JP2016033133A - Montelukast sodium formulation - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a formulation having improved storage stability of montelukast sodium.SOLUTION: The invention relates to producing a tablet using a granulated material which contains montelukast sodium produced by wet granulation which does not substantially use water, such as dehydrated ethanol, and/or to provide a montelukast sodium formulation in which storage stability to humidity, temperature, and/or light is improved by subjecting coating to an uncoated tablet which contains montelukast sodium, using rutile type titanium oxide.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a montelukast sodium preparation with improved storage stability.

(+)-1-[[[(R) -3-[(E) -2- (7-chloro-2-quinolinyl) vinyl] -α- [2- (1-hydroxy-1-methylethyl) phenethyl Monobenzyl salt of] benzyl] thio] methyl] cyclopropaneacetic acid, known as Montelukast Sodium, has a leukotriene receptor antagonistic action, and is used as a therapeutic agent for bronchial asthma, a therapeutic agent for allergic rhinitis, and a chewable tablet Fine granules are widely used all over the world including Japan. (Non-Patent Document 1)
In European Patent No. 480717 (corresponding Japanese Patent No. 2501385: Patent Document 1), montelukast sodium was first disclosed.
WO 95/18107 (corresponding Japanese Patent No. 3640962: Patent Document 2) describes an improved synthesis method of montelukast sodium and A-type crystals.
WO 03/66598 (Patent Document 3) describes anhydrous amorphous montelukast sodium.
Patent Documents 2 and 3 describe that montelukast sodium described in Patent Document 1 is a highly hygroscopic amorphous montelukast sodium.
In addition, montelukast sodium itself produces a sulfoxide form, which is an inert impurity, by light, heat, oxidant, and water (humidity) (Patent Document 7), and undergoes photoisomerization when exposed to ultraviolet light. And is known to produce inactive cis isomers.
On the other hand, a montelukast sodium preparation currently marketed, for example, a pharmaceutical interview form (Non-patent Document 1) of 10 mg Singlea (registered trademark) tablets, (1) 60 ° C., Ambient humidity, 3 months, non-packaging increased related substances, (2) 25 ° C., 85% RH, 4 weeks, no packaging increased moisture, disintegration time extended, dissolution rate and hardness It is described that the product has been reduced, and that this product is susceptible to humidity. (3) Further, room temperature, environmental humidity, (white fluorescent lamp) 1,200,000 lx · hr + (near ultraviolet) Fluorescent lamps) 200 W · hr / m ² , it is stated that the related substances increased even without packaging, and that this product was confirmed to be susceptible to light.
That is, the unpacked Montelukast sodium preparation is easily affected by humidity and light. Therefore, in the pharmaceutical interview form (Non-patent Document 1) of Singlea (registered trademark) 10 mg, the tablet is an orange color composed of a single-sided cyclic polyolefin copolymer. The film is stored in a PTP made of aluminum foil and single-sided aluminum foil, and the PTP sheet is stored in an outer box, and the storage and storage conditions are stated to be stored away from moisture after storage, room temperature storage, and opening. ing.
By the way, in order to prevent mistakes, forgetting to drink, etc., one package for tablets and capsules into one package for each dose is performed for elderly people.
However, preparations that are easily affected by humidity and light are obstacles to packaging.

Such as montelukast purpose of improving stability of the strike sodium formulations, Patent Document 4, d ₉₀ are described coated tablets storage stability was improved by direct compression using the following montelukast sodium particles 250 [mu] m, further saving As a result of the stability test, there is a description that the generation of related substances is suppressed as compared with the preparation obtained by the wet granulation method.
Patent Document 5 describes a coated tablet with improved storage stability obtained by dry granulation after mixing microcrystalline cellulose and montelukast sodium.
Patent Document 6 describes a coated tablet with improved storage stability having a coating layer containing polyvinyl alcohol and swellable clay.
Further, in Patent Document 7, microcrystalline cellulose may contain a peroxide, which is considered to possibly catalyze the conversion of montelukast to the corresponding sulfoxide, and is obtained by a direct hitting method that does not use microcrystalline cellulose. A coated tablet with improved storage stability is disclosed. This document also reports a test result that the formulation obtained by wet granulation is less stable than dry blending.
Furthermore, preparations containing microcrystalline cellulose and flavor (Patent Document 8) and preparations containing a stabilizer (Patent Document 9) have been reported as preparations with suppressed storage stability and improved storage stability. .

Patent No. 2501385 Japanese Patent No. 3640962 WO 03/66598 WO 2007/077135 US 2014/087059 WO 2011/105539 Special table 2009-526047 WO 2010/041277 China patent publication CN102973532A

Revised April 2014 Pharmaceutical Interview Form of Singlea (R) Tablets 5mg, 10mg, Chewable Tablets 5mg, Fine Granules 4mg

Montelukast sodium is easily affected by light, humidity, temperature, etc., and handling of commercially available montelukast sodium preparations requires consideration for these effects, and is manufactured by wet granulation, which is a general manufacturing method. It has been reported that the prepared preparations lack storage stability compared to the direct compression method and dry granulated products. In addition, as a result of earnest study on the formulation of montelukast, the present inventor has found for the first time a problem of giving a color impression of being deteriorated when wet granulation is performed using water.
An object of the present invention is to provide a montelukast sodium preparation having improved storage stability against humidity, light, and temperature.
An object of the present invention is to provide a montelukast sodium preparation with improved storage stability in which the formation of a sulfoxide form during storage is suppressed.
An object of the present invention is to provide a montelukast sodium preparation with improved storage stability in which production of related substances is suppressed during storage.
An object of the present invention is to provide a montelukast sodium preparation in which yellow discoloration during granulation is suppressed.

