TWI612975B - Quickly disintegrating tablet - Google Patents
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- TWI612975B TWI612975B TW102106726A TW102106726A TWI612975B TW I612975 B TWI612975 B TW I612975B TW 102106726 A TW102106726 A TW 102106726A TW 102106726 A TW102106726 A TW 102106726A TW I612975 B TWI612975 B TW I612975B
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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
- A61K9/0053—Mouth and digestive tract, i.e. intraoral and peroral administration
- A61K9/0056—Mouth soluble or dispersible forms; Suckable, eatable, chewable coherent forms; Forms rapidly disintegrating in the mouth; Lozenges; Lollipops; Bite capsules; Baked products; Baits or other oral forms for animals
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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
- A61K9/20—Pills, tablets, discs, rods
- A61K9/2095—Tabletting processes; Dosage units made by direct compression of powders or specially processed granules, by eliminating solvents, by melt-extrusion, by injection molding, by 3D printing
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Abstract
本發明係提供一種含有依照藥物特性賦予企求的機能之含藥物粒子的錠劑,即使經由會影響其機能之製劑化步驟,仍具有充分機能之速崩散性錠劑(特別是口腔內崩散錠)、及其製造方法。 The present invention provides a lozenge containing drug-containing particles that impart desired functions according to the characteristics of the drug. Even after going through a formulation step that affects its function, a rapidly disintegrating lozenge with sufficient function (especially intraoral disintegration) Ingot), and its manufacturing method.
前述速崩散性錠劑將藥物及藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質,以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而得。 The aforementioned fast-disintegrating lozenges treat drugs and substances having a binding agent function by processing carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state, and processing carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state Got.
Description
本發明係有關一種藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理之具有多孔性構造的速崩散性錠劑(特別是口腔內崩散錠)。而且,本發明係有關一種藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理之具有多孔性構造的速崩散性錠劑(特別是口腔內崩散錠)之製造方法。 The present invention relates to a rapidly disintegrating lozenge (especially an intraoral disintegrating lozenge) with a porous structure treated with carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state. Moreover, the present invention relates to a method for producing rapidly disintegrating tablets (especially intraoral disintegrating tablets) processed by supercritical or subcritical carbon dioxide or liquid or gaseous carbon dioxide.
提供醫藥品製劑時,大多數企求開發必須對溫度或濕度不安定的藥物、或具有苦味的藥物具有徐放性之藥物等,視藥物特性而定賦予含有具特定機能之含藥物粒子的醫藥品製劑。 When providing pharmaceutical preparations, most companies seek to develop drugs that must be unstable to temperature or humidity, or drugs that have a bitter taste, etc., depending on the characteristics of the drug, they are given to medicinal products containing drug-containing particles with specific functions preparation.
於醫藥品製劑中,就患者服用容易性而言錠劑廣泛地提供醫療職場使用作為最適合的劑型之一。 Among pharmaceutical preparations, lozenges are widely used in the medical workplace as one of the most suitable dosage forms in terms of ease of taking by patients.
另外,依照1980年代進行的厚生省厚生科學研究銀髮族科學研究,報告有「投予高齡者最適合的新穎製劑及新穎包裝容器的作成研究」(東京女子醫大、杉原正泰氏 等人)(藥事日報平成元年8月22日發行;非專利文獻1)。例如,提供a)口腔溶解型製劑、b)漿料狀製劑、c)果凍狀製劑作為新穎製劑,其中,口腔溶解型製劑及漿料狀製劑因容易服用、安定性對高齡者而言為易服用的製劑。 In addition, according to the silver hair scientific research conducted by the Ministry of Health, Welfare, and Health Sciences of the Ministry of Health and Welfare conducted in the 1980s, "the research on the preparation of the most suitable novel preparations and novel packaging containers for elderly people" (Tokyo Women's Medical University, Masahara Sugihara Et al.) (Pharmaceutical Daily was issued on August 22, 2011; Non-Patent Document 1). For example, a) oral dissolving preparations, b) slurry-like preparations, c) jelly-like preparations are provided as novel preparations. Among them, oral-dissolving preparations and slurry-like preparations are easy to take and stable for the elderly. Taking the preparation.
口腔內崩散錠為適合吞嚥能力降低的患者之劑形,已知廣泛使用作為對攝取水而言受到限制的患者、或對就寢前或外出時等無水可飲用的情形而言便利性高的劑形。 The oral disintegrating tablet is a dosage form suitable for patients with reduced swallowing ability, and it is widely known to be widely used as a patient who is restricted in intake of water, or highly convenient for drinking without water such as before bedtime or when going out Dosage form.
有關口腔內崩散錠之製劑技術,報告有關含有使成形性低的糖類以成形性高的糖類作為結合劑進行噴霧且被覆及/或造粒而形成的造粒物之口腔內崩散錠的發明(專利文獻1)。 About oral disintegrating tablet preparation technology, report on oral disintegrating tablet containing granules formed by spraying and coating and / or granulating sugar with low formability and using high formability sugar as a binder Invention (Patent Document 1).
另外,為改善供應材料之流動性不佳或於加壓時產生材料附著於加壓構件等缺點之製造上的問題時,報告有關速溶解性錠劑之製造方法的發明,其特徵為具備以含有藥劑、水溶性結合劑及水溶性賦形劑之乾燥狀態的錠劑材料作為錠劑形態,以維持該形態之硬度時之最低必要低壓力進行加壓成形的打錠步驟、為使打錠步驟所成形的錠劑吸濕時之加濕步驟、與使以加濕步驟加濕的錠劑乾燥的乾燥步驟(專利文獻2)。 In addition, in order to improve the manufacturing problems such as poor fluidity of the supplied material or adhesion of the material to the pressurizing member during pressurization, the invention of a method for manufacturing a fast-dissolving lozenge is reported, which is characterized by The dried tablet material containing the medicament, water-soluble binder and water-soluble excipient is used as a tablet form, and the minimum necessary pressure to maintain the hardness of the form is the tableting step of pressure forming, in order to make the tablet The tablet formed in the step includes a humidifying step when absorbing moisture, and a drying step for drying the tablet humidified in the humidifying step (Patent Document 2).
此外,報告有關於含有藥物、糖類、及聚乙二醇所形成的組成物中,藉由將該組成物進行低壓打錠後,在前述聚乙二醇熔融的溫度條件下予以昇溫,聚乙二醇藉由在藥物及糖類之間形成粒子間交聯而形成具有多孔性構造之口 腔內崩散錠的發明(專利文獻3)。 In addition, there is a report on a composition containing medicines, sugars, and polyethylene glycol. After the composition is subjected to low-pressure beating, the temperature is raised under the temperature conditions at which the polyethylene glycol melts. Glycols form a mouth with a porous structure by forming inter-particle crosslinks between drugs and sugars Invention of collapsible ingot in cavity (Patent Document 3).
