において防腐剤としてベンザルコニウム塩化物を配合した場合、角膜上皮細胞に作用し、角膜上皮障害を誘発することがあることが知られている。そのため、角膜上皮細胞に対するベンザルコニウム塩化物の影響を低減化させるために、眼科用水性組成物に配合するベンザルコニウム塩化物を低濃度とすることが頻繁に行われてきている。 Benzalkonium chloride denatures the structure of the cell membrane by binding to phospholipids constituting the cell membrane of microorganisms and exerts a strong antibacterial effect. Benzalkonium chloride has not only an excellent antibacterial effect, but also has a feature that it is chemically stable and has a high solubility in water. Such a feature is also preserved in aqueous pharmaceutical compositions. This is the reason why those skilled in the art choose benzalkonium chloride as the agent.
However, benzalkonium chloride is known to act on cells other than microorganisms. That is, it is known that when benzalkonium chloride is added as a preservative in eye drops, it acts on corneal epithelial cells and induces corneal epithelial damage. Therefore, in order to reduce the influence of benzalkonium chloride on corneal epithelial cells, it has been frequently performed to reduce the concentration of benzalkonium chloride to be blended in the ophthalmic aqueous composition.
しかし、ベンザルコニウム塩化物は微生物以外の細胞に対しても作用することが知られている。即ち、点眼剤において防腐剤としてベンザルコニウム塩化物を配合した場合、角膜上皮細胞に作用し、角膜上皮障害を誘発することがあることが知られている。そのため、角膜上皮細胞に対するベンザルコニウム塩化物の影響を低減化させるために、眼科用水性組成物に配合するベンザルコニウム塩化物を低濃度とすることが頻繁に行われてきている。 Benzalkonium chloride denatures the structure of the cell membrane by binding to phospholipids constituting the cell membrane of microorganisms and exerts a strong antibacterial effect. Benzalkonium chloride has not only an excellent antibacterial effect, but also has a feature that it is chemically stable and has a high solubility in water. Such a feature is also preserved in aqueous pharmaceutical compositions. This is the reason why those skilled in the art choose benzalkonium chloride as the agent.
However, benzalkonium chloride is known to act on cells other than microorganisms. That is, it is known that when benzalkonium chloride is added as a preservative in eye drops, it acts on corneal epithelial cells and induces corneal epithelial damage. Therefore, in order to reduce the influence of benzalkonium chloride on corneal epithelial cells, it has been frequently performed to reduce the concentration of benzalkonium chloride to be blended in the ophthalmic aqueous composition.
最近では、ベンザルコニウム塩化物の配合濃度を低くするだけでなく、ベンザルコニウム塩化物に代わる防腐剤が盛んに検討されている。例えば、現在国内では、Sofzia(登録商標)(塩化亜鉛及びホウ酸を含む緩衝剤システム、特許文献1、非特許文献1)や、塩化ポリドロニウムや、Purite(登録商標)(亜塩素酸ナトリウム)をベンザルコニウム塩化物に代わる防腐剤として配合した点眼剤が上市されている。
Recently, not only reducing the blending concentration of benzalkonium chloride, but preservatives replacing benzalkonium chloride have been actively studied. For example, currently in Japan, Sofzia (registered trademark) (buffering system containing zinc chloride and boric acid, Patent Document 1, Non-Patent Document 1), Polydronium chloride, Purite (registered trademark) (sodium chlorite) Eye drops formulated as a preservative to replace benzalkonium chloride are on the market.
また、ベンザルコニウム塩化物に代わるものとして、防腐剤ではない幾つかの添加物を組み合わせることにより、眼科用組成物に防腐剤を配合しなくとも保存効力を有する発明があり、トロメタモールと弱酸の組み合わせが挙げられている(特許文献2)。
In addition, as an alternative to benzalkonium chloride, there is an invention that has a preservative effect without combining a preservative in an ophthalmic composition by combining several additives that are not preservatives. Combinations are mentioned (Patent Document 2).
一方、医薬用組成物の添加剤として、システインはL‐システイン(別名:2‐アミノ‐3‐メルカプトプロピオン酸)(非特許文献2)又はL‐システイン塩酸塩水和物(非特許文献3)のことを指し、一般的には、主薬の安定化剤(安定剤ともいう。以降、同じ)、可溶化剤等の用途で配合されている。
On the other hand, as an additive for a pharmaceutical composition, cysteine is L-cysteine (also known as 2-amino-3-mercaptopropionic acid) (Non-patent Document 2) or L-cysteine hydrochloride hydrate (Non-patent Document 3). In general, it is blended for uses such as a stabilizer of the active ingredient (also referred to as a stabilizer, hereinafter the same) and a solubilizer.
医薬用組成物の添加剤として、リンゴ酸はDL-リンゴ酸のことを指し、一般的には、主薬の安定化剤、緩衝剤、矯味剤、コーティング剤等の用途で配合されている(非特許文献2)。
As an additive for a pharmaceutical composition, malic acid refers to DL-malic acid, and is generally formulated for use as an active ingredient stabilizer, buffering agent, flavoring agent, coating agent, etc. Patent Document 2).
しかし、前記のような一般的な添加剤として用途が知られていたとしても、本発明に示すシステインとリンゴ酸の組み合わせによって、防腐剤を配合しなくとも、医薬用水性組成物に防腐剤を配合した場合と同様の保存効力を持つことは全く知られておらず、またそのように組み合わせて配合した医薬用水性組成物についても知られていない。
However, even if the use is known as a general additive as described above, the combination of cysteine and malic acid shown in the present invention can be used to add a preservative to an aqueous pharmaceutical composition without adding a preservative. It is not known at all to have the same preservative effect as when blended, and there is no known aqueous pharmaceutical composition formulated in such a combination.
本発明の解決しようとする課題は、現在医薬用水性組成物に配合されている防腐剤、特にベンザルコニウム塩化物に代わって、防腐剤特有の副作用を生じることなく保存効力を発揮する添加物を複雑な調剤工程を要することなく医薬用水性組成物に配合する方法、並びに防腐剤特有の副作用を生じることなく保存効力を発揮する添加物又は添加物の組み合わせ及び添加物を配合した医薬用水性組成物、なかでも眼科用水性組成物を提供することである。
The problem to be solved by the present invention is to replace preservatives, particularly benzalkonium chloride, which are currently blended in aqueous pharmaceutical compositions with additives that exhibit preservative effects without causing side effects peculiar to preservatives. And a pharmaceutical aqueous composition containing an additive or a combination of additives and additives that exhibit preservative effects without causing side effects peculiar to preservatives. It is to provide a composition, especially an ophthalmic aqueous composition.
本発明は、添加物であるシステイン及びリンゴ酸を、保存効力試験に適合可能な医薬用水性組成物を得るために配合する方法、保存効力を有する添加物の組み合わせ及び前記の医薬用水性組成物を提供することである。
The present invention relates to a method for blending cysteine and malic acid, which are additives, in order to obtain an aqueous pharmaceutical composition that is compatible with a storage efficacy test, a combination of additives having storage efficacy, and the aforementioned aqueous pharmaceutical composition Is to provide.
即ち本発明は、
<1>(A)システイン及び(B)リンゴ酸を含有することを特徴とする医薬用水性組成物。
<2>組成物中の(A)システイン/(B)リンゴ酸(濃度比)=0.001~300である<1>に記載の医薬用水性組成物。
<3>(A)システインの濃度が、0.001~3.0(w/v%)である<1>又は<2>に記載の医薬用水性組成物。
<4>(B)リンゴ酸の濃度が、0.01~1.0(w/v%)である<1>~<3>のいずれかに記載の医薬用水性組成物。
<5>pHが3.0~9.0である<1>~<4>のいずれかに記載の医薬用水性組成物。
<6>防腐剤を含有しない<1>~<5>のいずれかに記載の医薬用水性組成物。
<7>さらに、緩衝剤として、ホウ酸、リン酸、クエン酸、ε‐アミノカプロン酸、酢酸、酒石酸、トロメタモール及びそれらの薬学的に許容される塩又はそれらの水和物からなる群から選ばれる少なくとも1種を含有する、<1>~<6>のいずれかに記載の医薬用水性組成物。
<8>眼科用水性組成物の形態にある<1>~<7>のいずれかに記載の医薬用水性組成物。
<9>(A)システイン及び(B)リンゴ酸を医薬用水性組成物に添加することを含む、医薬用水性組成物に保存効力を付与する方法。
<10>医薬用水性組成物に、(A)システイン及び(B)リンゴ酸を含ませることにより保存効力を得る方法。
<11>(A)システイン及び(B)リンゴ酸を含有することを特徴とする医薬用水性組成物用保存剤。 That is, the present invention
<1> An aqueous pharmaceutical composition comprising (A) cysteine and (B) malic acid.
<2> The aqueous pharmaceutical composition according to <1>, wherein (A) cysteine / (B) malic acid (concentration ratio) in the composition is 0.001 to 300.
<3> The aqueous pharmaceutical composition according to <1> or <2>, wherein the concentration of (A) cysteine is 0.001 to 3.0 (w / v%).
<4> (B) The aqueous pharmaceutical composition according to any one of <1> to <3>, wherein the malic acid concentration is 0.01 to 1.0 (w / v%).
<5> The aqueous pharmaceutical composition according to any one of <1> to <4>, wherein the pH is 3.0 to 9.0.
<6> The aqueous pharmaceutical composition according to any one of <1> to <5>, which does not contain a preservative.