The present inventors use a granulated product containing montelukast sodium produced by a wet granulation method substantially using no water, and / or an element containing montelukast sodium using rutile type titanium oxide. It was found that a montelukast sodium preparation with improved storage stability can be obtained by coating a tablet, and the present invention has been completed.
That is, this invention relates to the granulated material containing the montelukast sodium manufactured by the wet granulation method which does not use water substantially.
Moreover, this invention relates to the granule and capsule containing the granulated material containing the montelukast sodium manufactured by the wet granulation method which does not use water substantially.
The present invention also relates to a tablet and a coated tablet obtained by tableting a granulated product containing montelukast sodium produced by a wet granulation method substantially using no water.
The present invention also relates to a coated tablet having a sulfoxide form of 0.5% or less after being stored for 12 weeks at 40 ° C. and 75% relative humidity under PTP packaging in an aluminum bag.
Moreover, this invention relates to the method of manufacturing the granulated material containing the montelukast sodium which improved stability by the wet granulation method using alcohol.
The present invention also relates to a coated tablet obtained by a method for producing a granulated product containing montelukast sodium whose stability has been improved by a wet granulation method using alcohol.
The present invention also relates to a granulated product, uncoated tablet or coated preparation which is produced substantially without using water and has suppressed coloring.
Moreover, this invention relates to the formulation containing the montelukast sodium coat | covered with the coating layer containing a titanium oxide.
The present invention also relates to a preparation comprising a granulated product or uncoated tablet containing montelukast sodium, wherein the granulated product or uncoated tablet is produced substantially without using water and stored for a pharmaceutically acceptable period. Then, it is related with the formulation containing the granulated product or uncoated tablet in which coloring was suppressed compared with the granulated product or plain tablet obtained by the method including wet granulation using water.
The present invention also relates to a method for suppressing coloration of a granulated product, uncoated tablet, and preparation, which comprises wet granulation substantially without using water.
The present invention also relates to a method for stabilizing a preparation containing sodium montelukast, the method comprising a step of coating the preparation with a coating layer containing titanium oxide.

FIG. 1 shows the amount of related substances having a retention time of 2.6 minutes in the photostability test described in Example 2. FIG. 2 shows the amount of a related substance in the light stability test described in Example 2 with a retention time of 2.9 minutes. FIG. 3 shows the amount of related substances in the photostability test described in Example 2 with a retention time of 5.7 minutes. FIG. 4 shows the total amount of related substances in the light stability test described in Example 2. FIG. 5 shows photographs of the uncoated tablet of Example 1 (left) and the uncoated tablet of Reference Example 1 (right) stored for 6 months at 40 ° C. and 75% RH, and further stored at room temperature for 4 months. . The uncoated tablet of Reference Example 1 is colored yellow.

The present invention will be described in further detail.
The present invention
(1)
The present invention relates to a granulated product containing montelukast sodium produced by a wet granulation method substantially using no water.
(2)
The present invention relates to the granulated product described in the above (1), which is produced by a wet granulation method by dropping or spraying an organic solvent on a mixture of montelukast sodium and an additive.
(3)
The present invention relates to the granulated product described in the above (1), which is produced by a wet granulation method in which a binder is dissolved or suspended in an organic solvent.
(4)
It is related with the granulated material of any one of said (1)-(3) whose organic solvent is alcohol.
(5)
The granulated product according to (4) above, wherein the alcohol is ethanol.
(6)
The granulated product according to (5) above, wherein ethanol is absolute ethanol.
(7)
It is related with the granulated material of the said (3) description whose binder is a hydroxypropyl cellulose.
(8)
It is related with the granulated material of any one of said (1)-(7) which contains a crystalline cellulose in a granulated material.
(9)
It is related with the granulated material of any one of said (1)-(8) whose montelukast sodium is amorphous.

(10)
It is related with the granule containing the granulated material of any one of said (1)-(9).
(11)
It is related with the capsule containing the granulated material of any one of said (1)-(9).
(12)
It is related with the tablet obtained by tableting the granulated material of any one of said (1)-(9).
(13)
The present invention relates to a coated tablet in which a coating layer is provided on the tablet described in (12).
(14)
The present invention relates to the coated tablet according to the above (13), wherein the coating layer contains titanium oxide.
(15)
It is related with the coated tablet of the said (14) description whose titanium oxide is a rutile type.
(16)
It is related with the coated tablet of any one of said (14) or (15) whose content of the titanium oxide in a coating layer is 20 to 60%.
(17)
It is related with the coated tablet of any one of said (14) or (15) whose content of the titanium oxide in a coating layer is 30 to 50%.
(18)
It is related with the coated tablet of any one of said (13)-(17) in which ferric sesquioxide and / or yellow ferric oxide are contained in the coating layer.
(19)
The coated tablet according to any one of the above (13) to (18), wherein the sulfoxide form after storage for 12 weeks at 40 ° C. and 75% relative humidity under PTP packaging in an aluminum bag is 0.3% or less About.
(20)
The coated tablet according to any one of the above (13) to (18), wherein the sulfoxide form after storage for 12 weeks at 40 ° C. and 75% relative humidity under PTP packaging in an aluminum bag is 0.3% or less About.
(21)
The coated tablet according to any one of (13) to (18) above, wherein the sulfoxide form after storage for 12 weeks at 40 ° C. and 75% relative humidity under PTP packaging in an aluminum bag is 0.2% or less. About.
(22)
It is related with the coated tablet of any one of said (13)-(18) whose sulfoxide body after irradiation of 600,000 lux * hr is 0.5% or less without packaging.
(23)
It is related with the coated tablet of any one of said (13)-(18) whose sulfoxide body after irradiating 600,000 lux * hr is 0.35% or less without packaging.
(24)
It is related with the coated tablet of any one of said (13)-(18) whose sulfoxide body after irradiating 600,000 lux * hr is 0.25% or less without packaging.