另外,報告有關為在沒有延長口腔內之崩散時間下,提高錠劑強度且改善磨損度時,含有藥物、稀釋劑及熔點相對藥物與稀釋劑較低的糖類而成,熔點低的糖類被均勻地摻合於錠劑中,在藥物及/或稀釋劑粒子間藉由熔點低的糖類之熔融固化物形成交聯而成口腔內速崩散性錠劑(專利文獻4);有關含有生理活性物質及聚乙烯醇-聚乙二醇接枝共聚物的口腔內崩散錠之發明(專利文獻5);有關速崩散性錠劑之製造方法的發明,為製作具有迅速崩散性及充分的錠劑強度之速崩散性錠劑時,由(1)混合有效成分與丙烯酸共聚物與至少一種藥理學上可容許的添加劑之步驟,(2)將(1)步驟所得的混合物進行壓縮成形的步驟,及(3)將以(2)步驟所得的壓縮成形物在50~100℃之溫度條件下保溫一定時間的步驟所形成之發明(專利文獻6);有關速崩散性錠劑之製造方法的發明,其特徵為使粉末形態之成分與加壓液化氣體或氣體混合物接觸,予以均一化,藉由加壓化導入成形模具中予以減壓(專利文獻7);有關口腔內速崩散錠之發明,其特徵為藉由包含使含有活性成分、添加劑及超臨界流體可溶性物質之混合物進行打錠,製造錠劑的階段,與使前述錠劑與超臨界流體接觸,萃取超臨界流體可溶性物質,且在錠劑中形成微細空隙的階段的方法製造(專利文獻8)等。 In addition, it is reported that when the strength of the lozenge is improved and the abrasion degree is improved without prolonging the disintegration time in the oral cavity, the medicines, diluents, and sugars with lower melting points than the medicines and diluents are formed. It is uniformly blended into lozenges, and is rapidly disintegrated into the oral cavity by forming a cross-linking between the drug and / or diluent particles through the molten solidified sugar with a low melting point (Patent Document 4); Invention of active material and polyvinyl alcohol-polyethylene glycol graft copolymer for oral disintegrating tablets (Patent Document 5); invention related to the manufacturing method of rapidly disintegrating tablets for the production of rapid disintegrating and For rapid disintegrating lozenges of sufficient lozenge strength, the steps of (1) mixing the active ingredient with an acrylic copolymer and at least one pharmacologically acceptable additive, (2) carrying out the mixture obtained in step (1) Compression molding step, and (3) Invention formed by the step of holding the compression molded article obtained in step (2) under a temperature condition of 50 to 100 ° C for a certain period of time (Patent Document 6); related to rapidly disintegrating ingot The invention of the manufacturing method of the agent In order to bring the components in powder form into contact with the pressurized liquefied gas or gas mixture and homogenize them, the pressure is introduced into the forming mold to reduce the pressure (Patent Document 7); the invention relates to the invention of rapid disintegrating ingot In order to make tablets by making a mixture containing an active ingredient, an additive and a supercritical fluid soluble substance, the stage of manufacturing a tablet, and contacting the aforementioned tablet with a supercritical fluid to extract the supercritical fluid soluble substance, and in the tablet The method is produced at the stage of forming fine voids (Patent Document 8).
然而,依然有流通步驟之速崩散性錠劑(特別是口腔 內崩散劑)之缺點的課題,必須為更進一步的改善技術。而且,就維持機能性粒子原有的機能而言,為提供製劑處理時具有充分的製劑硬度且具有快速崩散性的錠劑(速崩散性錠劑(特別是口腔內崩散錠))時,必須更進一步的改善技術。 However, there are still rapid disintegrating tablets (especially oral The problem of the shortcomings of internal disintegrants must be further improved technology. In addition, in order to maintain the original function of the functional particles, in order to provide tablets with sufficient formulation hardness and rapid disintegration during formulation treatment (rapidly disintegrating tablets (especially intraoral disintegrating tablets)) At this time, the technology must be further improved.
此外,加熱處理或加濕處理時,由於恐有藥物分解的情形,為提供不會影響藥物安定性之速崩散性錠劑(特別是口腔內崩散錠)之製造方法時,必須更進一步的改善技術。 In addition, in the case of heat treatment or humidification treatment, due to the possibility of drug decomposition, in order to provide a manufacturing method of fast disintegrating tablets (especially intraoral disintegrating tablets) that will not affect the stability of the drug, it is necessary to go further Improvement technology.
〔專利文獻1〕國際公開第WO95/20380號手冊 [Patent Document 1] International Publication No. WO95 / 20380 Manual
〔專利文獻2〕專利第2919771號公報 [Patent Document 2] Patent No. 2919771
〔專利文獻3〕日本特開平11-33084號公報 [Patent Document 3] Japanese Patent Laid-Open No. 11-33084
〔專利文獻4〕日本特開2004-292457號公報 [Patent Document 4] Japanese Patent Laid-Open No. 2004-292457
〔專利文獻5〕日本特開2006-76971號公報 [Patent Document 5] Japanese Patent Laid-Open No. 2006-76971
〔專利文獻6〕國際公開第WO2006/070845號手冊 [Patent Document 6] Manual of International Publication No. WO2006 / 070845
〔專利文獻7〕日本特開2007-516977號公報 [Patent Document 7] Japanese Patent Laid-Open No. 2007-516977
〔專利文獻8〕日本特表2012-509315號公報 [Patent Document 8] Japanese Patent Publication No. 2012-509315
〔非專利文獻1〕「投予高齡者之最適合的新穎製劑及新穎包裝容器之作成研究」東京女子醫大 杉原正泰等人、藥事日報、平成元年8月22日發行 [Non-Patent Document 1] "Study on the most suitable novel preparations and novel packaging containers for the elderly" Tokyo Women's Medical University, Sugihara Chint, et al., Pharmaceutical Affairs Daily, August 22, 2011
本發明之課題係提供一種可改善錠劑之破缺點的速崩散性錠劑(特別是口腔內崩散錠)。 The object of the present invention is to provide a rapidly disintegrating lozenge (especially an oral disintegrating lozenge) which can improve the breaking defects of the lozenge.
而且,本發明之課題係提供亦可適合使用於對加濕處理或加溫處理而言不安定的藥物之速崩散性錠劑(特別是口腔內崩散錠)。另外,本發明之課題亦提供含有依照藥物特性賦予企求機能的含藥物粒子(以下簡稱為機能性粒子)之錠劑,即使經由製劑化步驟(就製劑設計而言,亦有以高溫度或高濕度處理的情形,而影響含機能性藥物粒子的機能),仍具有充分的該機能之速崩散性錠劑(特別是口腔內崩散錠)。 Furthermore, the object of the present invention is to provide fast-disintegrating tablets (especially intraoral disintegrating tablets) that can be suitably used for drugs that are unstable with respect to humidification treatment or heating treatment. In addition, the subject of the present invention also provides a lozenge containing drug-containing particles (hereinafter referred to as "functional particles") that impart desired functions according to drug characteristics, even after going through the formulation step (in terms of formulation design, high temperature or high In the case of humidity treatment, which affects the function of functional drug-containing particles), it still has sufficient rapid disintegrating tablets (especially intraoral disintegrating tablets).
本發明之另一課題,提供可適合使用於對加濕處理或加溫處理不安定的藥物之速崩散性錠劑(特別是口腔內崩散錠)的製造方法。此外,本發明之另一課題,提供含有依照藥物特性賦予企求機能之含藥物粒子的錠劑,即使經由製劑化步驟(就製劑設計而言,亦有以高溫度或高濕度處理的情形,恐會導致藥物分解或影響含機能性藥物之粒子的機能),藥物本身仍安定或具有充分的機能性粒子之該機能的速崩化性錠劑(特別是口腔內崩散錠)。 Another object of the present invention is to provide a method for producing fast-disintegrating tablets (especially intraoral disintegrating tablets) that can be suitably used for drugs that are unstable to humidification or heating. In addition, another subject of the present invention is to provide a lozenge containing drug-containing particles that impart desired functions in accordance with the characteristics of the drug, even after going through the formulation step (in terms of formulation design, it may be treated at high temperature or high humidity. Will cause the decomposition of the drug or affect the function of the particles containing functional drugs), the drug itself is still stable or has sufficient functional particles of the fast disintegrating tablets (especially intraoral disintegrating tablets).