<7> Further, the buffer is selected from the group consisting of boric acid, phosphoric acid, citric acid, ε-aminocaproic acid, acetic acid, tartaric acid, trometamol and pharmaceutically acceptable salts thereof or hydrates thereof. The aqueous pharmaceutical composition according to any one of <1> to <6>, comprising at least one kind.
<8> The aqueous pharmaceutical composition according to any one of <1> to <7>, which is in the form of an aqueous ophthalmic composition.
<9> A method of imparting storage efficacy to an aqueous pharmaceutical composition, comprising adding (A) cysteine and (B) malic acid to the aqueous pharmaceutical composition.
<10> A method for obtaining preservation efficacy by including (A) cysteine and (B) malic acid in an aqueous pharmaceutical composition.
<11> A preservative for an aqueous pharmaceutical composition comprising (A) cysteine and (B) malic acid.
<1>(A)システイン及び(B)リンゴ酸を含有することを特徴とする医薬用水性組成物。
<2>組成物中の(A)システイン/(B)リンゴ酸(濃度比)=0.001~300である<1>に記載の医薬用水性組成物。
<3>(A)システインの濃度が、0.001~3.0(w/v%)である<1>又は<2>に記載の医薬用水性組成物。
<4>(B)リンゴ酸の濃度が、0.01~1.0(w/v%)である<1>~<3>のいずれかに記載の医薬用水性組成物。
<5>pHが3.0~9.0である<1>~<4>のいずれかに記載の医薬用水性組成物。
<6>防腐剤を含有しない<1>~<5>のいずれかに記載の医薬用水性組成物。
<7>さらに、緩衝剤として、ホウ酸、リン酸、クエン酸、ε‐アミノカプロン酸、酢酸、酒石酸、トロメタモール及びそれらの薬学的に許容される塩又はそれらの水和物からなる群から選ばれる少なくとも1種を含有する、<1>~<6>のいずれかに記載の医薬用水性組成物。
<8>眼科用水性組成物の形態にある<1>~<7>のいずれかに記載の医薬用水性組成物。
<9>(A)システイン及び(B)リンゴ酸を医薬用水性組成物に添加することを含む、医薬用水性組成物に保存効力を付与する方法。
<10>医薬用水性組成物に、(A)システイン及び(B)リンゴ酸を含ませることにより保存効力を得る方法。
<11>(A)システイン及び(B)リンゴ酸を含有することを特徴とする医薬用水性組成物用保存剤。 That is, the present invention
<1> An aqueous pharmaceutical composition comprising (A) cysteine and (B) malic acid.
<2> The aqueous pharmaceutical composition according to <1>, wherein (A) cysteine / (B) malic acid (concentration ratio) in the composition is 0.001 to 300.
<3> The aqueous pharmaceutical composition according to <1> or <2>, wherein the concentration of (A) cysteine is 0.001 to 3.0 (w / v%).
<4> (B) The aqueous pharmaceutical composition according to any one of <1> to <3>, wherein the malic acid concentration is 0.01 to 1.0 (w / v%).
<5> The aqueous pharmaceutical composition according to any one of <1> to <4>, wherein the pH is 3.0 to 9.0.
<6> The aqueous pharmaceutical composition according to any one of <1> to <5>, which does not contain a preservative.
<7> Further, the buffer is selected from the group consisting of boric acid, phosphoric acid, citric acid, ε-aminocaproic acid, acetic acid, tartaric acid, trometamol and pharmaceutically acceptable salts thereof or hydrates thereof. The aqueous pharmaceutical composition according to any one of <1> to <6>, comprising at least one kind.
<8> The aqueous pharmaceutical composition according to any one of <1> to <7>, which is in the form of an aqueous ophthalmic composition.
<9> A method of imparting storage efficacy to an aqueous pharmaceutical composition, comprising adding (A) cysteine and (B) malic acid to the aqueous pharmaceutical composition.
<10> A method for obtaining preservation efficacy by including (A) cysteine and (B) malic acid in an aqueous pharmaceutical composition.
<11> A preservative for an aqueous pharmaceutical composition comprising (A) cysteine and (B) malic acid.
本発明の医薬用水性組成物は、角膜障害などの要因となる防腐剤、特にベンザルコニウム塩化物を含まなくとも保存効力を有するため、例えば緑内障やアレルギーのような長期間にわたり薬物を投与する必要がある症状を持つ患者の角膜などへ影響を及ぼすことが殆どない。
The aqueous pharmaceutical composition of the present invention has a preservative effect even if it does not contain a preservative that causes factors such as corneal damage, particularly benzalkonium chloride, and therefore, for example, a drug is administered over a long period of time such as glaucoma or allergy. It hardly affects the cornea etc. of patients with the necessary symptoms.
本発明の医薬用水性組成物は、その特性を生かして、人工涙液、コンタクトレンズの装着液及び点眼剤などの眼科用組成物として使用することもできるし、注射剤、経口剤、点耳剤、点鼻剤、塗布剤などの形態で使用することもできる。
本明細書において、防腐剤とは、マルチドーズ型の医薬品に、微生物汚染を防止する目的で添加するものであって、細菌や真菌に対する十分な殺菌作用を有するものの、界面活性作用により、細胞膜の透過性を高め、膜破壊や細胞質の変性を起こし、細胞増殖の抑制、細胞接着性の低下、過敏症の発現などに結びついて、副作用を示すものを指す。 The aqueous pharmaceutical composition of the present invention can be used as an ophthalmic composition such as artificial tears, contact lens mounting liquids, and eye drops by taking advantage of its characteristics, and can also be used as injections, oral preparations, ear drops. It can also be used in the form of agents, nasal drops, coating agents and the like.
In the present specification, the preservative is added to a multi-dose type pharmaceutical product for the purpose of preventing microbial contamination, and has a sufficient bactericidal action against bacteria and fungi. It refers to those that show side effects by increasing permeability, causing membrane disruption and cytoplasmic degeneration, leading to inhibition of cell proliferation, decreased cell adhesion, and the development of hypersensitivity.
本明細書において、防腐剤とは、マルチドーズ型の医薬品に、微生物汚染を防止する目的で添加するものであって、細菌や真菌に対する十分な殺菌作用を有するものの、界面活性作用により、細胞膜の透過性を高め、膜破壊や細胞質の変性を起こし、細胞増殖の抑制、細胞接着性の低下、過敏症の発現などに結びついて、副作用を示すものを指す。 The aqueous pharmaceutical composition of the present invention can be used as an ophthalmic composition such as artificial tears, contact lens mounting liquids, and eye drops by taking advantage of its characteristics, and can also be used as injections, oral preparations, ear drops. It can also be used in the form of agents, nasal drops, coating agents and the like.
In the present specification, the preservative is added to a multi-dose type pharmaceutical product for the purpose of preventing microbial contamination, and has a sufficient bactericidal action against bacteria and fungi. It refers to those that show side effects by increasing permeability, causing membrane disruption and cytoplasmic degeneration, leading to inhibition of cell proliferation, decreased cell adhesion, and the development of hypersensitivity.
前記防腐剤は、前記副作用とは別に、主薬や他の添加剤と配合変化を起こしたり、防腐剤自身が加熱や長期保存に対して安定でなかったりする。前記防腐剤としては、具体的には、ベンザルコニウム塩化物、ベンゼトニウム塩化物等のような、第四級アンモニウム塩、パラオキシ安息香酸エステルなどのようなパラベン類、クロロブタノール等があげられる。
In addition to the side effects, the preservative causes a change in formulation with the main agent and other additives, or the preservative itself is not stable against heating and long-term storage. Specific examples of the preservative include parabens such as quaternary ammonium salts and paraoxybenzoic acid esters such as benzalkonium chloride and benzethonium chloride, and chlorobutanol.
本明細書において、保存剤は、前記防腐剤とは異なる物質を指す。本明細書における保存剤は、前記防腐剤のように副作用や医薬品の安定性に問題を生じることなく、グラム陰性菌、グラム陽性菌、真菌などに対し広い抗菌スペクトルを有し、微生物の発育を阻止することが出来、かつ、水溶性であり、医薬品の保存安定性を示すものを指す。
前記保存剤は、投与の際に刺激が少なく、投与する組織に障害を起こさないもの、長期使用によるアレルギー反応を起こさない。 In this specification, the preservative refers to a substance different from the preservative. The preservative in the present specification has a broad antibacterial spectrum against gram-negative bacteria, gram-positive bacteria, fungi, etc. without causing problems in side effects and pharmaceutical stability like the above-mentioned preservatives, and promotes the growth of microorganisms. It refers to those that can be blocked and are water-soluble and exhibit the storage stability of pharmaceuticals.
The preservative is less irritating at the time of administration, does not cause damage to the administered tissue, and does not cause an allergic reaction due to long-term use.
前記保存剤は、投与の際に刺激が少なく、投与する組織に障害を起こさないもの、長期使用によるアレルギー反応を起こさない。 In this specification, the preservative refers to a substance different from the preservative. The preservative in the present specification has a broad antibacterial spectrum against gram-negative bacteria, gram-positive bacteria, fungi, etc. without causing problems in side effects and pharmaceutical stability like the above-mentioned preservatives, and promotes the growth of microorganisms. It refers to those that can be blocked and are water-soluble and exhibit the storage stability of pharmaceuticals.
The preservative is less irritating at the time of administration, does not cause damage to the administered tissue, and does not cause an allergic reaction due to long-term use.