(25)
A method for producing a granulated product containing montelukast sodium whose stability has been improved by a wet granulation method using alcohol.
(26)
The present invention relates to the method according to the above (25), wherein the alcohol is produced by a wet granulation method by dropping or spraying alcohol on a mixture of montelukast sodium and an additive.
(27)
The present invention relates to the method described in (25) above, which is produced by a wet granulation method wherein a binder is dissolved or suspended in alcohol.
(28)
It is related with the method of any one of said (25)-(27) whose alcohol is ethanol.
(29)
The method according to (28) above, wherein the ethanol is absolute ethanol.
(30)
The method according to (27), wherein the binder is hydroxypropylcellulose.
(31)
It is related with the method of any one of said (25)-(30) which contains a crystalline cellulose in a granulated material.
(32)
The present invention relates to a method for tableting a granulated product obtained by the production method described in any one of (25) to (31) above.
(33)
The present invention relates to a method for obtaining a coated tablet by coating a tablet obtained by the production method described in (32) above with a coating agent.
(34)
The present invention relates to the method described in (33) above, wherein the coating layer contains titanium oxide.
(35)
The method according to (34) above, wherein the titanium oxide is a rutile type.
(36)
It is related with the method of any one of said (34) or (35) whose content of the titanium oxide in a coating layer is 20 to 60%.
(37)
It is related with the method of any one of said (34) or (35) whose content of the titanium oxide in a coating layer is 30 to 50%.
(38)
It is related with the coated tablet of any one of said (33)-(37) in which ferric sesquioxide and / or yellow ferric oxide are contained in the coating layer.
(39)
It is related with the method of any one of said (25)-(38) whose montelukast sodium is amorphous.
(40)
It is related with the coated tablet obtained by the manufacturing method as described in any one of said (33)-(39).
(41)
A granulated product, uncoated tablet or coated preparation containing montelukast or a pharmaceutically acceptable salt thereof, which is produced without substantially using water, and has a suppressed coloration.
(42)
A coated preparation containing montelukast or a pharmaceutically acceptable salt thereof, which is coated with a coating layer containing titanium oxide.
(43)
A preparation comprising a granulated product or uncoated tablet comprising montelukast or a pharmaceutically acceptable salt thereof, wherein the granulated product or uncoated tablet is produced substantially without using water and has a pharmaceutically acceptable period. A preparation containing a granulated product or uncoated tablet in which coloring is suppressed as compared with a granulated product or uncoated tablet obtained by a method including wet granulation using water after storage.
(44)
The preparation according to (43), wherein the color difference ΔE is 2 or more compared to a granulated product or plain tablet obtained by wet granulation using water.
(45)
The preparation according to (43) or (44), wherein the color difference ΔE is 3 or more and 8 or less compared to a granulated product or plain tablet obtained by wet granulation using water.
(46)
The preparation according to any one of (41) to (45), which is a coated tablet.
(47)
The granulated product, plain tablet, or preparation according to any one of (41) to (46) obtained by a method comprising wet granulation using an organic solvent without substantially using water.
(48)
The granulated product, plain tablet, or preparation according to (47), wherein the organic solvent is alcohol.
(49)
The granulated product, plain tablet, or preparation according to (48), wherein the alcohol is ethanol.
(50)
The granulated product, plain tablet, or preparation according to (49), wherein ethanol is absolute ethanol.
(51)
The granulated product, uncoated tablet, or granulated product in the preparation is produced by using hydroxypropylcellulose as a binder, and the granulated product, uncoated tablet, or formulated product according to any one of (41) to (50).
(52)
The granulated product, plain tablet, or preparation according to any one of (41) to (51), which contains crystalline cellulose in the granulated product or in the uncoated tablet or the granulated product in the preparation.
(53)
The granulated product, plain tablet, or preparation according to any one of (41) to (52), wherein montelukast is montelukast sodium and montelukast sodium is amorphous.
(54)
The preparation according to any of (41) to (53), wherein the preparation is a granule, a capsule or a tablet.
(55)
The preparation according to any one of (41) to (54), wherein the preparation is a coated preparation, and the coating layer contains titanium oxide.
(56)
The preparation according to (55), wherein the titanium oxide is a rutile type.
(57)
The preparation according to (55) or (56), wherein the content of titanium oxide in the coating layer is 20 to 60%.
(58)
The preparation according to (55) or (56), wherein the content of titanium oxide in the coating layer is 30 to 50%.
(59)
The preparation according to any one of (55) to (59), wherein iron sesquioxide and / or yellow iron sesquioxide is contained in the coating layer.
(60)
The preparation according to any of (41) to (59), wherein the sulfoxide form after storage for 12 weeks at 40 ° C. and 75% relative humidity under PTP packaging in an aluminum bag is 0.5% or less.
(61)
The preparation according to any of (41) to (59), wherein the sulfoxide form after storage for 12 weeks at 40 ° C. and 75% relative humidity under PTP packaging in an aluminum bag is 0.3% or less.
(62)
The preparation according to any one of (41) to (59), wherein the sulfoxide form after storage for 12 weeks at 40 ° C. and 75% relative humidity under PTP packaging in an aluminum bag is 0.2% or less.
(63)
The preparation according to any one of (41) to (62), which is unwrapped and has a sulfoxide form of 0.5% or less after irradiation with 600,000 lux · hr.
(64)
The preparation according to any one of (41) to (62), which is unwrapped and has a sulfoxide form of 0.35% or less after irradiation with 600,000 lux · hr.
(65)
The preparation according to any one of (41) to (59), which is unwrapped and has a sulfoxide form of 0.25% or less after irradiation with 600,000 lux · hr.
(66)
A method for suppressing coloration of a granulated product, uncoated tablet, or preparation, comprising wet granulation substantially without using water.
(67)
The method according to (66), wherein the wet granulation is performed using alcohol.
(68)
The method according to (66) or (67), wherein the wet granulation is wet granulation by dropping or spraying alcohol on a mixture of montelukast sodium and an additive.
(69)
The method according to any one of (66) to (68), wherein the wet granulation is performed by dissolving or suspending the binder in alcohol.
(70)
The method according to any one of (66) to (69), comprising wet granulation with ethanol.
(71)
The method according to (70), wherein the ethanol is absolute ethanol.
(72)
The method according to any one of (66) to (71), wherein the wet granulation is performed by dissolving or suspending the binder in alcohol and the binder is hydroxypropylcellulose.
(73)
The method according to any one of (66) to (72), wherein the granulated product obtained by wet granulation contains crystalline cellulose.
(74)
A method for stabilizing a preparation comprising montelukast or a pharmaceutically acceptable salt thereof, comprising the step of coating the preparation with a coating layer containing titanium oxide.
(75)
The method according to (74), wherein the titanium oxide is a rutile type.
(76)
The method according to (74) or (75), wherein the content of titanium oxide in the coating layer is 20 to 60%.
(77)
The method according to (74) or (75), wherein the content of titanium oxide in the coating layer is 30 to 50%.
(78)
The method according to any one of (74) to (77), wherein iron sesquioxide and / or yellow iron sesquioxide is contained in the coating layer.
(79)
The method according to any one of (74) to (78), wherein montelukast is montelukast sodium and montelukast sodium is amorphous.