有鑑於該情形,本發明人等發現以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理時,存在使熔點或玻璃轉移溫度降低的物質,該物質在成份與成分之空隙,藉由架構所謂「粒子間」交聯作為結合劑之機能。 In view of this situation, the inventors found that there is a substance that lowers the melting point or glass transition temperature when processing carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state. The so-called "inter-particle" cross-linking functions as a binding agent.
此外,由於可以穩定的處理條件製造,該所得的速崩 散性錠劑(特別是口腔內崩散錠),在錠劑中含有對溫度或濕度不安定的藥物、或含有機能性粒子(例如由難溶性藥物而成的固體分散體粒子、苦味遮蔽粒子、徐放性粒子等)時,就充分維持該安定性或企求的機能而言,由於具有多孔性構造,故可提供就製劑處理而言具有充分的錠劑硬度,且具有快速崩散性之錠劑(速崩散性錠劑(特別是口腔內崩散錠)),遂而完成本發明。 In addition, since it can be manufactured under stable processing conditions, the resulting rapid disintegration Lozenges (especially oral disintegrating tablets) containing drugs that are unstable to temperature or humidity, or containing functional particles (such as solid dispersion particles made of poorly soluble drugs, bitter taste masking particles) , Xufang particles, etc.), in order to maintain the stability or the desired function sufficiently, due to the porous structure, it can provide tablets with sufficient hardness for the formulation treatment and rapid disintegration Lozenges (rapidly disintegrating lozenges (particularly disintegrating lozenges in the oral cavity)) complete the present invention.
換言之,本發明係有關 In other words, the present invention is related
〔1〕一種速崩散性錠劑,其係含有藥物及藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質,且以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而得。 [1] A rapidly disintegrating lozenge, which contains a drug and a substance that has a binder function by being treated with carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state, and in a supercritical or subcritical state From carbon dioxide or liquid or gaseous carbon dioxide.
〔2〕如〔1〕記載之速崩散性錠劑,其中藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能的物質,係藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而使熔點或玻璃轉移溫度降低的物質。 [2] The fast disintegrating lozenge as described in [1], in which a substance having a binder function by treatment with carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state is obtained by supercritical or subcritical Substance in which carbon dioxide or liquid or gaseous carbon dioxide is treated in a critical state to lower the melting point or glass transition temperature.
〔3〕如〔1〕或〔2〕記載之速崩散性錠劑,其中藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能的物質,係選自乙烯基吡咯烷酮.醋酸乙烯酯共聚物、聚乙烯基己內醯胺-聚乙烯基醋酸-聚乙二醇接枝共聚物、聚乙烯基吡咯烷酮(PVP)、聚乙烯基吡咯烷酮/醋酸乙烯酯樹脂預混合製劑、甲基丙烯酸共聚物LD、聚乙烯醇.聚乙二醇接枝共聚物、聚乙烯醇.聚乙 二醇接枝共聚物/聚乙烯醇預混合製劑、聚氧化乙烯(196)聚氧化丙烯(67)二醇、聚乙二醇(macrogol)、聚氧化乙烯硬化蓖麻油(40)、胺基烷基甲基丙烯酸酯共聚物E、甲基丙烯酸共聚物L、乾燥甲基丙烯酸共聚物LD、甲基丙烯酸共聚物LD、甲基丙烯酸共聚物S、胺基烷基甲基丙烯酸酯共聚物RS、丙烯酸乙酯.甲基丙烯酸甲酯共聚物分散液、乙基纖維素、甲基丙烯酸甲酯.二乙基胺基乙基甲基丙烯酸酯共聚物、羥基丙基甲基纖維素乙酸酯琥珀酸酯、蟲膠(shellac)、卡波姆(carbomer)及聚乙烯基乙縮醛二乙基胺基乙酸酯所成群中之1種或2種以上。 [3] The rapidly disintegrating lozenge described in [1] or [2], wherein the substance having a binder function by treatment with carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state is selected from ethylene Pyrrolidone. Vinyl acetate copolymer, polyvinyl caprolactam-polyvinyl acetic acid-polyethylene glycol graft copolymer, polyvinyl pyrrolidone (PVP), polyvinyl pyrrolidone / vinyl acetate resin premix preparation, methyl alcohol Based acrylic copolymer LD, polyvinyl alcohol. Polyethylene glycol graft copolymer, polyvinyl alcohol. Poly Glycol graft copolymer / polyvinyl alcohol premix preparation, polyethylene oxide (196), polypropylene oxide (67) glycol, polyethylene glycol (macrogol), polyethylene oxide hardened castor oil (40), aminoalkane Methacrylate copolymer E, methacrylic acid copolymer L, dry methacrylic acid copolymer LD, methacrylic acid copolymer LD, methacrylic acid copolymer S, aminoalkyl methacrylate copolymer RS, Ethyl acrylate. Methyl methacrylate copolymer dispersion, ethyl cellulose, methyl methacrylate. Diethylaminoethyl methacrylate copolymer, hydroxypropyl methyl cellulose acetate succinate, shellac, carbomer, and polyvinyl acetal diethyl One or more of the aminoacetate groups.
〔4〕如〔1〕~〔3〕中任一項記載之速崩散性錠劑,其中藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質,相對於錠劑之重量而言為0.1重量%以上50重量%以下。 [4] The rapidly disintegrating lozenge as described in any one of [1] to [3], wherein the substance having a binder function by treatment with carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state, It is 0.1% by weight or more and 50% by weight or less relative to the weight of the tablet.
〔5〕如〔1〕~〔4〕中任一項記載之速崩散性錠劑,其中進一步含有可塑劑。 [5] The fast disintegrating lozenge described in any one of [1] to [4], which further contains a plasticizer.
〔6〕如〔1〕~〔5〕中任一項記載之速崩散性錠劑,其中進一步含有崩散劑。 [6] The fast disintegrating lozenge described in any one of [1] to [5], which further contains a disintegrating agent.
〔7〕如〔1〕~〔6〕中任一項記載之速崩散性錠劑,其中錠劑硬度為20N以上。 [7] The rapidly disintegrating lozenge described in any one of [1] to [6], wherein the hardness of the lozenge is 20N or more.
〔8〕如〔1〕~〔7〕中任一項記載之速崩散性錠劑,其中藉由落下試驗之破損錠數的比例為5%以下。 [8] The rapid disintegrating lozenge described in any one of [1] to [7], wherein the ratio of the number of broken ingots by the drop test is 5% or less.
〔9〕如〔1〕~〔8〕中任一項記載之速崩散性錠劑,其 中速崩散性錠劑為口腔內崩散錠。 〔9〕 The rapid disintegrating lozenge described in any one of [1] to [8], which The medium-speed disintegrating tablet is an oral disintegrating tablet.
〔10〕如〔9〕記載之速崩散性錠劑,其中口腔內崩散時間為120秒以內。 [10] The fast disintegrating lozenge described in [9], wherein the disintegrating time in the oral cavity is within 120 seconds.
〔11〕如〔1〕~〔10〕中任一項記載之速崩散性錠劑,其中藥物係構成對溫度或濕度不安定的藥物及/或機能性粒子。 [11] The fast disintegrating lozenge described in any one of [1] to [10], wherein the drug constitutes a drug and / or functional particles that are unstable to temperature or humidity.