本明細書における保存剤とは、システイン及びリンゴ酸の組み合わせを指す。
本発明に用いられるシステインとしては、L‐システイン及び薬学的に許容される塩である。L‐システインの薬学的に許容される塩としては、L-システイン塩酸塩等が挙げられる。システインの濃度は、通常0.001~3.0(w/v%)であり、システインが水溶液中で完全に溶解し、安定であるために、好ましくは0.001~1.0(w/v%)、より好ましくは0.001~0.3(w/v%)である。 As used herein, a preservative refers to a combination of cysteine and malic acid.
Cysteine used in the present invention is L-cysteine and pharmaceutically acceptable salts. Examples of the pharmaceutically acceptable salt of L-cysteine include L-cysteine hydrochloride. The concentration of cysteine is usually 0.001 to 3.0 (w / v%), and is preferably 0.001 to 1.0 (w / v) because cysteine is completely dissolved and stable in an aqueous solution. v%), more preferably 0.001 to 0.3 (w / v%).
本発明に用いられるシステインとしては、L‐システイン及び薬学的に許容される塩である。L‐システインの薬学的に許容される塩としては、L-システイン塩酸塩等が挙げられる。システインの濃度は、通常0.001~3.0(w/v%)であり、システインが水溶液中で完全に溶解し、安定であるために、好ましくは0.001~1.0(w/v%)、より好ましくは0.001~0.3(w/v%)である。 As used herein, a preservative refers to a combination of cysteine and malic acid.
Cysteine used in the present invention is L-cysteine and pharmaceutically acceptable salts. Examples of the pharmaceutically acceptable salt of L-cysteine include L-cysteine hydrochloride. The concentration of cysteine is usually 0.001 to 3.0 (w / v%), and is preferably 0.001 to 1.0 (w / v) because cysteine is completely dissolved and stable in an aqueous solution. v%), more preferably 0.001 to 0.3 (w / v%).
本発明に用いられるリンゴ酸は、DL‐リンゴ酸である。リンゴ酸の濃度は、通常0.01~1.0(w/v%)であり、好ましくは0.05~1.0(w/v%)、より好ましくは0.1~1.0(w/v%)である。
The malic acid used in the present invention is DL-malic acid. The concentration of malic acid is usually 0.01 to 1.0 (w / v%), preferably 0.05 to 1.0 (w / v%), more preferably 0.1 to 1.0 (w / v%). w / v%).
本発明で用いられる(A)システイン濃度と(B)リンゴ酸濃度の比を(A)/(B)として表す。(A)/(B)は、本発明の効果が得られれば特に制限はしないが、通常0.001~300であり、システイン及びリンゴ酸が水溶液中で完全に溶解し、本発明の効果を発揮するために、好ましくは0.001~20、より好ましくは0.001~3である。
The ratio of (A) cysteine concentration and (B) malic acid concentration used in the present invention is expressed as (A) / (B). (A) / (B) is not particularly limited as long as the effect of the present invention can be obtained, but is usually 0.001 to 300, and cysteine and malic acid are completely dissolved in an aqueous solution. In order to achieve this, it is preferably 0.001 to 20, more preferably 0.001 to 3.
本発明に用いられる緩衝剤は、本発明の効果が得られれば特に制限はないが、ホウ酸、リン酸、クエン酸、ε‐アミノカプロン酸、酢酸、酒石酸、トロメタモール及びそれらの薬学的に許容される塩又はそれらの水和物からなる群から選ばれる少なくとも1種が挙げられる。
The buffer used in the present invention is not particularly limited as long as the effects of the present invention are obtained, but boric acid, phosphoric acid, citric acid, ε-aminocaproic acid, acetic acid, tartaric acid, trometamol, and pharmaceutically acceptable salts thereof. Or at least one selected from the group consisting of hydrates thereof.
本発明における医薬用水性組成物のpH(25℃、ガラス電極で測定)は、通常3.0~9.0であり、好ましくは5.0~8.0、より好ましくは5.5~8.0である。
The pH of the aqueous pharmaceutical composition in the present invention (measured with a glass electrode at 25 ° C.) is usually 3.0 to 9.0, preferably 5.0 to 8.0, more preferably 5.5 to 8. .0.
本発明の医薬用水性組成物のpHを調整するために、通常添加される種々のpH調整剤を使用することができる。酸類としては、例えば、アスコルビン酸、塩酸、グルクロン酸、グルコン酸、酢酸、乳酸、リン酸、リン酸二水素ナトリウム、硫酸、クエン酸、リンゴ酸、酒石酸などが挙げられる。塩基類としては、例えば、ホウ砂、水酸化カリウム、水酸化カルシウム、水酸化ナトリウム、水酸化マグネシウムなどが挙げられる。その他のpH調整剤としては、グリシン、ヒスチジン、イプシロンアミノカプロン酸などのアミノ酸類なども挙げることができる。
In order to adjust the pH of the aqueous pharmaceutical composition of the present invention, various pH adjusting agents that are usually added can be used. Examples of the acids include ascorbic acid, hydrochloric acid, glucuronic acid, gluconic acid, acetic acid, lactic acid, phosphoric acid, sodium dihydrogen phosphate, sulfuric acid, citric acid, malic acid, tartaric acid and the like. Examples of the base include borax, potassium hydroxide, calcium hydroxide, sodium hydroxide, magnesium hydroxide and the like. Examples of other pH adjusters include amino acids such as glycine, histidine, and epsilon aminocaproic acid.
本発明の医薬用水性組成物を調製するにあたり、薬学的に許容し得る等張化剤、可溶化剤、増粘剤、安定化剤などを、必要に応じて、本発明の効果を損なわない範囲で本発明の医薬用水性組成物に添加することができる。
等張化剤としては、ブドウ糖等の糖類、マンニトール、ソルビトール、キシリトール等の糖アルコール、プロピレングリコール、グリセリン、塩化ナトリウム、塩化カリウム等が挙げられる。好ましくは塩化ナトリウム、プロピレングリコールである。
可溶化剤としては、ポリソルベート(例えばポリソルベート80)、ポリオキシエチレンヒマシ油、ポリオキシエチレン硬化ヒマシ油、ステアリン酸ポリオキシル(例えばステアリン酸ポリオキシル40)、チロキサポール、ポリエチレングリコールなどが挙げられる。これらの可溶化は単独又は二種以上を組み合わせて使用してもよい。
その他添加剤としては、水溶性高分子類(例えばメチルセルロース、ポビドンK25等の粘稠剤)、エチレンジアミン四酢酸及びそれらの薬学的に許容される塩、トコフェロール及びその誘導体、タウリン、イプシロンアミノカプロン酸、亜硫酸ナトリウムなどの安定化剤が挙げられる。 In preparing the aqueous pharmaceutical composition of the present invention, pharmaceutically acceptable isotonic agents, solubilizers, thickeners, stabilizers, etc., if necessary, do not impair the effects of the present invention. It can be added to the aqueous pharmaceutical composition of the present invention within a range.
Examples of the isotonic agent include sugars such as glucose, sugar alcohols such as mannitol, sorbitol, and xylitol, propylene glycol, glycerin, sodium chloride, potassium chloride and the like. Sodium chloride and propylene glycol are preferred.
Examples of the solubilizer include polysorbate (for example, polysorbate 80), polyoxyethylene castor oil, polyoxyethylene hydrogenated castor oil, polyoxyl stearate (for example, polyoxyl 40 stearate), tyloxapol, polyethylene glycol and the like. You may use these solubilization individually or in combination of 2 or more types.
Other additives include water-soluble polymers (eg, viscous agents such as methylcellulose and povidone K25), ethylenediaminetetraacetic acid and their pharmaceutically acceptable salts, tocopherol and its derivatives, taurine, epsilon aminocaproic acid, sulfite. Stabilizers such as sodium can be mentioned.
等張化剤としては、ブドウ糖等の糖類、マンニトール、ソルビトール、キシリトール等の糖アルコール、プロピレングリコール、グリセリン、塩化ナトリウム、塩化カリウム等が挙げられる。好ましくは塩化ナトリウム、プロピレングリコールである。
可溶化剤としては、ポリソルベート(例えばポリソルベート80)、ポリオキシエチレンヒマシ油、ポリオキシエチレン硬化ヒマシ油、ステアリン酸ポリオキシル(例えばステアリン酸ポリオキシル40)、チロキサポール、ポリエチレングリコールなどが挙げられる。これらの可溶化は単独又は二種以上を組み合わせて使用してもよい。
その他添加剤としては、水溶性高分子類(例えばメチルセルロース、ポビドンK25等の粘稠剤)、エチレンジアミン四酢酸及びそれらの薬学的に許容される塩、トコフェロール及びその誘導体、タウリン、イプシロンアミノカプロン酸、亜硫酸ナトリウムなどの安定化剤が挙げられる。 In preparing the aqueous pharmaceutical composition of the present invention, pharmaceutically acceptable isotonic agents, solubilizers, thickeners, stabilizers, etc., if necessary, do not impair the effects of the present invention. It can be added to the aqueous pharmaceutical composition of the present invention within a range.
Examples of the isotonic agent include sugars such as glucose, sugar alcohols such as mannitol, sorbitol, and xylitol, propylene glycol, glycerin, sodium chloride, potassium chloride and the like. Sodium chloride and propylene glycol are preferred.
Examples of the solubilizer include polysorbate (for example, polysorbate 80), polyoxyethylene castor oil, polyoxyethylene hydrogenated castor oil, polyoxyl stearate (for example, polyoxyl 40 stearate), tyloxapol, polyethylene glycol and the like. You may use these solubilization individually or in combination of 2 or more types.