Next, the granulated product of the present invention, the tablet of the present invention obtained using the granulated product, and the method for producing the coated tablet of the present invention will be described.
(1) Mix Montelukast sodium, excipient, and disintegrant.
(2) Next, the granulated product of the present invention is obtained by wet granulating the mixture of (1) above using a binder and an organic solvent.
(3) Sizing.
(4) Drying.
(5) Sizing.
(6) A lubricant is added to the above sized product and mixed.
(7) Next, the tablet of the present invention (plain tablet) is obtained by tableting the above mixture with a tableting machine.
(8) The coated tablet of the present invention is obtained by coating the uncoated tablet with a coating solution.
(9) The coated tablet of the present invention may be further subjected to a gloss coating.

One tablet weight of the coated tablet of the present invention is 160 to 240 mg, preferably 180 to 220 mg in the case of montelukast sodium 10.4 mg (10 mg in terms of montelukast), and 5.2 mg (5 mg in terms of montelukast) of montelukast sodium. In the case, it is 80 to 120 mg, preferably 90 to 110 mg. The content of montelukast in the preparation may be set as appropriate, and may be 0.01 wt% to 80 wt%, preferably 0.1 wt% to 20 wt%, more preferably 1 wt% to 10 wt% possible.
The montelukast sodium used in the present invention may be either crystalline or amorphous, and is preferably amorphous.
In place of montelukast sodium, montelukast or a pharmaceutically acceptable salt of montelukast may be used. Examples of pharmaceutically acceptable salts include hydrochlorides, hydrobromides, hydrosulfates and the like, as well as sodium and salts such as potassium and magnesium.
The granulated product or uncoated tablet provided by the present invention can be produced by a method that does not substantially use water. Examples of methods that do not substantially use water include a method in which water is not added in the production process and a method in which only water (for example, water in a hydrate) contained in the formulation component is used. It is done.
The present invention also provides a preparation comprising a granulated product or an uncoated tablet produced by a method using substantially no water. The formulation has, for example, a water content of 0 to 2% by weight, 1 to 2% by weight, 1.6 to 1.8% by weight, 1.9% by weight or less, 1.8% by weight or less, 1.75% by weight or less It may be 1.70% by weight or less or 1.65% by weight or less. The moisture content is measured by an appropriate method. For example, the moisture content may be obtained from the weight reduced by heating the powder at 105 ° C. for 30 minutes. Examples of the preparation include tablets (for example, coated tablets), capsules, and granules.
In the production of the granulated product of the present invention, examples of the organic solvent used in wet granulation include ethanol and isopropanol, preferably ethanol, and more preferably anhydrous ethanol.
The organic solvent may be dropped or sprayed onto a mixture of montelukast sodium and an additive, or may be wet granulated by dissolving or suspending a binder in an organic solvent.
Examples of the excipient used in the production of the tablet of the present invention include lactose, crystalline cellulose, mannitol, sucrose, cornoxy starch and the like, and preferably lactose and crystalline cellulose.
The amount of the excipient is preferably 80 to 95% by weight.
Examples of the disintegrant include croscarmellose sodium, carmellose calcium, crospovidone, low-substituted hydroxypropyl cellulose, and preferably croscarmellose sodium.
The amount of the disintegrant is preferably 1 to 7% by weight.
Examples of the binder include hypromellose, povidone, hydroxypropylcellulose, and the like, and preferably hydroxypropylcellulose.
The amount of binder is preferably 0.5-5% by weight.
Examples of the lubricant include talc, magnesium calcium stearate, magnesium stearate and the like, preferably magnesium stearate.
The amount of lubricant is preferably 0.3 to 3% by weight.