〔12〕如〔11〕記載之速崩散性錠劑,其中機能性粒子係選自由難溶性藥物而成的固體分散體粒子、苦味遮蔽粒子及徐放性粒子所成群中之1種或2種以上的粒子。 [12] The fast disintegrating lozenge as described in [11], wherein the functional particles are selected from the group consisting of solid dispersion particles made of poorly soluble drugs, bitter taste masking particles, and Xufang particles or More than 2 types of particles.
〔13〕一種速崩散性錠劑之製造方法,其特徵為包含(1)混合藥物與藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質的步驟,(2)將(1)之混合物壓縮成形以調製錠劑之步驟,及(3)將(2)之錠劑藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理的步驟。 [13] A method for manufacturing rapidly disintegrating lozenges, characterized by comprising (1) a step of mixing a drug and a substance having a binder function by processing carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state , (2) The step of compressing the mixture of (1) to prepare a tablet, and (3) The step of treating the tablet of (2) with carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state.
〔14〕如〔13〕記載之速崩散性錠劑之製造方法,其中藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質,藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而使熔點或玻璃轉移溫度降低的物質。 [14] The method for producing rapidly disintegrating lozenges as described in [13], wherein a substance having a binder function by treatment with carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state, by supercritical Or the subcritical state of carbon dioxide or liquid or gaseous carbon dioxide treatment to reduce the melting point or glass transition temperature of the substance.
〔15〕如〔13〕或〔14〕記載之速崩散性錠劑之製造方法,其中藉由以超臨界或次臨界狀態之二氧化碳或液體或 氣體二氧化碳處理而具有結合劑機能之物質,係選自由乙烯基吡咯烷酮.醋酸乙烯酯共聚物、聚乙烯基己內醯胺-聚乙烯基醋酸-聚乙二醇接枝共聚物、聚乙烯基吡咯烷酮(PVP)、聚乙烯基吡咯烷酮/醋酸乙烯酯樹脂預混合製劑、甲基丙烯酸共聚物LD、聚乙烯醇.聚乙二醇接枝共聚物、聚乙烯醇.聚乙二醇接枝共聚物/聚乙烯醇預混合製劑、聚氧化乙烯(196)聚氧化丙烯(67)二醇、聚乙二醇(macrogol)、聚氧化乙烯硬化蓖麻油(40)、胺基烷基甲基丙烯酸酯共聚物E、甲基丙烯酸共聚物L、乾燥甲基丙烯酸共聚物LD、甲基丙烯酸共聚物LD、甲基丙烯酸共聚物S、胺基烷基甲基丙烯酸酯共聚物RS、丙烯酸乙酯.甲基丙烯酸甲酯共聚物分散液、乙基纖維素、甲基丙烯酸甲酯.二乙基胺基乙基甲基丙烯酸酯共聚物、羥基丙基甲基纖維素乙酸酯琥珀酸酯、蟲膠及卡波姆所成群中之1種或2種以上。 [15] The method for producing rapidly disintegrating lozenges as described in [13] or [14], in which carbon dioxide or liquid in supercritical or subcritical state or Gaseous carbon dioxide treatment with a binding agent is selected from vinyl pyrrolidone. Vinyl acetate copolymer, polyvinyl caprolactam-polyvinyl acetic acid-polyethylene glycol graft copolymer, polyvinyl pyrrolidone (PVP), polyvinyl pyrrolidone / vinyl acetate resin premix preparation, methyl alcohol Based acrylic copolymer LD, polyvinyl alcohol. Polyethylene glycol graft copolymer, polyvinyl alcohol. Polyethylene glycol graft copolymer / polyvinyl alcohol premix, polyethylene oxide (196), polypropylene oxide (67) glycol, polyethylene glycol (macrogol), polyethylene oxide hardened castor oil (40), amine Alkyl methacrylate copolymer E, methacrylic acid copolymer L, dry methacrylic acid copolymer LD, methacrylic acid copolymer LD, methacrylic acid copolymer S, aminoalkyl methacrylate copolymer RS, ethyl acrylate. Methyl methacrylate copolymer dispersion, ethyl cellulose, methyl methacrylate. One or more of diethylaminoethyl methacrylate copolymer, hydroxypropyl methyl cellulose acetate succinate, shellac, and carbomer.
〔16〕如〔13〕~〔15〕中任一項記載之速崩散性錠劑之製造方法,其中藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質,相對於錠劑之重量而言為0.1重量%以上50重量%以下。 [16] The method for producing fast-disintegrating lozenges as described in any one of [13] to [15], which has a binder function by treatment with carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state The substance is 0.1% by weight or more and 50% by weight or less relative to the weight of the tablet.
〔17〕如〔13〕~〔16〕中任一項記載之速崩散性錠劑之製造方法,其中進一步含有可塑劑。 [17] The method for producing a fast-disintegrating tablet according to any one of [13] to [16], which further contains a plasticizer.
〔18〕如〔13〕~〔17〕中任一項記載之速崩散性錠劑之製造方法,其中進一步含有崩散劑。 [18] The method for producing a fast-disintegrating tablet according to any one of [13] to [17], which further contains a disintegrating agent.
〔19〕如〔13〕~〔18〕中任一項記載之速崩散性錠劑之 製造方法,其中錠劑硬度為20N以上。 〔19〕 Fast disintegrating lozenges as described in any of [13] to [18] Manufacturing method, wherein the hardness of the tablet is 20 N or more.
〔20〕如〔13〕~〔19〕中任一項記載之速崩散性錠劑之製造方法,其中速崩散性錠劑為口腔內崩散錠。 [20] The method for producing a fast-disintegrating tablet according to any one of [13] to [19], wherein the fast-disintegrating tablet is an oral disintegrating tablet.
〔21〕如〔20〕記載之速崩散性錠劑之製造方法,其中口腔內崩散時間為120秒以內。 [21] The method for producing fast disintegrating lozenges as described in [20], wherein the disintegrating time in the oral cavity is within 120 seconds.
〔22〕如〔13〕~〔21〕中任一項記載之速崩散性錠劑之製造方法,其中藥物係構成對溫度或濕度不安定的藥物及/或機能性粒子。 [22] The method for producing fast-disintegrating lozenges as described in any one of [13] to [21], wherein the drug constitutes a drug and / or functional particles that are unstable to temperature or humidity.
〔23〕如〔22〕記載之速崩散性錠劑之製造方法,其中機能性粒子係選自由難溶性藥物而成的固體分散體粒子、苦味遮蔽粒子及徐放性粒子所成群中之1種或2種以上的粒子。 [23] The method for producing fast-disintegrating lozenges as described in [22], wherein the functional particles are selected from the group consisting of solid dispersion particles, bitter taste shielding particles, and Xufang particles made of insoluble drugs One or more particles.
〔24〕如〔13〕~〔23〕中任一項記載之速崩散性錠劑之製造方法,其中包含以0.1MPa以上50MPa以下、且以-40℃以上100℃以下之二氧化碳進行處理。 [24] The method for producing a rapidly disintegrating tablet according to any one of [13] to [23], which includes treatment with carbon dioxide of 0.1 MPa or more and 50 MPa or less and -40 ° C or more and 100 ° C or less.
〔25〕如〔13〕~〔24〕中任一項記載之速崩散性錠劑之製造方法,其中藉由氣體二氧化碳處理。 [25] The method for producing a rapidly disintegrating lozenge as described in any one of [13] to [24], wherein it is treated with gaseous carbon dioxide.