Other additives include water-soluble polymers (eg, viscous agents such as methylcellulose and povidone K25), ethylenediaminetetraacetic acid and their pharmaceutically acceptable salts, tocopherol and its derivatives, taurine, epsilon aminocaproic acid, sulfite. Stabilizers such as sodium can be mentioned.
本発明の医薬用水性組成物の浸透圧比は、本発明の効果が得られれば特に制限はないが、通常0.5~2.0であり、好ましくは0.7~1.6、より好ましくは0.8~1.3、最も好ましくは0.9~1.2である。
The osmotic pressure ratio of the aqueous pharmaceutical composition of the present invention is not particularly limited as long as the effects of the present invention are obtained, but is usually 0.5 to 2.0, preferably 0.7 to 1.6, more preferably Is 0.8 to 1.3, most preferably 0.9 to 1.2.
本発明の医薬用水性組成物には、ドライアイ治療薬、角膜損傷治癒剤、緑内障治療薬、抗炎症薬、アレルギー治療薬、散瞳薬、眼科用表面麻酔剤、白内障治療薬又は抗菌薬などの種々の薬物を適応することができる。例えば、ジクアホソルナトリウム、レバミピド、精製ヒアルロン酸ナトリウム、コンドロイチン硫酸エステルナトリウム、イソプロピルウノプロストン、ラタノプロスト、タフルプロスト、トラボプロスト、ビマトプロスト、ニプラジロール、カルテオロール塩酸塩、チモロールマレイン酸塩、レボブノロール塩酸塩、ブリモニジン酒石酸塩、アプラクロニジン塩酸塩、ドルゾラミド塩酸塩、ブリンゾラミド、ピロカルピン塩酸塩、ジクロフェナクナトリウム、プラノプロフェン、ネパフェナク、ブロムフェナクナトリウム水和物、インドメタシン、フルオロメトロン、デキサメタゾンメタスルホ安息香酸エステルナトリウム、ベタメタゾンリン酸エステルナトリウム、オロパタジン塩酸塩、アシタザノラスト水和物、クロモグリク酸ナトリウム、トラニラスト、ケトチフェンフマル酸塩、レボカバスチン塩酸塩、エピナスチン塩酸塩、フェニレフリン塩酸塩、トロピカミド、オキシブプロカイン塩酸塩、リドカイン塩酸塩、ピレノキシン、ゲンタマイシン硫酸塩、トブラマイシン、ドキシサイクリン、クロラムフェニコール、エリスロマイシン、アジスロマイシン、コリスチンメタンスルホン酸ナトリウム、バンコマイシン塩酸塩、ノルフロキサシン、オフロキサシン、トスフロキサシントシル酸塩水和物、レボフロキサシン水和物、ガチフロキサシン水和物、モキシフロキサシン塩酸塩、アムホテリシンB、フルコナゾール、トリアムシノロンアセトニド、フラビンアデニンジヌクレオチドナトリウム、ピリドキシン塩酸塩等が挙げられる。
The aqueous pharmaceutical composition of the present invention includes a dry eye therapeutic agent, a corneal injury healing agent, a glaucoma therapeutic agent, an anti-inflammatory agent, an allergy therapeutic agent, a mydriatic agent, an ophthalmic surface anesthetic agent, a cataract therapeutic agent or an antibacterial agent A variety of drugs can be indicated. For example, diquafosol sodium, rebamipide, purified sodium hyaluronate, sodium chondroitin sulfate, isopropyl unoprostone, latanoprost, tafluprost, travoprost, bimatoprost, nipradilol, carteolol hydrochloride, timolol maleate, levobunolol hydrochloride, brimonidine Tartrate, apraclonidine hydrochloride, dorzolamide hydrochloride, brinzolamide, pilocarpine hydrochloride, diclofenac sodium, pranoprofen, nepafenac, bromfenac sodium hydrate, indomethacin, fluorometholone, dexamethasone metasulfobenzoate sodium, betamethasone phosphorus Acid ester sodium, olopatadine hydrochloride, acitazanolast hydrate, cromoglycate sodium , Tranilast, ketotifen fumarate, levocabastine hydrochloride, epinastine hydrochloride, phenylephrine hydrochloride, tropicamide, oxybuprocaine hydrochloride, lidocaine hydrochloride, pirenoxine, gentamicin sulfate, tobramycin, doxycycline, chloramphenicol, erythromycin, Azithromycin, colistin methanesulfonate sodium, vancomycin hydrochloride, norfloxacin, ofloxacin, tosufloxacin tosylate hydrate, levofloxacin hydrate, gatifloxacin hydrate, moxifloxacin hydrochloride, amphotericin B, fluconazole, triamcinolone acetonide Flavin adenine dinucleotide sodium, pyridoxine hydrochloride and the like.
本発明の医薬用水性組成物は、防腐剤を含まないのが好ましい。0.001~0.003w/v%程度の低濃度であれば、防腐剤による副作用を有意に低減できるため、含んでも良い。
本発明の医薬用水性組成物は、防腐剤を含まなくても保存効力を発揮するから、マルチドーズ型として使用することもできるし、モノドーズ型として使用することもできる。同じ理由から、本発明の医薬用水性組成物を収納する容器は特に限定されない。 The aqueous pharmaceutical composition of the present invention preferably contains no preservative. If the concentration is as low as about 0.001 to 0.003 w / v%, the side effects caused by the preservatives can be significantly reduced, and may be included.
Since the aqueous pharmaceutical composition of the present invention exhibits a preservative effect without containing a preservative, it can be used as a multi-dose type or a mono-dose type. For the same reason, the container for storing the aqueous pharmaceutical composition of the present invention is not particularly limited.
本発明の医薬用水性組成物は、防腐剤を含まなくても保存効力を発揮するから、マルチドーズ型として使用することもできるし、モノドーズ型として使用することもできる。同じ理由から、本発明の医薬用水性組成物を収納する容器は特に限定されない。 The aqueous pharmaceutical composition of the present invention preferably contains no preservative. If the concentration is as low as about 0.001 to 0.003 w / v%, the side effects caused by the preservatives can be significantly reduced, and may be included.
Since the aqueous pharmaceutical composition of the present invention exhibits a preservative effect without containing a preservative, it can be used as a multi-dose type or a mono-dose type. For the same reason, the container for storing the aqueous pharmaceutical composition of the present invention is not particularly limited.
以下に、本発明の医薬用水性組成物を調製し、保存効力試験を実施した。
Hereinafter, an aqueous pharmaceutical composition of the present invention was prepared and a storage efficacy test was conducted.
<試験例1>
表1に従い、L‐システイン(製品名:L‐システイン、メーカー名:関東化学(株))及びリンゴ酸(製品名:DL‐りんご酸、メーカー名:関東化学(株))ほか各成分を、精製水80mLに添加して溶解した。この液のpHを適宜調整後、精製水を加えてメスアップし、無色澄明な溶液100mLとした。その後、メンブレンフィルターでろ過滅菌したものを、実施例1~8及び比較例1~2とした。 <Test Example 1>
According to Table 1, L-cysteine (product name: L-cysteine, manufacturer name: Kanto Chemical Co., Ltd.), malic acid (product name: DL-malic acid, manufacturer name: Kanto Chemical Co., Ltd.) and other components Added to 80 mL of purified water and dissolved. After adjusting the pH of this liquid appropriately, purified water was added to make up the volume to make 100 mL of a colorless and clear solution. Thereafter, those sterilized by filtration with a membrane filter were designated as Examples 1 to 8 and Comparative Examples 1 and 2.
表1に従い、L‐システイン(製品名:L‐システイン、メーカー名:関東化学(株))及びリンゴ酸(製品名:DL‐りんご酸、メーカー名:関東化学(株))ほか各成分を、精製水80mLに添加して溶解した。この液のpHを適宜調整後、精製水を加えてメスアップし、無色澄明な溶液100mLとした。その後、メンブレンフィルターでろ過滅菌したものを、実施例1~8及び比較例1~2とした。 <Test Example 1>
According to Table 1, L-cysteine (product name: L-cysteine, manufacturer name: Kanto Chemical Co., Ltd.), malic acid (product name: DL-malic acid, manufacturer name: Kanto Chemical Co., Ltd.) and other components Added to 80 mL of purified water and dissolved. After adjusting the pH of this liquid appropriately, purified water was added to make up the volume to make 100 mL of a colorless and clear solution. Thereafter, those sterilized by filtration with a membrane filter were designated as Examples 1 to 8 and Comparative Examples 1 and 2.
実施例1~8並びに比較例1及び2について、保存効力試験により保存効力を確認した。
保存効力試験の試験手順は、第十六改正日本薬局方解説書、参考情報、保存効力試験法を参考にした。細菌3種(Escherichia coli,Pseudomonas aeruginosa,Staphylococcus aureus)及び真菌2種(Candida albicans,Aspergillus brasiliensis)をそれぞれ適当な条件下でカンテン平板培養した。これらの培養菌体を無菌的に採取し、約108個/mLの生菌又は胞子を含む浮遊液をそれぞれの接種菌液とした。実施例1~8並びに比較例1及び2を用意し、それぞれの接種菌液を無菌的に注入し、均一に混合して各薬液1mL当たり105~106個の生菌数になるように接種、混合した。菌液接種7日目及び14日目において塗抹法により菌数を測定した。
保存効力試験の判定基準は、日本薬局方及び米国薬局方の判定基準を統合したものとした。即ち、細菌においては、7日目に接種菌数の10%以下の菌数、且つ、14日目に接種菌数の0.1%以下の菌数であった場合に「適合」と判定した。真菌においては、7日目及び14日目ともに接種菌数と同レベル又はそれ以下であった場合に「適合」と判定した。
細菌3種及び真菌2種のうち、いずれか一菌種でも前記の菌数を超えた場合は、「不適合」と判定した。
細菌及び真菌の7日目及び14日目の判定がいずれも「適合」であった場合に総合判定で「適合」とし、それ以外であった場合は総合判定で「不適合」とした。
各試験結果及び総合判定を表1に示す。 For Examples 1 to 8 and Comparative Examples 1 and 2, the storage efficacy was confirmed by a storage efficacy test.