In the production of the coated tablet of the present invention, hypromellose and methylcellulose are used as the coating agent. Hydroxypropyl cellulose and the like can be mentioned, and hypromellose and hydroxypropyl cellulose are preferable.
Examples of the colorant include titanium oxide, yellow iron sesquioxide, and iron sesquioxide.
An example of the brightening agent is carnauba wax.
The coating layer preferably contains titanium oxide, and the titanium oxide is preferably a rutile type.
The content of titanium oxide in the coating layer is 20 to 60%, more preferably 30 to 50%.
Moreover, it is preferable that iron sesquioxide and / or yellow iron sesquioxide are contained in the coating layer.
The granule and chewable tablet of the present invention can be produced by a conventional method except that the granulated product containing montelukast sodium produced by the wet granulation method substantially using no water described above is used.

The coated preparation 1 of the present invention obtained by wet granulation using absolute ethanol from the storage stability test results shown in Tables 5 to 7 of Example 1 described later is obtained by wet granulation using water. Compared with the reference preparation 1, the increase in the total amount of the related substance (sulfoxide form) having a retention time of 2.6 minutes and the related substance and related substances of 2.9 minutes was suppressed. Therefore, the coated preparation of the present invention is a preparation having excellent storage stability.
The coated preparation of the present invention has a sulfoxide form of 0.5% or less, preferably 0.3% or less, more preferably, after storage for 12 weeks at 40 ° C. and 75% relative humidity under PTP packaging in an aluminum bag. 0.2% or less.
By the way, as described in Example 1 below, it was confirmed that the mixed powder turned yellow in the granulation process of the reference preparation 1 during the production of the reference preparation 1. However, in the coated preparation 1 of the present invention, such discoloration was observed. Was not recognized. (See Table 3)
Therefore, the granulated product of the present invention is an excellent granulated product that is not colored.
The granulated product or uncoated tablet produced by the method provided by the present invention by using a substantially water-free method was obtained by wet granulation with water after storage for a pharmaceutically acceptable period. Coloring (for example, yellow coloring) can be suppressed as compared with a granulated product or uncoated tablet. A pharmaceutically acceptable period may be a period generally required in the pharmaceutical industry, for example, 3-5 years (eg, 3 years, 5 years) at room temperature.
Coloring may be determined by measuring the color difference (ΔE). The color difference may be calculated by measuring a difference between three numerical values of L ^* , a ^* , and b ^* (difference between a test substance and a control substance) using an appropriate color difference meter. For example, it can be measured as described in the examples. The granulated product produced without using water substantially provided by the present invention has a color difference (ΔE) of, for example, the same as that of the granulated product produced in the same process except for water. It can be 2-10, 3-8, 6-9, 2 or more, 6 or more, or 7 or more. The uncoated tablet manufactured by using the present invention substantially without using water is different from the uncoated tablet having the same components other than water and manufactured in the same process. (ΔE) can be, for example, 2 to 10, 3 to 8, 2 to 4, 3 to 5, 2 or more, or 3 or more. Using the granulated product or uncoated tablet produced by such a method substantially free of water provided by the present invention, a preparation containing them can be provided. Moreover, this invention can provide the coloring suppression method of granulation, an uncoated tablet, and a formulation including wet granulation by the method which does not use water further substantially.
In addition, the coated preparation of the present invention having rutile type titanium oxide in the coating layer is significantly more photostabilizing effect than the anatase type coated preparation from the results of the light stability test of Example 2 and FIGS. Had won.
Therefore, the coating preparation of the present invention having rutile-type titanium oxide in the coating layer is an excellent preparation with improved light stability. The present invention also provides a method for stabilizing montelukast sodium comprising coating with a coating layer having rutile titanium oxide.
The coated preparation of the present invention is unwrapped, and its sulfoxide form after irradiation with 600,000 lux · hr is 0.5% or less, preferably 0.35% or less, more preferably 0.25% or less.
Next, the present invention will be described in more detail with reference to Examples and Comparative Examples.

Example 1
Table 1 shows the additives of the coated tablet 1 of the present invention containing 10.4 mg of montelukast sodium (10 mg in terms of montelukast) in one tablet.
The coated tablet of the present invention was obtained by the production method shown below.
First, 20.8 g of Montelukast sodium, 178.8 g of lactose hydrate, 182.4 g of crystalline cellulose, and 12 g of croscarmellose sodium were placed in a vertical granulator and mixed. Next, 4 g of hydroxypropylcellulose and 40 g of absolute ethanol were added and wet granulated. In addition, discoloration was not confirmed in the granulation process.
The granulated product obtained here was put into a com mill and sized.
Subsequently, this sized product was put into a box-type dryer and dried at an air supply temperature of 50 ° C. for 18 hours or more, and then the dried product was put into a com mill and sized. The loss on drying was 3% or less.
The obtained granulated product was put into a V-type mixer, 2 g of magnesium stearate was added and mixed, and then the obtained granule was tableted using a rotary tableting machine to obtain an uncoated tablet.
Next, the obtained uncoated tablet is put into Hi-Coater (registered trademark), and the coating solution (aqueous solution) is sprayed at an air supply temperature of 80 ° C. Then, the polishing coating solution (ethanol solution) is further sprayed. The coated preparation 1 of the present invention was obtained by drying for 30 minutes.