藉由本發明,可提供具有改善破損的耐破損性,且在口腔內具有速崩散性之速崩散性錠劑(特別是口腔內崩散錠)。而且,例如含有由於可在約室溫之穩定條件進行處理,故可提供由對溫度或濕度不安定的藥物或由難溶性藥物而成的固體分散體粒子、苦味遮蔽粒子、徐放性粒子等 時,就充分維持該安定性或企求的機能而言,可提供速崩散性錠劑(特別是口腔內崩散錠)。 According to the present invention, it is possible to provide a fast-disintegrating lozenge (especially an intra-oral disintegrating tablet) having improved breakage resistance and quick disintegration in the oral cavity. Furthermore, for example, it contains solid dispersion particles, bitter taste masking particles, and exothermic particles, which can be processed under stable conditions of about room temperature, so that it can provide solid dispersion particles made of drugs that are unstable to temperature or humidity or poorly soluble drugs. At this time, in order to sufficiently maintain the stability or desired function, fast disintegrating tablets (especially intraoral disintegrating tablets) can be provided.
於下述中,詳細說明有關本發明之實施形態。 In the following, the embodiments of the present invention will be described in detail.
於本說明書中,「超臨界(狀態)」係指壓力、溫度同時超過臨界點之非凝縮性高密度流體。 In this specification, "supercritical (state)" refers to a non-condensable high-density fluid whose pressure and temperature simultaneously exceed the critical point.
此外,「次臨界(狀態)」係指僅壓力、溫度中任一個超過臨界點之狀態。臨界點係指J.W.Tom及P.G.Debenedetti之“Particle Formation with Supercritical Fluids-A Review”,Journal of Aerosol Science(J.Aerosol Sci.),22(5),555-584頁、1991年之Fig.1中詳細記載者。 In addition, "subcritical (state)" refers to a state where only one of pressure and temperature exceeds the critical point. Critical point refers to "Particle Formation with Supercritical Fluids-A Review" by JWTom and PG Debenedetti, Journal of Aerosol Science (J. Aerosol Sci.), 22 (5), pages 555-584, Fig. 1 in 1991 Detailed record.
另外,壓力、溫度皆沒有超過臨界點之液化狀態稱為「液體」。 In addition, the liquefaction state where neither pressure nor temperature exceeds the critical point is called "liquid".
而且,壓力、溫度皆沒有超過臨界點之氣化狀態稱為「氣體」。 Moreover, the gasification state where neither the pressure nor the temperature exceeds the critical point is called "gas".
具體而言,超臨界狀態之二氧化碳係同時超過臨界壓力約7.38 Megapascal(MPa)、臨界溫度約304.1 Kelvin(K)之狀態。具體而言,除固體狀態以外者。例如,液態二氧化碳、氣態二氧化碳、超臨界二氧化碳。 Specifically, the carbon dioxide in the supercritical state simultaneously exceeds the critical pressure of about 7.38 Megapascal (MPa) and the critical temperature of about 304.1 Kelvin (K). Specifically, except for the solid state. For example, liquid carbon dioxide, gaseous carbon dioxide, supercritical carbon dioxide.
於本說明書中,「就製劑處理而言充分的錠劑硬度」或「優異的錠劑硬度」只要是錠劑在流通步驟中不會破損的程度即可,沒有特別的限制,例如大致上可自外包片押 出製劑、取出的強度,例如錠劑之縱方向的硬度。該硬度視錠劑之大小、形狀而不同,例如180mg之錠劑的直徑約8.0mm時規定為20N以上,直徑約8.5mm時規定為30N以上,直徑約10.0mm時規定為50N以上,直徑約12.0mm時規定為60N以上。本發明製劑不管尺寸為任何大小時,具有可耐自PTP包裝取出的充分強度即可。另外,可適用於瓶裝(將錠劑封入玻璃、塑膠等之容器中的包裝)之強度、即大致上於一般的瓶子容器內、在輸送搬運時可耐錠劑間、或錠劑與容器壁之接觸的錠劑強度,以30N以上較佳。此外,另一形態例如包裝於PTP之錠劑藉由落下試驗之破損率。例如將一張PTP包裝片內包裝錠劑之狀態的PTP包裝片,以使將錠劑收納部(Pocket)由上方、自高度150cm落下10張時,前述錠劑之破損率為5%以下,另一形態規定具有2%以下之強度。本發明之製劑為具有瓶裝容器在輸送或搬入時具有充分強度者。 In this specification, "adequate tablet hardness for formulation treatment" or "excellent tablet hardness" is not particularly limited as long as the tablet does not break during the circulation step, and for example, it can be roughly Self-sourcing The strength of the preparation and removal, such as the hardness of the tablet in the longitudinal direction. The hardness varies depending on the size and shape of the tablet. For example, a 180 mg tablet has a diameter of about 8.0 mm and is defined as 20 N or more, a diameter of about 8.5 mm is defined as 30 N or more, and a diameter of about 10.0 mm is defined as 50 N or more, and a diameter At 12.0mm, it is specified as 60N or more. Regardless of the size of the preparation of the present invention, it suffices to have sufficient strength to withstand removal from the PTP package. In addition, it can be applied to the strength of the bottle (the packaging of the tablets in glass, plastic, etc. containers), that is, generally in the general bottle container, resistant to the tablets between the tablets during the transportation, or the tablets and the container wall The strength of the lozenge contacted with it is preferably 30N or more. In addition, another form such as a tablet packed in PTP has a breakage rate by a drop test. For example, when a PTP packaging sheet is packed in a PTP packaging sheet in the state of a tablet, so that when the tablet storage portion (Pocket) is dropped from above from 150 cm in height of 10 sheets, the breakage rate of the tablet is less than 5%, Another form provides strength of 2% or less. The preparation of the present invention has a bottled container with sufficient strength when transported or carried in.
於本說明書中,具有「快速崩散性」之錠劑(速崩散性錠劑),係指在口腔內沒有服用水,藉由唾液而具有實用上充分的崩散性或溶解性的錠劑。此處,實用上充分的崩散性或溶解性,視個人而異,通常在口腔內規定於約1至300秒,較佳形態約1至150秒,更佳形態約1至90秒,最佳形態約1至60秒內崩散或溶解。此外,以Tricorp Tester規定時,崩散時間為1至300秒以內,較佳形態為1至120秒以內,更佳形態為1至90秒以內,特佳形態為1至60秒以內,最佳形態為1至40秒以內。另 外,「口腔內崩散錠」,視個人而異,通常在口腔內規定於約1至120秒,較佳形態約1至90秒,更佳形態約1至60秒內崩散或溶解。此外,以Tricorp Tester測定時,崩散時間為1至120秒以內,較佳形態為1至90秒以內,更佳形態為1至60秒以內,最佳形態為1至40秒以內崩散或溶解的錠劑。 In this specification, lozenges with "rapid disintegration" (rapidly disintegrating lozenges) refer to tablets that have practically sufficient disintegrability or solubility through saliva without taking water in the oral cavity Agent. Here, practically sufficient disintegrability or solubility varies depending on the individual, and is generally prescribed in the oral cavity at about 1 to 300 seconds, preferably at about 1 to 150 seconds, more preferably at about 1 to 90 seconds, most The best form disintegrates or dissolves within about 1 to 60 seconds. In addition, when prescribed by Tricorp Tester, the disintegration time is within 1 to 300 seconds, the preferred form is within 1 to 120 seconds, the more preferred form is within 1 to 90 seconds, and the particularly preferred form is within 1 to 60 seconds, the best The form is within 1 to 40 seconds. another In addition, the "orally disintegrating tablet" depends on the individual, and it is usually prescribed in the oral cavity for about 1 to 120 seconds, the preferred form is about 1 to 90 seconds, and the better form is about 1 to 60 seconds to disintegrate or dissolve. In addition, when measured by Tricorp Tester, the disintegration time is within 1 to 120 seconds, the preferred form is within 1 to 90 seconds, the more preferred form is within 1 to 60 seconds, and the optimal form is within 1 to 40 seconds. Dissolved lozenges.