The test procedure for the preservation efficacy test was based on the 16th revised Japanese Pharmacopoeia Manual, reference information, and the preservation efficacy test method. Three kinds of bacteria (Escherichia coli, Pseudomonas aeruginosa, Staphylococcus aureus) and two kinds of fungi (Candida albicans, Aspergillus brasiliensis) were each cultured under an appropriate condition. These cultured cells were collected aseptically, and a suspension containing about 10 8 cells / mL viable bacteria or spores was used as each inoculum. Prepare Examples 1 to 8 and Comparative Examples 1 and 2, aseptically inject each inoculum, and mix evenly so that the number of viable bacteria is 10 5 to 10 6 per mL of each drug solution. Inoculated and mixed. The number of bacteria was measured by smearing method on the 7th and 14th day after inoculation with the bacterial solution.
Judgment criteria for the preservative efficacy test were made by integrating the judgment criteria of the Japanese Pharmacopoeia and the US Pharmacopoeia. That is, in the case of bacteria, if the number of bacteria was 10% or less of the number of inoculated bacteria on the 7th day and the number of bacteria was 0.1% or less of the number of inoculated bacteria on the 14th day, it was determined as “conforming”. . In the case of fungi, it was determined as “Compliant” when the number was the same as or less than the number of inoculated bacteria on both day 7 and day 14.
When any one of the three types of bacteria and two types of fungi exceeded the above number of bacteria, it was determined as “non-conforming”.
When the determinations on the 7th and 14th days for bacteria and fungi were both “conformity”, the comprehensive determination was “adapted”, and otherwise, the determination was “not compatible”.
Table 1 shows the test results and overall judgment.
保存効力試験の試験手順は、第十六改正日本薬局方解説書、参考情報、保存効力試験法を参考にした。細菌3種(Escherichia coli,Pseudomonas aeruginosa,Staphylococcus aureus)及び真菌2種(Candida albicans,Aspergillus brasiliensis)をそれぞれ適当な条件下でカンテン平板培養した。これらの培養菌体を無菌的に採取し、約108個/mLの生菌又は胞子を含む浮遊液をそれぞれの接種菌液とした。実施例1~8並びに比較例1及び2を用意し、それぞれの接種菌液を無菌的に注入し、均一に混合して各薬液1mL当たり105~106個の生菌数になるように接種、混合した。菌液接種7日目及び14日目において塗抹法により菌数を測定した。
保存効力試験の判定基準は、日本薬局方及び米国薬局方の判定基準を統合したものとした。即ち、細菌においては、7日目に接種菌数の10%以下の菌数、且つ、14日目に接種菌数の0.1%以下の菌数であった場合に「適合」と判定した。真菌においては、7日目及び14日目ともに接種菌数と同レベル又はそれ以下であった場合に「適合」と判定した。
細菌3種及び真菌2種のうち、いずれか一菌種でも前記の菌数を超えた場合は、「不適合」と判定した。
細菌及び真菌の7日目及び14日目の判定がいずれも「適合」であった場合に総合判定で「適合」とし、それ以外であった場合は総合判定で「不適合」とした。
各試験結果及び総合判定を表1に示す。 For Examples 1 to 8 and Comparative Examples 1 and 2, the storage efficacy was confirmed by a storage efficacy test.
The test procedure for the preservation efficacy test was based on the 16th revised Japanese Pharmacopoeia Manual, reference information, and the preservation efficacy test method. Three kinds of bacteria (Escherichia coli, Pseudomonas aeruginosa, Staphylococcus aureus) and two kinds of fungi (Candida albicans, Aspergillus brasiliensis) were each cultured under an appropriate condition. These cultured cells were collected aseptically, and a suspension containing about 10 8 cells / mL viable bacteria or spores was used as each inoculum. Prepare Examples 1 to 8 and Comparative Examples 1 and 2, aseptically inject each inoculum, and mix evenly so that the number of viable bacteria is 10 5 to 10 6 per mL of each drug solution. Inoculated and mixed. The number of bacteria was measured by smearing method on the 7th and 14th day after inoculation with the bacterial solution.
Judgment criteria for the preservative efficacy test were made by integrating the judgment criteria of the Japanese Pharmacopoeia and the US Pharmacopoeia. That is, in the case of bacteria, if the number of bacteria was 10% or less of the number of inoculated bacteria on the 7th day and the number of bacteria was 0.1% or less of the number of inoculated bacteria on the 14th day, it was determined as “conforming”. . In the case of fungi, it was determined as “Compliant” when the number was the same as or less than the number of inoculated bacteria on both day 7 and day 14.
When any one of the three types of bacteria and two types of fungi exceeded the above number of bacteria, it was determined as “non-conforming”.
When the determinations on the 7th and 14th days for bacteria and fungi were both “conformity”, the comprehensive determination was “adapted”, and otherwise, the determination was “not compatible”.
Table 1 shows the test results and overall judgment.
比較例1は、システインを含有するがリンゴ酸を含有しない組成物である。比較例1は、保存効力試験において、7日目は適合したが、14日目は不適合であったため、総合判定にて不適合であった。7日目の判定から、比較例1のホウ酸処方は、若干ではあるが、保存効力を有することが示された。
比較例2は、システインを含有するがリンゴ酸を含有せず、更に、安定化剤の用途があるEDTA(エデト酸ナトリウム水和物)を添加したものである。
しかし、EDTAを添加した比較例2でも、保存効力試験において、7日目は適合したが、14日目は不適合を示したため、比較例1と同様に総合判定では不適合の結果であった。
以上より、比較例1及び2のようなシステインを含有するがリンゴ酸を含有しない処方において、十分な保存効力を有するためには、防腐剤等の添加が必要になることがわかった。 Comparative Example 1 is a composition containing cysteine but not malic acid. Comparative Example 1 met the 7th day in the storage efficacy test, but failed on the 14th day. From the determination on the 7th day, it was shown that the boric acid formulation of Comparative Example 1 had a storage effect, albeit slightly.
Comparative Example 2 contains cysteine but does not contain malic acid, and is further added with EDTA (sodium edetate hydrate), which is used as a stabilizer.
However, even in Comparative Example 2 to which EDTA was added, in the storage efficacy test, it matched on the 7th day, but it showed non-conformity on the 14th day.
From the above, it was found that, in the formulation containing cysteine as in Comparative Examples 1 and 2, but not containing malic acid, it was necessary to add a preservative or the like in order to have sufficient storage efficacy.
比較例2は、システインを含有するがリンゴ酸を含有せず、更に、安定化剤の用途があるEDTA(エデト酸ナトリウム水和物)を添加したものである。
しかし、EDTAを添加した比較例2でも、保存効力試験において、7日目は適合したが、14日目は不適合を示したため、比較例1と同様に総合判定では不適合の結果であった。
以上より、比較例1及び2のようなシステインを含有するがリンゴ酸を含有しない処方において、十分な保存効力を有するためには、防腐剤等の添加が必要になることがわかった。 Comparative Example 1 is a composition containing cysteine but not malic acid. Comparative Example 1 met the 7th day in the storage efficacy test, but failed on the 14th day. From the determination on the 7th day, it was shown that the boric acid formulation of Comparative Example 1 had a storage effect, albeit slightly.
Comparative Example 2 contains cysteine but does not contain malic acid, and is further added with EDTA (sodium edetate hydrate), which is used as a stabilizer.
However, even in Comparative Example 2 to which EDTA was added, in the storage efficacy test, it matched on the 7th day, but it showed non-conformity on the 14th day.
From the above, it was found that, in the formulation containing cysteine as in Comparative Examples 1 and 2, but not containing malic acid, it was necessary to add a preservative or the like in order to have sufficient storage efficacy.
また、本発明の組成物である実施例1~8は、ベンザルコニウム塩化物などの防腐剤の添加をせずとも、保存効力を有することがわかった。
In addition, it was found that Examples 1 to 8, which are the compositions of the present invention, have a preservative effect without adding a preservative such as benzalkonium chloride.
試験例1の結果より、本発明は、システイン及びリンゴ酸の組み合わせにより、保存効力を発揮することが明らかとなった。また、本発明の組成物は、医薬品で選択される一般的な緩衝剤の種類に関わらず本発明の効果が得られることが明らかとなった。
From the results of Test Example 1, it was revealed that the present invention exerts a storage effect by a combination of cysteine and malic acid. Further, it has been clarified that the effects of the present invention can be obtained with the composition of the present invention regardless of the type of general buffer selected in pharmaceuticals.
<試験例2>
表2に従い、任意の成分を精製水80mLに添加して溶解した。この液を所定のpHに調整後、精製水を加えてメスアップして、無色澄明な溶液100mLとした。その後、メンブレンフィルターでろ過滅菌したものを実施例9~21とした。 <Test Example 2>
According to Table 2, arbitrary components were added to 80 mL of purified water and dissolved. After adjusting this solution to a predetermined pH, purified water was added to make up the volume to make 100 mL of a colorless and clear solution. Subsequently, Examples 9 to 21 were prepared by filtration sterilization with a membrane filter.