Reference example 1
Table 2 shows the additives of Reference Preparation 1 containing 10.4 mg of montelukast sodium (10 mg in terms of montelukast) in one tablet.
First, 20.8 g of Montelukast sodium, 178.4 g of lactose hydrate, 174.8 g of crystalline cellulose and 12 g of croscarmellose sodium were placed in a vertical granulator and mixed. Next, 12 g of hydroxypropylcellulose and 80 g of water were added and wet granulated. In addition, it was confirmed that the powder turns yellow immediately after the granulation process starts adding water to the mixed powder and starting granulation.
The granulated product obtained here was put into a com mill and sized.
Subsequently, this sized product was put into a box-type dryer and dried at an air supply temperature of 50 ° C. for 18 hours or more, and then the dried product was put into a com mill and sized. The loss on drying was 3% or less.
The obtained granulated product was put into a V-type mixer, 2 g of magnesium stearate was added and mixed, and then the obtained granule was tableted using a rotary tableting machine to obtain an uncoated tablet.
Next, the obtained uncoated tablet is put into Hi-Coater (registered trademark), and the coating solution (aqueous solution) is sprayed at an air supply temperature of 80 ° C. Then, the polishing coating solution (ethanol solution) is further sprayed. By drying for 30 minutes, Reference Preparation 1 of the present invention was obtained.

Color tone measurement The color tone of the granulated product of Example 1 and Reference Example 1 (before drying) was measured. The results are as follows.
Manufacturer name: Nippon Denshoku Industries Co., Ltd. Model name: ZE2000
Color tone measurement results:

L ^* represents lightness = density, 0.0 to 100.0, 0.0 is black, and 100.0 is white.
a ^* represents the red direction on the plus side, the green direction on the minus side, b ^* represents the yellow direction on the plus side, and the blue direction on the minus side.
ΔE = [(L1-L2) ² + (a1-a2) ² + (b1-b2) ² ] ^1/2
The granulated product of Reference Example 1 was clearly more yellow than the granulated product of Example 1.
In addition, the uncoated tablet of Example 1 and the uncoated tablet of Reference Example 1 are placed in a plastic bottle and stored for 6 months under the condition of 40 ° C. and 75% RH. Stored for months, measured the color tone in the same manner as described above, and further photographed. The results of color tone measurement were as follows.
The photograph was as shown in FIG. From the uncoated tablet of Example 1, it was found that the uncoated tablet of Reference Example 1 was colored more yellow due to storage. When the uncoated tablet before storage for 6 months under the conditions of 40 ° C. and 75% RH, no difference in color tone was observed between the uncoated tablet of Example 1 and the uncoated tablet of Reference Example 1.
Stability Test Method The coated preparation 1 of the present invention described in Example 1 and the reference preparation 1 described in Reference Example 1 were PTP-packed and stored in an aluminum bag, and then a storage stability test at 40 ° C. and 75% was performed. As a control formulation, 10 mg of Kipress (registered trademark) tablets was used.
The amount of the related substance was measured under the following HPLC conditions.

(HPLC conditions)
Column: A stainless steel tube having an inner diameter of 4.6 mm and a length of 5 cm is filled with 1.8 μm of phenylsilyl silica gel for liquid chromatography. Mobile phase A: water / trifluoroacetic acid mixture (2000: 3)
Mobile phase B: acetonitrile / trifluoroacetic acid mixture for liquid chromatography (2000: 3)
Transfer of mobile phase: Concentration control is performed by changing the mixing ratio of mobile phase A and mobile phase B as follows.

Flow rate: 1.2 mL per minute
Measurement wavelength: 238 nm
Column temperature: constant temperature around 30 ° C
Test results Tables 6, 7, and 8 show the results of a storage stability test at 40 ° C and 75% for the coated preparation 1 of the present invention described in Example 1, the reference preparation 1 described in Reference Example 1, and the control preparation 1.
(1) Test result of coating preparation 1 described in Example 1

(2) Test results of Reference Formulation 1 described in Reference Example 1

(3) Comparison of degradation amount of 2.6 minutes retention time

Control formulation 1: Kipress (registered trademark) tablets 10 mg
As is clear from Tables 6, 7, and 8, the coated preparation 1 of the present invention obtained by wet granulation using absolute ethanol was used as the reference preparation 1 obtained by wet granulation using water. In comparison, an increase in the related substance (sulfoxide form) having a retention time of 2.6 minutes and an increase in the total amount of the related substance and related substances of 2.9 minutes was suppressed. Moreover, although it was confirmed that the reference preparation 1 discolored yellow in the granulation process, the coating preparation 1 of the present invention did not show such discoloration.
Example 2
First, 78 g of Montelukast sodium, 670.5 g of lactose hydrate, 684 g of crystalline cellulose and 45 g of croscarmellose sodium were placed in a vertical granulator and mixed. Next, 15 g of hydroxypropylcellulose and 112.5 g of absolute ethanol were added and wet granulated. In addition, discoloration was not confirmed in the granulation process.
The granulated product obtained here was put into a com mill and sized.
Subsequently, this sized product was put into a box-type dryer and dried at an air supply temperature of 50 ° C. for 18 hours or more, and then the dried product was put into a com mill and sized. The loss on drying was 3% or less.
The obtained sized product was put into a V-type mixer, 7.5 g of magnesium stearate was added and mixed, and then the obtained granule was tableted using a rotary tableting machine to obtain an uncoated tablet.
Next, the obtained uncoated tablet is put into Hi-Coater (registered trademark), and the coating solution (aqueous solution) is sprayed at an air supply temperature of 80 ° C. Then, the polishing coating solution (ethanol solution) is further sprayed. By drying for 30 minutes, the coated preparations 2 to 5 of the present invention containing 10.4 mg of montelukast sodium (10 mg in terms of montelukast) in one tablet were obtained.