於本說明書中,「多孔性構造」只要是錠劑在口腔內快速崩散即可,沒有特別的限制,例如空隙率規定為15%以上90%以下,較佳形態為25%以上70%以下,更佳形態為30%以上50%以下。 In this specification, the "porous structure" is not particularly limited as long as the lozenge rapidly disintegrates in the oral cavity. For example, the porosity is specified to be 15% or more and 90% or less, and the preferred form is 25% or more and 70% or less , The better form is more than 30% and less than 50%.
本發明使用的藥物,只要是在治療學上為有效活性成分、或預防學上為有效活性成分即可,沒有特別的限制。該醫藥活性成分例如催眠鎮靜劑、睡眠導入劑、偏頭痛劑、抗不安劑、抗癲癇劑、抗憂鬱藥、抗帕金斯症劑、精神神經用劑、中樞神經系用藥、局部麻醉劑、骨骼肌肉鬆弛劑、自律神經劑、解熱鎮痛消炎劑、鎮止痙攣劑、鎮暈劑、強心劑、心律不整用劑、利尿劑、降血壓劑、血管收縮劑、血管擴張劑、循環器官用藥、高血脂症劑、促進呼吸劑、鎮咳劑、化痰劑、鎮咳化痰劑、支氣管擴張劑、止瀉劑、整腸劑、消化性潰瘍用劑、健胃消化劑、制酸劑、瀉藥、利胆劑、消化器官用藥、副腎上腺荷爾蒙劑、賀爾蒙劑、利尿器官用劑、維他命劑、止血劑、肝臟患者用劑、痛風治療劑、糖尿病用劑、抗組織胺劑、抗生素、抗菌劑、抗惡性腫瘤劑、化學療法劑、綜合感冒劑、滋養強 壯保健藥、骨質疏鬆症藥等。該藥物例如索菲那辛(Solifenacin)、妥滴樂定(tolterdine)、米拉貝谷龍(Mirabegron)等膀胱過動性治療藥、苯海拉明(diphenyldramine)、樂耐平(Lozazepam)、佐沛眠(Zolpidem)等安眠藥、因多美沙信(indomethacin)、待克菲(diclofenac)、待克菲鈉(diclofenac sodium)、可待因(Codenine)、布洛芬(ibuprofen)、苯丁吡唑酮(phenylbutazone)、羥基苯丁吡唑酮(oxyphenbutazone)、甲嘧啶唑(mepirizol)、阿司匹林(aspirin)、乙氧基苯醯胺(ethenzamide)、乙醯基苯胺、胺基吡啉、乙醯氧乙苯胺(phenacetin)、溴化丁基莨菪胺(scopolamine)、嗎啡(morphine)、耶度米頓林(etomidolin)(音譯)、鎮痛新(pentazocin)、苯氧苯丙酸鈣(fenoprofen calcium)、那普寧(naproxen)、希樂葆(celecoxib)、巴迪樂葆(valdecoxib)、反胺苯環醇(tramadol)等之消炎、解熱、鎮止痙攣或鎮痛藥、舒馬曲坦(sumatriptan)等之偏頭痛藥、艾特多雷特(etodolac)等之抗風濕藥、異菸酸酊(isoniazid)、鹽酸乙烷紫鉚醇酯等之抗結核藥、硝酸異山梨糖醇酐、硝基丙三醇、尼菲待平(nifedipine)、鹽酸巴尼地平(barnidipine)、鹽酸尼卡地平(nicardipine)、雙吡大莫(dipyridamole)、胺聯吡啶酮(amrinone)、鹽酸茚諾洛爾(indenolol)、鹽酸吡嗪、甲基二氧苯基丙胺酸(dopa)、弗洛西邁(furosemide)、螺甾內酯 (spironolactone)、硝酸胍乙啶(guanethidine)、利血平(reserpine)、鹽酸胺磺洛爾(amosulalol)、利欣諾普(lisinopril)、貝它布羅(metroprorol)、毛果芸香素(pilocarpine)、替米沙坦(telmisatan)等之循環器官用藥、鹽酸氯化嘌啉黴素、鹽酸醯胺丁胺酸、奈莫必利(nemonapride)、多巴胺拮抗劑(haloperidol)、鹽酸甲基哌啶醇(moperone)、羥哌氯丙嗪(perphenazine)、二氮平(diazepam)、樂耐平(lorazepam)、氯二氮平(chlordiazepoxide)、阿地唑侖(adinazolam)、三氮二氮平(alprazolam)、甲基芬尼特(mrthylphenidate)、米那普倫(milnacipran)、帕羅西汀(paroxetin)、理思培酮(risperidone)、酸丙戊酸(valproic acid)鈉等之抗精神症藥、伊米胺(imipramine)等之抗憂鬱藥、美多科拉醯胺(metoclopramide)、鹽酸雷莫斯瓊(ramosetron)、鹽酸格拉斯瓊(granisetron)、鹽酸恩丹西酮(ondansetron)、鹽酸阿札斯瓊(azasetron)等之止吐劑、馬來酸氯苯吡胺等之抗組織胺藥、硝酸硫胺素(thiamine)、醋酸生育酚、賽可硫胺(cycotiamine)、磷酸吡哆醛(pyridoxal)、鈷醯胺(cobamamide)、抗壞血酸、菸鹼酸醯胺等之維他命、異嘌呤醇(allopurinol)、秋水仙鹼(colchicine)、二丙磺胺苯甲酸(probenecid)等之痛風治劑、左旋多巴(levodopa)、西利治林(selegiline)等之帕金斯症治藥、異戊巴比妥(amolbarbital)、溴異戊醯脲、咪達唑 侖(midazolam)、氯醛水合物等之催眠鎮靜劑、氟尿嘧啶(fluorouracil)、卡莫氟(carmofur)、鹽酸阿柔比星(aclarubicin)、環硫醯胺(cyclophosphamide)、沙奧特帕(thiotepa)等抗惡性腫瘤藥、淮麻黃鹼(pseudophedine)、透非納丁(terfenadine)等抗過敏藥、乙醯基己醯胺、胰島素(insulin)、甲苯磺丁脲(tolbutamide)、去氮加壓素(desmopressin)、克吡塞(glipizide)、替格利尼得(nateglinide)、二甲雙胍(metformin)、西塔格利尼辛(sitagliptin)(音譯)、比拉格利普辛(vildagliptin)(音譯)、林那格利普辛(linagliptin)(音譯)等之糖尿病藥、氫氯苯噻噠嗪(hydrochlirothiazide)、聚苯噻噠嗪、三胺蝶素(triamterene)等之利尿藥、胺基菲林(aminophylline)、富馬酸福莫特羅(formoterol)、茶鹼(theophyllin)等之支氣管擴張藥、磷酸可待因、那可汀(noscapine)、磷酸二甲基嗎酚(dimemorgfan)、右甲氧嗎酚(dextromethorphan)等之鎮咳藥、硝酸喹尼啶、毛地黃苷(digitoxin)、鹽酸普帕酚酮(propafenone hydrochloride)、普魯卡因醯胺(procainacide)等之抗心律不整藥、胺基苯甲酸乙酯、木卡因(lidocaine)、鹽酸待布卡因(dibucaine)等之表皮麻醉藥、乙苯乙內醯脲(phenytoin)、甲乙琥珀亞醯(ethosuximide)、乙苯嘧啶二酮(primidone)等之抗癲癇藥、氫皮質酮(hydrocortisone)、去氫皮質醇(prednisolone)、特安 皮質醇(triamcinolone)、貝塔皮質醇(betamethasone)等之合成副腎上腺皮質類固醇類、啡莫替定(famotidine)、鹽酸甲胺呋硫(ranitidine)、組織胺拮抗劑(cimetidine)、斯克拉非(sucralfate)、舒必朗(sulpiride)、替普瑞酮(teprenone)、普勞諾托(plaunotol)、5-胺基水楊酸、柳氮磺胺吡啶、奧美拉唑(omeprazole)、拉索咪唑(lansoprazole)等之消化道用藥、茚氯嗪(indeloxazine)、艾地苯醌(idebenone)、鹽酸硫必利(tiapride hydrochloride)、鹽酸二苯美侖(bifemelane hydrochloride)、高泛酸(hopantennate)鈣等之中樞神經系用藥、普伐他汀(pracastatin)鈉、新伐他汀(simvastatin)、洛維汀(lovastatin)、阿伐他汀(atorvastatin)等之高血脂症治療劑、鹽酸表酞胺汴青黴素、西弗特坦(cefotetan)、白黴素等之抗生素物質、坦舒羅新(tamsulosin)、甲磺酸多沙唑嗪(doxazosin mesylate)、鹽酸泰拉唑辛(terazosin)等之BPH治療劑、普侖斯特(pranlukast)、扎魯斯特(zafirlikast)、沙丁胺醇(salbutamol)、溴環己胺醇(ambroxol)、亞丁皮質醇(budesonide)、拉貝魯丁胺醇(音譯)等之抗氣喘劑、貝拉普特(beraprost)鈉等之前列腺素(prostaglandin)I2衍生物之末端神經循環改善劑、米諾膦酸(minodronic acid)、阿侖磷酸(alendronic acid)等之骨質疏鬆症治療劑、糖尿病之各種合併症治療劑、皮膚潰爛治療劑等。 The drug used in the present invention is not particularly limited as long as it is a therapeutically effective active ingredient or a prophylactically effective active ingredient. The medicinal active ingredients such as hypnotic sedatives, sleep-introducing agents, migraine agents, anti-restorative agents, antiepileptic agents, antidepressant drugs, anti-Parkinson's agents, psychoactive agents, central nervous system drugs, local anesthetics, skeletal muscles Relaxant, autonomic nerve agent, antipyretic analgesic and anti-inflammatory agent, antispasmodic agent, antihalation agent, cardiotonic agent, arrhythmia agent, diuretic agent, blood pressure lowering agent, vasoconstrictor, vasodilator, circulatory organ medicine, hyperlipidemia agent , Breath-promoting agent, antitussive agent, phlegm agent, antitussive