表2に従い、任意の成分を精製水80mLに添加して溶解した。この液を所定のpHに調整後、精製水を加えてメスアップして、無色澄明な溶液100mLとした。その後、メンブレンフィルターでろ過滅菌したものを実施例9~21とした。 <Test Example 2>
According to Table 2, arbitrary components were added to 80 mL of purified water and dissolved. After adjusting this solution to a predetermined pH, purified water was added to make up the volume to make 100 mL of a colorless and clear solution. Subsequently, Examples 9 to 21 were prepared by filtration sterilization with a membrane filter.
実施例9~21につき、試験例1と同様に保存効力試験を行った。
試験結果を表2に示す。 For Examples 9 to 21, a storage efficacy test was conducted in the same manner as in Test Example 1.
The test results are shown in Table 2.
試験結果を表2に示す。 For Examples 9 to 21, a storage efficacy test was conducted in the same manner as in Test Example 1.
The test results are shown in Table 2.
本発明の組成物である実施例9~21について、保存効力試験を行ったところ、全て適合した。
When Examples 9 to 21, which are the compositions of the present invention, were subjected to a storage efficacy test, they all met.
システイン及びリンゴ酸の組み合わせにおいて、いずれかの添加物が微量であっても、良好な結果を示した。
本発明の組成物は、塩基性から酸性における広範囲のpHにおいて、至適であった。 In the combination of cysteine and malic acid, good results were obtained even if the amount of either additive was very small.
The composition of the present invention was optimal over a wide pH range from basic to acidic.
本発明の組成物は、塩基性から酸性における広範囲のpHにおいて、至適であった。 In the combination of cysteine and malic acid, good results were obtained even if the amount of either additive was very small.
The composition of the present invention was optimal over a wide pH range from basic to acidic.
<試験例3>
表3に従い、各成分を精製水80mLに添加して溶解した。この液のpHを適宜調整後、精製水を加えてメスアップし、無色澄明な溶液100mLとした。その後、メンブレンフィルターでろ過滅菌したものを実施例22~26とした。 <Test Example 3>
According to Table 3, each component was added to 80 mL of purified water and dissolved. After adjusting the pH of this liquid appropriately, purified water was added to make up the volume to make 100 mL of a colorless and clear solution. Then, Examples 22 to 26 were obtained by sterilizing by filtration with a membrane filter.
表3に従い、各成分を精製水80mLに添加して溶解した。この液のpHを適宜調整後、精製水を加えてメスアップし、無色澄明な溶液100mLとした。その後、メンブレンフィルターでろ過滅菌したものを実施例22~26とした。 <Test Example 3>
According to Table 3, each component was added to 80 mL of purified water and dissolved. After adjusting the pH of this liquid appropriately, purified water was added to make up the volume to make 100 mL of a colorless and clear solution. Then, Examples 22 to 26 were obtained by sterilizing by filtration with a membrane filter.
実施例22~26につき、試験例1と同様に保存効力試験を行った。
試験結果を表3に示す。 For Examples 22 to 26, the storage efficacy test was conducted in the same manner as in Test Example 1.
The test results are shown in Table 3.
試験結果を表3に示す。 For Examples 22 to 26, the storage efficacy test was conducted in the same manner as in Test Example 1.
The test results are shown in Table 3.
本発明の組成物である実施例22~26について、保存効力試験を行ったところ、全て適合した。
When Examples 22 to 26, which are the compositions of the present invention, were subjected to a storage efficacy test, they all met.
以上より、本発明はポリソルベート80もしくはステアリン酸ポリオキシル40のような可溶化剤、EDTAのような安定化剤又はメチルセルロースもしくはポビドンのような粘稠剤を更に添加した場合にも効果を発揮することが示された。
As described above, the present invention can also be effective when a solubilizer such as polysorbate 80 or polyoxyl 40 stearate, a stabilizer such as EDTA, or a thickener such as methylcellulose or povidone is further added. Indicated.
このように、本発明への可溶化剤の添加が可能であることは、本発明の組成物に含ませる薬物として難溶性の有効成分を選択した場合であっても、有効成分を水溶液中に均等に分散することができ、優れた保存安定性を有することが可能であることを示唆している。
また、本発明への粘稠剤の添加が可能であることは、本発明の組成物において、投与部位での滞留性の上昇が、有効成分の持続性や移行性を高め、有効成分のバイオアベイラビリティーを改善することが可能であることを示唆している。
以上より、本発明の組成物が、汎用性の高い基剤として提供できることがわかった。 Thus, it is possible to add a solubilizer to the present invention even when a poorly soluble active ingredient is selected as a drug to be included in the composition of the present invention. It can be dispersed evenly, suggesting that it can have excellent storage stability.
In addition, the addition of a thickening agent to the present invention means that in the composition of the present invention, the increase in the retention at the administration site increases the sustainability and migration of the active ingredient, and the bioactivity of the active ingredient. This suggests that it is possible to improve availability.
From the above, it was found that the composition of the present invention can be provided as a highly versatile base.
また、本発明への粘稠剤の添加が可能であることは、本発明の組成物において、投与部位での滞留性の上昇が、有効成分の持続性や移行性を高め、有効成分のバイオアベイラビリティーを改善することが可能であることを示唆している。
以上より、本発明の組成物が、汎用性の高い基剤として提供できることがわかった。 Thus, it is possible to add a solubilizer to the present invention even when a poorly soluble active ingredient is selected as a drug to be included in the composition of the present invention. It can be dispersed evenly, suggesting that it can have excellent storage stability.
In addition, the addition of a thickening agent to the present invention means that in the composition of the present invention, the increase in the retention at the administration site increases the sustainability and migration of the active ingredient, and the bioactivity of the active ingredient. This suggests that it is possible to improve availability.
From the above, it was found that the composition of the present invention can be provided as a highly versatile base.
<試験例4>
表4に従い、各成分を精製水80mLに添加して溶解した後、任意の量の精製ヒアルロン酸ナトリウム、トラボプロスト、チモロールマレイン酸塩、ジクロフェナクナトリウム、アシタザノラスト水和物又はモキシフロキサシン塩酸塩を添加して溶解した。この液のpHを適宜調整後、精製水を加えてメスアップし、無色澄明な溶液100mLとした。その後、メンブレンフィルターでろ過滅菌したものを実施例27~32とした。 <Test Example 4>
According to Table 4, each component was added to 80 mL of purified water and dissolved, and then any amount of purified sodium hyaluronate, travoprost, timolol maleate, diclofenac sodium, acitazanolast hydrate or moxifloxacin hydrochloride Salt was added to dissolve. After adjusting the pH of this liquid appropriately, purified water was added to make up the volume to make 100 mL of a colorless and clear solution. Then, Examples 27-32 were those sterilized by filtration with a membrane filter.
表4に従い、各成分を精製水80mLに添加して溶解した後、任意の量の精製ヒアルロン酸ナトリウム、トラボプロスト、チモロールマレイン酸塩、ジクロフェナクナトリウム、アシタザノラスト水和物又はモキシフロキサシン塩酸塩を添加して溶解した。この液のpHを適宜調整後、精製水を加えてメスアップし、無色澄明な溶液100mLとした。その後、メンブレンフィルターでろ過滅菌したものを実施例27~32とした。 <Test Example 4>
According to Table 4, each component was added to 80 mL of purified water and dissolved, and then any amount of purified sodium hyaluronate, travoprost, timolol maleate, diclofenac sodium, acitazanolast hydrate or moxifloxacin hydrochloride Salt was added to dissolve. After adjusting the pH of this liquid appropriately, purified water was added to make up the volume to make 100 mL of a colorless and clear solution. Then, Examples 27-32 were those sterilized by filtration with a membrane filter.
実施例27~32につき、試験例1と同様に保存効力試験を行った。
試験結果を表4に示す。 For Examples 27 to 32, the storage efficacy test was conducted in the same manner as in Test Example 1.
The test results are shown in Table 4.
試験結果を表4に示す。 For Examples 27 to 32, the storage efficacy test was conducted in the same manner as in Test Example 1.
The test results are shown in Table 4.
本発明の組成物である実施例27~32について、保存効力試験を行ったところ、全て適合した。
When Examples 27 to 32, which are the compositions of the present invention, were subjected to a storage efficacy test, they all met.
試験例4の結果、本発明の組成物は、医薬品の有効成分として選択される薬物を添加しても、水溶液中で配合変化により、保存効力が低下するといった現象を示すことはなかった。
本発明は、医薬品の製剤として広く活用できることがわかった。 As a result of Test Example 4, the composition of the present invention did not show a phenomenon that the storage efficacy was lowered due to the change in the composition in an aqueous solution even when a drug selected as an active ingredient of a pharmaceutical was added.
It has been found that the present invention can be widely used as pharmaceutical preparations.
本発明は、医薬品の製剤として広く活用できることがわかった。 As a result of Test Example 4, the composition of the present invention did not show a phenomenon that the storage efficacy was lowered due to the change in the composition in an aqueous solution even when a drug selected as an active ingredient of a pharmaceutical was added.
It has been found that the present invention can be widely used as pharmaceutical preparations.
<試験例5>
表5に従い、実施例33及び34を調製した。比較例3及び4として、それぞれ0.002%及び0.005%ベンザルコニウム塩化物水溶液を選択した。 <Test Example 5>
Examples 33 and 34 were prepared according to Table 5. As Comparative Examples 3 and 4, 0.002% and 0.005% benzalkonium chloride aqueous solutions were selected, respectively.