Coating formulation 2:
Titanium oxide is anatase type + coating agent spray solution with aqueous solution 3:
Titanium oxide is a rutile type + coating agent sprayed with an aqueous solution 4:
Spray coating formulation 5 with titanium oxide anatase type + coating agent with water-containing ethanol:
Titanium oxide is anatase type + titanium oxide and iron oxide increased + coating agent sprayed with aqueous solution

Test Method Using the coated preparations 2 to 5 of the present invention described in Example 2 and the control preparation 2 (single rare (registered trademark) tablets 10 mg), a photostability test of 600,000 lux · hr was conducted without packaging.
The amount of the related substance was measured under the HPLC conditions described in Example 1.
Test Results FIGS. 1 to 4 show the photostability test results of the coated preparations 2 to 5 and the control preparation 2 (Singlea (registered trademark) 10 mg) of the present invention.
1-4, it became clear that the coated preparation in which the titanium oxide is in the rutile type has an excellent light stabilization effect as compared with the anatase type coated preparation and the control preparation 2.
Therefore, a coated preparation in which titanium oxide is a rutile type is a preparation having an excellent light stabilizing effect.
1-4, in the coating using hydrous ethanol, the amount of related substances increased over time. Therefore, the coating liquid is preferably an aqueous solution.

The vertical axis in FIGS. 1 to 4 represents the amount of decomposition products of related substances.
The horizontal axis of FIGS. 1-4 represents light irradiation amount or elapsed time.
1-4, ◯ represents the control formulation 2.
1-4, ◇ represents the coated preparation 2.
1 to 4, Δ represents the coated preparation 3.
1 to 4, * represents the coated preparation 4.
1-4, □ represents the coated preparation 5.

Claims (79)