and phlegm agent, bronchodilator, antidiarrheal agent, intestinal agent, peptic ulcer agent, stomach digestion agent, antacid, laxative, choleretic agent, Digestive organ medications, paraadrenal hormones, hormones, diuretic organs, vitamins, hemostatics, liver patients, gout treatment, diabetes, antihistamines, antibiotics, antibacterials, anti-malignant Tumor, chemotherapy, comprehensive cold, nourishing Zhuang health medicine, osteoporosis medicine, etc. This drug is used to treat bladder hyperactivity such as Solifenacin, tolterdine, Mirabegron, diphenyldramine, Lozazepam, Zo Hypnotics such as Zolpidem, indomethacin, diclofenac, diclofenac sodium, codenine, ibuprofen, phenbutyrazole Ketone (phenylbutazone), oxyphenbutazone, oxyphenbutazone, mepirizol, aspirin, ethenzamide, acetanilide, aminopyridine, acetoxy Phenacetin, scopolamine, morphine, etomidolin (transliteration), pentazocin, fenoprofen calcium, Anti-inflammatory, antipyretic, antispasmodic or analgesic, naproxen, celecoxib, valdecoxib, tramadol, etc., sumatriptan, etc. Anti-rheumatic drugs such as migraine medicine, etodolac, and isoniazid tincture (isoniazid) Anti-tuberculosis drugs such as ethidinol hydrochloride, isosorbide nitrate, nitroglycerin, nifedipine, barnidipine, nicardipine hydrochloride, Dipyridamole, amrinone, indenolol hydrochloride, pyrazine hydrochloride, methyldioxyphenylalanine (dopa), furosemide, spiro Steroid lactone (spironolactone), guanethidine, reserpine, amosulalol, amosulalol, lisinopril, metroprorol, pilocarpine ), Telmisatan (telmisatan) and other circulatory organ medications, chlorinated puromycin hydrochloride, amibutamine hydrochloride, nemonapride, dopamine antagonist (haloperidol), methylpiperidine hydrochloride Moperone, perphenazine, diazepam, lorazepam, chlordiazepoxide, adinazolam, triazoxide ( alprazolam), mrthylphenidate, milnacipran, paroxetin, risperidone, valproic acid sodium and other antipsychotics, Antidepressants such as imipramine, metoclopramide, ramosetron hydrochloride, granisetron hydrochloride, ondansetron hydrochloride Antiemetics such as azasetron and antihistamines such as chlorpheniramine maleate Vitamins such as thiamine nitrate, tocopheryl acetate, cycotiamine, pyridoxal, cobamamide, ascorbic acid, niacinamide, and isopurinol ( allopurinol), colchicine, probenecid and other gout treatments, levodopa, selegiline and other treatments for Perkins disease, isopababi Amolbarbital, bromoprovalon, midazolam Hypnotic sedatives such as midazolam, chloral hydrate, etc., fluorouracil, carmofur, aclarubicin hydrochloride, cyclophosphamide, thiotepa Anti-malignant tumor drugs, anti-allergic drugs such as pseudophedine, terfenadine, acetaminophen, insulin, tolbutamide, denitrogenation Desmopressin, Glipizide, nateglinide, metformin, sitagliptin (transliteration), vildagliptin (transliteration) , Diabetic medicines such as linagliptin (transliteration), diuretics such as hydrochlirothiazide (hydrochlirothiazide), polybenzothiazide, triamterene (triamterene), aminopyrine ( bronchodilators such as aminophylline), formoterol fumarate (formoterol), theophyllin (theophyllin), codeine phosphate, noscapine, dimethyl morphol phosphate (dimemorgfan), dextromethoxyl Antitussive drugs such as dextromethorphan, quinidine nitrate, and digitonin (di gitoxin), propafenone hydrochloride, procainacide and other anti-arrhythmic drugs, ethyl aminobenzoate, mucaine (lidocaine), dibucaine hydrochloride (dibucaine) ) And other anti-epileptic drugs such as epidermal anesthetics, phenytoin, ethosuximide, primidone, hydrocortisone, dehydrocortisol (prednisolone), Tyan Synthetic paraadrenal corticosteroids, such as triamcinolone, betamethasone, famotidine, ranitidine hydrochloride, cimetidine, and sclafi sucralfate), sulpiride, teprenone, plaunotol, 5-aminosalicylic acid, sulfasalazine, omeprazole, prazimidazole (lansoprazole) and other gastrointestinal medicines, indeloxazine, idebenone, tiapride hydrochloride, bifemelane hydrochloride, hopantennate calcium, etc. Drugs for treatment of central nervous system, pravastatin (pracastatin) sodium, simvastatin, lovastatin, atorvastatin, etc. Antibiotic substances such as cefotetan, leukomycin, tamsulosin, doxazosin mesylate, terazosin hydrochloride (terazosin), etc. Pranlukast, zalust (zafirlikast), salbutamol (salbutamol), bromocyclohexanol (ambroxol), butadiene cortisol (budesonide), anti-asthmatic agents such as labetalbutanol (transliteration), beraprot (beraprost) sodium, etc. Prostaglandin I2 derivative terminal nerve circulation improver, minodronic acid, alendronic acid and other osteoporosis treatment agents, diabetes comorbidity treatment agents, skin ulcer treatment Agent.