表5に従い、実施例33及び34を調製した。比較例3及び4として、それぞれ0.002%及び0.005%ベンザルコニウム塩化物水溶液を選択した。 <Test Example 5>
Examples 33 and 34 were prepared according to Table 5. As Comparative Examples 3 and 4, 0.002% and 0.005% benzalkonium chloride aqueous solutions were selected, respectively.
実施例33及び34並びに比較例3及び4につき、ヒト角膜上皮細胞における細胞障害性を確認した。
For Examples 33 and 34 and Comparative Examples 3 and 4, cytotoxicity in human corneal epithelial cells was confirmed.
試験材料として、ヒト角膜上皮細胞(製品名:Human corneal epithelial cell(HCE‐T),理化学研究所バイオリソースセンター)を使用した。また、実施例33及び34、比較例3及び4並びに陰性対照であるリン酸緩衝生理食塩液(PBS)の計5つの薬液を使用した。
96ウェルプレートの各ウェルにSHEM改変培地(5%FBS含有DMEM/F‐12(1:1)+1%PS+10ng/mLのEGF+5μg/mLのインスリン+0.5%DMSO)に懸濁させたヒト角膜上皮細胞を2.0×104cellsで播種し、CO2インキュベーター内で24時間培養した。培養後、5薬液を各50μL、各薬液において計6ウェルとなるように添加した。各薬液において、1、2、5又は10分間を接触時間とし、接触後にウェルをPBSで洗浄し、各ウェルに細胞数測定用試薬(製品名:Cell counting kit‐8,(株)同仁化学研究所社製)を10μLずつ添加した。CO2インキュベーター内で2時間呈色反応をさせた後、マイクロプレートリーダー(装置名:InfiniteM200 PRO,TECAN社製)を用いて、450nmにおける吸光度を測定した。各接触時間において、陰性対照の吸光度を100として、実施例33及び34並びに比較例3及び4の吸光度より各細胞生存率(%)を算出した。
試験結果を図1に示す。 Human corneal epithelial cells (product name: Human Corneal Epithelial Cell (HCE-T), RIKEN BioResource Center) were used as test materials. In addition, a total of five drug solutions were used: Examples 33 and 34, Comparative Examples 3 and 4, and phosphate buffered saline (PBS) as a negative control.
Human corneal epithelium suspended in SHEM modified medium (DMEM / F-12 (1: 1) + 1% PS + 10 ng / mL EGF + 5 μg / mL insulin + 0.5% DMSO containing 5% FBS) in each well of a 96-well plate Cells were seeded at 2.0 × 10 4 cells and cultured for 24 hours in a CO 2 incubator. After culturing, 5 drug solutions were added to each 50 μL so that each drug solution had a total of 6 wells. In each chemical solution, the contact time is 1, 2, 5 or 10 minutes. After contact, the wells are washed with PBS, and each well has a reagent for measuring the cell number (Product name: Cell counting kit-8, Dojin Chemical Research Co., Ltd.). 10 μL each) was added. After a color reaction in a CO 2 incubator for 2 hours, the absorbance at 450 nm was measured using a microplate reader (device name: Infinite M200 PRO, manufactured by TECAN). At each contact time, the cell viability (%) was calculated from the absorbances of Examples 33 and 34 and Comparative Examples 3 and 4 with the absorbance of the negative control as 100.
The test results are shown in FIG.
96ウェルプレートの各ウェルにSHEM改変培地(5%FBS含有DMEM/F‐12(1:1)+1%PS+10ng/mLのEGF+5μg/mLのインスリン+0.5%DMSO)に懸濁させたヒト角膜上皮細胞を2.0×104cellsで播種し、CO2インキュベーター内で24時間培養した。培養後、5薬液を各50μL、各薬液において計6ウェルとなるように添加した。各薬液において、1、2、5又は10分間を接触時間とし、接触後にウェルをPBSで洗浄し、各ウェルに細胞数測定用試薬(製品名:Cell counting kit‐8,(株)同仁化学研究所社製)を10μLずつ添加した。CO2インキュベーター内で2時間呈色反応をさせた後、マイクロプレートリーダー(装置名:InfiniteM200 PRO,TECAN社製)を用いて、450nmにおける吸光度を測定した。各接触時間において、陰性対照の吸光度を100として、実施例33及び34並びに比較例3及び4の吸光度より各細胞生存率(%)を算出した。
試験結果を図1に示す。 Human corneal epithelial cells (product name: Human Corneal Epithelial Cell (HCE-T), RIKEN BioResource Center) were used as test materials. In addition, a total of five drug solutions were used: Examples 33 and 34, Comparative Examples 3 and 4, and phosphate buffered saline (PBS) as a negative control.
Human corneal epithelium suspended in SHEM modified medium (DMEM / F-12 (1: 1) + 1% PS + 10 ng / mL EGF + 5 μg / mL insulin + 0.5% DMSO containing 5% FBS) in each well of a 96-well plate Cells were seeded at 2.0 × 10 4 cells and cultured for 24 hours in a CO 2 incubator. After culturing, 5 drug solutions were added to each 50 μL so that each drug solution had a total of 6 wells. In each chemical solution, the contact time is 1, 2, 5 or 10 minutes. After contact, the wells are washed with PBS, and each well has a reagent for measuring the cell number (Product name: Cell counting kit-8, Dojin Chemical Research Co., Ltd.). 10 μL each) was added. After a color reaction in a CO 2 incubator for 2 hours, the absorbance at 450 nm was measured using a microplate reader (device name: Infinite M200 PRO, manufactured by TECAN). At each contact time, the cell viability (%) was calculated from the absorbances of Examples 33 and 34 and Comparative Examples 3 and 4 with the absorbance of the negative control as 100.
The test results are shown in FIG.
比較例3及び4においては、接触時間の増加とともに細胞生存率が低下した。また、接触時間が同じであっても、比較例3と比べ、防腐剤の含有濃度がより高い比較例4のほうが、より低い細胞生存率を示した。
一方、本発明の実施例33及び34においては、比較例3及び4と比べ、細胞生存率が高く、接触時間の増加にともなう細胞生存率の大きな低下は示さなかった。 In Comparative Examples 3 and 4, cell viability decreased with increasing contact time. Further, even when the contact time was the same, Comparative Example 4 having a higher concentration of the preservative showed lower cell viability than Comparative Example 3.
On the other hand, in Examples 33 and 34 of the present invention, the cell viability was higher than in Comparative Examples 3 and 4, and the cell viability was not significantly reduced with the increase in contact time.
一方、本発明の実施例33及び34においては、比較例3及び4と比べ、細胞生存率が高く、接触時間の増加にともなう細胞生存率の大きな低下は示さなかった。 In Comparative Examples 3 and 4, cell viability decreased with increasing contact time. Further, even when the contact time was the same, Comparative Example 4 having a higher concentration of the preservative showed lower cell viability than Comparative Example 3.
On the other hand, in Examples 33 and 34 of the present invention, the cell viability was higher than in Comparative Examples 3 and 4, and the cell viability was not significantly reduced with the increase in contact time.
試験例5の結果より、一般的な防腐剤を含有する水溶液である比較例3及び4よりも、一般的な防腐剤を添加していない本発明の実施例33及び34のほうが、細胞障害性が低いことが明らかとなった。
以上から、本発明の組成物は、防腐剤を添加せずとも保存効力を有するため、副作用を軽減した安全性の高い医薬用水性組成物であることが示された。 From the results of Test Example 5, Examples 33 and 34 of the present invention to which a general preservative was not added are more cytotoxic than Comparative Examples 3 and 4 which are aqueous solutions containing a general preservative. Was found to be low.
From the above, it was shown that the composition of the present invention has a preservative effect without adding a preservative, and thus is a highly safe aqueous pharmaceutical composition with reduced side effects.
以上から、本発明の組成物は、防腐剤を添加せずとも保存効力を有するため、副作用を軽減した安全性の高い医薬用水性組成物であることが示された。 From the results of Test Example 5, Examples 33 and 34 of the present invention to which a general preservative was not added are more cytotoxic than Comparative Examples 3 and 4 which are aqueous solutions containing a general preservative. Was found to be low.
From the above, it was shown that the composition of the present invention has a preservative effect without adding a preservative, and thus is a highly safe aqueous pharmaceutical composition with reduced side effects.
<試験例6>
表6に従い、実施例35を調製した。比較例5として、0.01%ベンザルコニウム塩化物水溶液を選択した。 <Test Example 6>
Example 35 was prepared according to Table 6. As Comparative Example 5, a 0.01% benzalkonium chloride aqueous solution was selected.
表6に従い、実施例35を調製した。比較例5として、0.01%ベンザルコニウム塩化物水溶液を選択した。 <Test Example 6>
Example 35 was prepared according to Table 6. As Comparative Example 5, a 0.01% benzalkonium chloride aqueous solution was selected.
実施例35及び比較例5につき、白色ウサギにおける角膜上皮障害性を確認した。
For Example 35 and Comparative Example 5, corneal epithelial disorder in white rabbits was confirmed.
試験動物として、雄性の日本白色種ウサギを使用した。薬液として、実施例35及び比較例5の計2つを使用した。
試験動物4眼に、実施例35及び比較例5をそれぞれ50μL、1日3回、4時間間隔で15日間点眼した。15日間の点眼後、試験動物の角膜をフルオレセインで染色し、生理食塩水で余分なフルオレセインを洗い流した。角膜の染色斑の観察を行い、暗状態(ブルーライト照射下)で写真撮影を行った。
写真を図2に示す。 Male Japanese white rabbits were used as test animals. A total of two chemical solutions of Example 35 and Comparative Example 5 were used.