  A granulated product containing montelukast sodium produced by a wet granulation method substantially using no water.   The granulated product according to claim 1, which is produced by a wet granulation method in which an organic solvent is dropped or sprayed onto a mixture of montelukast sodium and an additive.   The granulated product according to claim 1, which is produced by a wet granulation method in which a binder is dissolved or suspended in an organic solvent.   The granulated product according to any one of claims 1 to 3, wherein the organic solvent is alcohol.   The granulated product according to claim 4, wherein the alcohol is ethanol.   The granulated product according to claim 5, wherein ethanol is absolute ethanol.   The granulated product according to claim 3, wherein the binder is hydroxypropylcellulose.   The granulated product according to any one of claims 1 to 7, wherein the granulated product contains crystalline cellulose.   The granulated product according to any one of claims 1 to 8, wherein the montelukast sodium is amorphous.   The granule containing the granulated material of any one of Claims 1-9.   The capsule containing the granulated material of any one of Claims 1-9.   A tablet obtained by tableting the granulated product according to any one of claims 1 to 9.   A coated tablet, wherein the tablet according to claim 12 is provided with a coating layer.   The coated tablet according to claim 13, wherein the coating layer contains titanium oxide.   The coated tablet according to claim 14, wherein the titanium oxide is a rutile type.   The coated tablet according to any one of claims 14 and 15, wherein the content of titanium oxide in the coating layer is 20 to 60%.   The coated tablet according to any one of claims 14 and 15, wherein the content of titanium oxide in the coating layer is 30 to 50%.   The coated tablet according to any one of claims 13 to 17, wherein the coating layer contains iron sesquioxide and / or yellow iron sesquioxide.   The coated tablet according to any one of claims 13 to 18, wherein the sulfoxide form after storage for 12 weeks at 40 ° C and 75% relative humidity under PTP packaging in an aluminum bag is 0.5% or less.   The coated tablet according to any one of claims 13 to 18, wherein the sulfoxide form after storage for 12 weeks at 40 ° C and 75% relative humidity under PTP packaging in an aluminum bag is 0.3% or less.   The coated tablet according to any one of claims 13 to 18, wherein the sulfoxide form after storage for 12 weeks at 40 ° C and 75% relative humidity under PTP packaging in an aluminum bag is 0.2% or less.   The coated tablet according to any one of claims 13 to 18, which is unwrapped and has a sulfoxide form of 0.5% or less after irradiation with 600,000 lux · hr.   The coated tablet according to any one of claims 13 to 18, which is unwrapped and has a sulfoxide form of 0.35% or less after irradiation with 600,000 lux · hr.   The coated tablet according to any one of claims 13 to 18, which is unwrapped and has a sulfoxide form of 0.25% or less after irradiation with 600,000 lux · hr.   A method for producing a granulated product containing montelukast sodium whose stability has been improved by a wet granulation method using alcohol.   26. The method according to claim 25, wherein the alcohol is produced by a wet granulation method by dropping or spraying alcohol on a mixture of montelukast sodium and an additive.   26. The method according to claim 25, which is produced by a wet granulation method in which a binder is dissolved or suspended in alcohol.   28. A method according to any one of claims 25 to 27, wherein the alcohol is ethanol.   30. The method of claim 28, wherein the ethanol is absolute ethanol.   28. The method of claim 27, wherein the binder is hydroxypropyl cellulose.   The method according to any one of claims 25 to 30, wherein the granulated product contains crystalline cellulose.   32. A method of tableting a granulated product obtained by the production method according to any one of claims 25 to 31 to obtain a tablet.   A method for obtaining a coated tablet by coating a tablet obtained by the production method according to claim 32 with a coating agent.   The method according to claim 33, wherein the coating layer contains titanium oxide.   35. The method of claim 34, wherein the titanium oxide is rutile type.   The method according to any one of claims 34 and 35, wherein the content of titanium oxide in the coating layer is 20 to 60%.   The method according to any one of claims 34 and 35, wherein the content of titanium oxide in the coating layer is 30 to 50%.   The method according to any one of claims 33 to 37, wherein iron sesquioxide and / or yellow iron sesquioxide is contained in the coating layer.   39. A method according to any one of claims 25 to 38, wherein the montelukast sodium is amorphous.   A coated tablet obtained by the production method according to any one of claims 33 to 39.   A granulated product, uncoated tablet or coated preparation containing montelukast or a pharmaceutically acceptable salt thereof, which is produced without substantially using water, and has a suppressed coloration.   A coated preparation containing montelukast or a pharmaceutically acceptable salt thereof, which is coated with a coating layer containing titanium oxide.   A preparation comprising a granulated product or uncoated tablet comprising montelukast or a pharmaceutically acceptable salt thereof, wherein the granulated product or uncoated tablet is produced substantially without using water and has a pharmaceutically acceptable period. A preparation containing a granulated product or uncoated tablet in which coloring is suppressed as compared with a granulated product or uncoated tablet obtained by a method including wet granulation using water after storage.   44. The formulation according to claim 43, wherein the color difference ΔE is 2 or more compared to a granulated product or uncoated tablet obtained by a method comprising wet granulation with water.   45. The preparation according to claim 43 or claim 44, wherein the color difference ΔE is 3 or more and 8 or less compared to a granulated product or uncoated tablet obtained by wet granulation using water.   The formulation according to any one of claims 41 to 45, which is a coated tablet.   The granulated product, plain tablet, or preparation according to any one of claims 41 to 46, obtained by a method comprising wet granulation using an organic solvent without substantially using water.   The granulated product, plain tablet, or preparation according to claim 47, wherein the organic solvent is alcohol.   The granulated product, uncoated tablet, or preparation according to claim 48, wherein the alcohol is ethanol.   The granulated product, uncoated tablet, and preparation according to claim 49, wherein ethanol is absolute ethanol.   The granulated product, uncoated tablet, or granulated product in the preparation is produced by using hydroxypropylcellulose as a binder, and the granulated product, uncoated tablet, or formulated product according to any one of claims 41 to 50.   The granulated product, plain tablet, or preparation according to any one of claims 41 to 51, which contains crystalline cellulose in the granulated product or in the uncoated tablet or the granulated product in the preparation.   The granulated product, plain tablet, and preparation according to any one of claims 41 to 52, wherein montelukast is montelukast sodium and montelukast sodium is amorphous.   The preparation according to any one of claims 41 to 53, wherein the preparation is a granule, a capsule or a tablet.   The preparation according to any one of claims 41 to 54, wherein the preparation is a coated preparation, and the coating layer contains titanium oxide.   The preparation according to claim 55, wherein the titanium oxide is a rutile type.   The preparation according to claim 55 or 56, wherein the content of titanium oxide in the coating layer is 20 to 60%.   The preparation according to claim 55 or 56, wherein the content of titanium oxide in the coating layer is 30 to 50%.   The preparation according to any one of claims 55 to 59, wherein iron sesquioxide and / or yellow iron sesquioxide is contained in the coating layer.   The preparation according to any one of claims 41 to 59, wherein the sulfoxide form after storage for 12 weeks at 40 ° C and 75% relative humidity under PTP packaging in an aluminum bag is 0.5% or less.   The preparation according to any one of claims 41 to 59, wherein the sulfoxide form after storage for 12 weeks at 40 ° C and 75% relative humidity under PTP packaging in an aluminum bag is 0.3% or less.   The preparation according to any one of claims 41 to 59, wherein the sulfoxide form after storage for 12 weeks at 40 ° C and 75% relative humidity under PTP packaging in an aluminum bag is 0.2% or less.   The preparation according to any one of claims 41 to 62, which is unwrapped and has a sulfoxide form of 0.5% or less after irradiation with 600,000 lux · hr.   The preparation according to any one of 41 to 62, which is unwrapped and has a sulfoxide form of 0.35% or less after irradiation with 600,000 lux · hr.   The formulation according to any one of claims 41 to 59, which is unwrapped and has a sulfoxide form of 0.25% or less after irradiation with 600,000 lux · hr.   A method for suppressing coloration of a granulated product, uncoated tablet, or preparation, comprising wet granulation substantially without using water.   68. The method of claim 66, wherein the wet granulation is performed using alcohol.   68. The method according to claim 66 or claim 67, wherein the wet granulation is wet granulation by dripping or spraying alcohol onto a mixture of montelukast sodium and an additive.   69. A method according to any of claims 66 to 68, wherein the wet granulation is performed by dissolving or suspending the binder in alcohol.   70. The method according to any one of claims 66 to 69, comprising wet granulation with ethanol.   71. A method according to claim 70, wherein the ethanol is absolute ethanol.   The method according to any one of claims 66 to 71, wherein the wet granulation is performed by dissolving or suspending a binder in alcohol, and the binder is hydroxypropylcellulose.   The method according to any one of claims 66 to 72, wherein the granulated product obtained by wet granulation contains crystalline cellulose.   A method for stabilizing a preparation comprising montelukast or a pharmaceutically acceptable salt thereof, comprising the step of coating the preparation with a coating layer containing titanium oxide.   75. The method of claim 74, wherein the titanium oxide is rutile type.   The method according to claim 74 or 75, wherein the content of titanium oxide in the coating layer is 20 to 60%.   The method according to claim 74 or 75, wherein the content of titanium oxide in the coating layer is 30 to 50%.   The method according to any one of claims 74 to 77, wherein iron sesquioxide and / or yellow iron sesquioxide is contained in the coating layer.   79. A method according to any one of claims 74 to 78, wherein the montelukast is montelukast sodium and the montelukast sodium is amorphous.