Example 35 and Comparative Example 5 were instilled into 4 eyes of each test animal at 50 μL, 3 times a day, 4 hours apart for 15 days. After instillation for 15 days, the corneas of the test animals were stained with fluorescein, and excess fluorescein was washed away with physiological saline. The stained spots of the cornea were observed, and photographs were taken in the dark state (under blue light irradiation).
A photograph is shown in FIG.
試験動物4眼に、実施例35及び比較例5をそれぞれ50μL、1日3回、4時間間隔で15日間点眼した。15日間の点眼後、試験動物の角膜をフルオレセインで染色し、生理食塩水で余分なフルオレセインを洗い流した。角膜の染色斑の観察を行い、暗状態(ブルーライト照射下)で写真撮影を行った。
写真を図2に示す。 Male Japanese white rabbits were used as test animals. A total of two chemical solutions of Example 35 and Comparative Example 5 were used.
Example 35 and Comparative Example 5 were instilled into 4 eyes of each test animal at 50 μL, 3 times a day, 4 hours apart for 15 days. After instillation for 15 days, the corneas of the test animals were stained with fluorescein, and excess fluorescein was washed away with physiological saline. The stained spots of the cornea were observed, and photographs were taken in the dark state (under blue light irradiation).
A photograph is shown in FIG.
比較例5においては、4眼中2眼に染色斑が認められ、角膜上皮障害が認められた。
一方、本発明の実施例35においては、4眼全てに染色斑は認められず、角膜上皮障害は認められなかった。 In Comparative Example 5, stained spots were observed in 2 out of 4 eyes, and corneal epithelial disorder was observed.
On the other hand, in Example 35 of the present invention, no staining spots were observed in all four eyes, and no corneal epithelial disorder was observed.
一方、本発明の実施例35においては、4眼全てに染色斑は認められず、角膜上皮障害は認められなかった。 In Comparative Example 5, stained spots were observed in 2 out of 4 eyes, and corneal epithelial disorder was observed.
On the other hand, in Example 35 of the present invention, no staining spots were observed in all four eyes, and no corneal epithelial disorder was observed.
試験例6の結果より、一般的な防腐剤を含有する比較例5で角膜上皮障害が認められた条件において、一般的な防腐剤を含有しない実施例35は角膜上皮障害が認められなかったことから、比較例5と比べ実施例35は、臨床使用時に角膜上皮障害を発現するリスクが低いと推察された。
以上から、本発明の組成物は、防腐剤を添加せずとも保存効力を有するため、副作用を軽減した安全性の高い医薬用水性組成物であることが示された。 From the results of Test Example 6, in the condition in which corneal epithelial disorder was observed in Comparative Example 5 containing a general preservative, Example 35 which did not contain a general preservative showed no corneal epithelial disorder. Thus, it was speculated that Example 35 had a lower risk of developing corneal epithelial disorder during clinical use than Comparative Example 5.
From the above, it was shown that the composition of the present invention has a preservative effect without adding a preservative, and thus is a highly safe aqueous pharmaceutical composition with reduced side effects.
以上から、本発明の組成物は、防腐剤を添加せずとも保存効力を有するため、副作用を軽減した安全性の高い医薬用水性組成物であることが示された。 From the results of Test Example 6, in the condition in which corneal epithelial disorder was observed in Comparative Example 5 containing a general preservative, Example 35 which did not contain a general preservative showed no corneal epithelial disorder. Thus, it was speculated that Example 35 had a lower risk of developing corneal epithelial disorder during clinical use than Comparative Example 5.
From the above, it was shown that the composition of the present invention has a preservative effect without adding a preservative, and thus is a highly safe aqueous pharmaceutical composition with reduced side effects.
システイン及びリンゴ酸を組み合わせて配合することにより、ベンザルコニウム塩化物やパラベン類等の防腐剤を配合しなくとも、保存効力を有する医薬用水性組成物を調製することが可能となる。本発明により提供される医薬用水性組成物は、洗眼剤や点眼剤等の液剤に適応させることにより、防腐剤による角膜障害を軽減することが可能となる。
By combining cysteine and malic acid in combination, it is possible to prepare an aqueous medicinal composition having a preservative effect without adding a preservative such as benzalkonium chloride or parabens. The aqueous pharmaceutical composition provided by the present invention can reduce corneal damage caused by preservatives by adapting it to a liquid preparation such as an eye wash or eye drops.
Claims (11)
- (A)システイン及び(B)リンゴ酸を含有することを特徴とする医薬用水性組成物。 An aqueous pharmaceutical composition comprising (A) cysteine and (B) malic acid.
- 組成物中の(A)システイン/(B)リンゴ酸(濃度比)が、(A)システイン/(B)リンゴ酸=0.001~300である請求項1に記載の医薬用水性組成物。 The aqueous pharmaceutical composition according to claim 1, wherein (A) cysteine / (B) malic acid (concentration ratio) in the composition is (A) cysteine / (B) malic acid = 0.001 to 300.
- (A)システインの濃度が、0.001~3.0(w/v%)である請求項1又は2に記載の医薬用水性組成物。 (A) The aqueous pharmaceutical composition according to claim 1 or 2, wherein the concentration of cysteine is 0.001 to 3.0 (w / v%).
- (B)リンゴ酸の濃度が、0.01~1.0(w/v%)である請求項1~3のいずれか1項記載の医薬用水性組成物。 The aqueous pharmaceutical composition according to any one of claims 1 to 3, wherein the concentration of (B) malic acid is 0.01 to 1.0 (w / v%).
- pHが3.0~9.0である請求項1~4のいずれか1項記載の医薬用水性組成物。 The aqueous pharmaceutical composition according to any one of claims 1 to 4, having a pH of 3.0 to 9.0.
- 防腐剤を含有しない、請求項1~5のいずれか1項記載の医薬用水性組成物。 The aqueous pharmaceutical composition according to any one of claims 1 to 5, which contains no preservative.
- さらに、緩衝剤として、ホウ酸、リン酸、クエン酸、ε‐アミノカプロン酸、酢酸、酒石酸、トロメタモール及びそれらの薬学的に許容される塩又はそれらの水和物からなる群から選ばれる少なくとも1種を含有する、請求項1~6のいずれか1項記載の医薬用水性組成物。 Furthermore, as the buffer, at least one selected from the group consisting of boric acid, phosphoric acid, citric acid, ε-aminocaproic acid, acetic acid, tartaric acid, trometamol, and pharmaceutically acceptable salts or hydrates thereof. The aqueous pharmaceutical composition according to any one of claims 1 to 6, comprising
- 眼科用水性組成物の形態にある請求項1~7のいずれか1項記載の医薬用水性組成物。 The aqueous pharmaceutical composition according to any one of claims 1 to 7, which is in the form of an aqueous ophthalmic composition.
- (A)システイン及び(B)リンゴ酸を医薬用水性組成物に添加することを含む、医薬用水性組成物に保存効力を付与する方法。 (A) A method for imparting storage efficacy to an aqueous pharmaceutical composition, comprising adding cysteine and (B) malic acid to the aqueous pharmaceutical composition.
- 医薬用水性組成物に、(A)システイン及び(B)リンゴ酸を含ませることにより保存効力を得る方法。 A method for obtaining preservation effect by including (A) cysteine and (B) malic acid in an aqueous pharmaceutical composition.
- (A)システイン及び(B)リンゴ酸を含有することを特徴とする医薬用水性組成物用保存剤。 A preservative for an aqueous pharmaceutical composition, comprising (A) cysteine and (B) malic acid.
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JP2016504187A JPWO2015125921A1 (en) | 2014-02-20 | 2015-02-20 | Pharmaceutical aqueous composition having storage efficacy |
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TW (1) | TW201615180A (en) |
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Cited By (4)
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JP6134853B1 (en) * | 2016-10-28 | 2017-05-24 | 参天製薬株式会社 | Epinastine-containing ophthalmic solution |
JP2018070582A (en) * | 2017-04-24 | 2018-05-10 | 参天製薬株式会社 | Epinastine-containing eye drops |
JP2020059747A (en) * | 2019-12-17 | 2020-04-16 | 参天製薬株式会社 | Eye drops containing epinastine |
JP2020169213A (en) * | 2020-07-15 | 2020-10-15 | 参天製薬株式会社 | Epinastine-containing eye drops |
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JP6134853B1 (en) * | 2016-10-28 | 2017-05-24 | 参天製薬株式会社 | Epinastine-containing ophthalmic solution |
WO2018079721A1 (en) * | 2016-10-28 | 2018-05-03 | 参天製薬株式会社 | Epinastin-containing eye drops |
JP2018070500A (en) * | 2016-10-28 | 2018-05-10 | 参天製薬株式会社 | Epinastine-containing eye drops |
JP2018070582A (en) * | 2017-04-24 | 2018-05-10 | 参天製薬株式会社 | Epinastine-containing eye drops |
JP2020059747A (en) * | 2019-12-17 | 2020-04-16 | 参天製薬株式会社 | Eye drops containing epinastine |
JP2020169213A (en) * | 2020-07-15 | 2020-10-15 | 参天製薬株式会社 | Epinastine-containing eye drops |
JP2021152068A (en) * | 2020-07-15 | 2021-09-30 | 参天製薬株式会社 | Epinastine-containing eye drops |
JP2022173166A (en) * | 2020-07-15 | 2022-11-17 | 参天製薬株式会社 | Epinastine-containing eye drops |
Also Published As
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JPWO2015125921A1 (en) | 2017-03-30 |
TW201615180A (en) | 2016-05-01 |
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