另外,例如類固醇性抗發炎症劑、消炎鎮痛劑、解熱鎮痛劑、抗癲癇劑、化學療法劑、合成抗菌劑、抗病毒劑、抗真菌劑、荷爾蒙劑、血管新生抑制劑、免疫抑制劑及潰瘍性大腸發炎治療劑等。類固醇抗發炎症例如醋酸皮質酮(cortisone)、貝皮質醇(betamethasone)、去氫皮質醇、丙酸氟地卡松(fluticasone)、地塞米松(dexamethasone)、亞丁皮質醇、二丙酸氯地米松、特安皮質醇(triamcinolone)、氯替布諾(loteprednol)、氟2-甲雄烯醇酮(fluometholone)、醋丁二氟龍(difluprednate)、糠酸莫米松(momethasone furoate)、丙酸氯貝皮質醇、醋酸二乙酸二氟拉松酯(diflorasone diacetate)、戊酸二氟米松(diflucortolone valerate)、氟奈洛皮質醇(fluocinonide)、安西奈德(amcinonide)、氯氟松(halcinonide)、丙酮氟洛皮質醇、特安皮質醇(triamcinolone)、特戊酸氟米松(flumetasone)、以及丁酸氯氟美松酮等。消炎鎮痛劑例如烯氯苯乙酸(alclofenac)、胺普芬(alminoprofen)、伊布洛芬(ibuprofen)、吲哚美甲辛(indomethacin)、甲嘧啶唑(epirizol)、4,5-二苯-2-噁唑丙酸(oxaprozin)、可多普洛菲(ketoprofen)、待克菲鈉、二氟尼索(diflunisal)、那普洛辛(naproxen)、匹洛卡(piroxican)、芬布芬(fenbufen)、酸氟靈酸(flufenamic acid)、氟白普洛芬(flurbiprofen)、氟喹胺苯酯(floctafenin)、鎮痛新(pentazocine)、甲吩噻 嗪乙酸(metiazinic acid)、及邁菲那密酸(mefenamic acid)、模非羅雷(mofezolac)(音譯)等。解熱鎮痛劑例如乙醯基胺基酚、及安乃近(sulpyrine)等。抗癲癇劑例如乙醯偶氮胺(acetazolamide)、卡巴馬平(carbamazepine)、可那氮平(clonazepam)、二氮平、及耐妥眠(nitrazepam)等。化學療法劑例如柳氯磺胺吡啶、磺胺二甲氧嘧啶(sulfadimethoxine)、磺胺甲噻二唑(sulfamethizole)、磺胺甲異噁唑(sulfamethoxazole)、磺胺甲氧吡嗪、及磺胺甲氧嘧啶等之磺胺劑(sulfa drug)、伊諾沙星(enoxacin)、氧氟沙星(ofloxacin)、西諾沙星(cinoxacin)、施帕沙星(sparfloxacin)、甲磺氯黴素(thiamphenicol)、啶酮酸、氟哌酸托舒沙星(tosufloxacin tosilate)、諾氟沙星(norfloxacin)、吡哌酸三水合物、吡咯酸、氟羅沙星、及左氧氟沙星(levofloxacin)等之合成抗菌劑、阿塞維爾(acyclovir)、更昔洛韋(ganciclovir)、待旦羅辛(didanosine)(音譯)、奇弗定(zidovudine)、及阿糖腺苷(vidarabine)等之抗病毒劑、適樸諾(itraconazole)、酮康唑(ketoconaole)、氟可那唑(furconazole)、氟胞嘧啶(flucytosine)、咪可納唑(miconazole)及匹馬菌素(pimafucin)等之抗真菌劑。荷爾蒙劑例如胰島素鋅、丙酸睪固酮、及苯甲酸雌二醇酯(estradiol)等。免疫抑制劑例如環孢素(cyclosporin)、雷帕黴素(rapamycin)、及泰克莫斯 (tacrolimus)等。潰瘍性大腸炎治療劑例如美沙拉嗪(mesalazine)等。 In addition, for example, steroidal anti-inflammatory agents, anti-inflammatory analgesics, antipyretic analgesics, antiepileptic agents, chemotherapeutic agents, synthetic antibacterial agents, antiviral agents, antifungal agents, hormonal agents, angiogenesis inhibitors, immunosuppressive agents and Treatment agent for ulcerative intestinal inflammation. Steroids are anti-inflammatory such as cortisone acetate, betamethasone, dehydrocortisol, fluticasone propionate, fludexasone, dexamethasone, cortisol, chlordipropionate Methasone, triamcinolone, loteprednol, fluometholone, difluprednate, momethasone furoate, propionic acid Clobecortisol, diflorasone diacetate, diflucortolone valerate, fluocinonide, amcinonide, halcinonide , Acetone, flurocortisol, triamcinolone (triamcinolone), flumetasone pivalate (flumetasone), and clofluxone butyrate, etc. Anti-inflammatory analgesics such as alclofenac, alminoprofen, ibuprofen, indomethacin, epirizol, 4,5-diphenyl-2 -Oxaprozin, ketoprofen, ketoprofen, diflunisal, naproxen, piroxican, fenbufen ( fenbufen), flufenamic acid, flurbiprofen, flotafenin, pentazocine, phenothiene Methiazinic acid, mefenamic acid, mofezolac (transliteration), etc. Antipyretic analgesics such as acetamidophenol, sulpyrine, etc. Antiepileptic agents such as acetazolamide, carbamazepine, clonazepine, diazepam, nitrazepam, etc. Chemotherapy agents such as sulfasalazine, sulfadimethoxine, sulfamethizole, sulfamethizole, sulfamethoxazole, sulfamethoxazine, and sulfamethoxazole (Sulfa drug), enoxacin, ofloxacin, cinoxacin, sparfloxacin, thiamphenicol, thiaconic acid , Synthetic antibacterial agents such as tosufloxacin tosilate, norfloxacin, pipemidic acid trihydrate, pyrrole acid, fleroxacin, and levofloxacin, aseville (acyclovir), ganciclovir, didanosine (transliteration), zidovudine, and vidarabine and other antiviral agents, itraconazole , Ketoconazole (ketoconaole), fluconazole (furconazole), flucytosine (flucytosine), miconazole (miconazole) and pimafucin (pimafucin) and other antifungal agents. Hormonal agents include insulin zinc, testosterone propionate, and estradiol benzoate. Immunosuppressive agents such as cyclosporin, rapamycin, and Tekmos (tacrolimus) etc. Examples of therapeutic agents for ulcerative colitis include mesalazine and the like.
此外,本發明使用的藥物之另一形態,例如對溫度或濕度而言不安定的藥物。對溫度或濕度而言不安定的藥物在醫藥組成物中摻合形態,只要是一般製藥學上使用的方法即可,沒有特別的限制。例如,以藥物作為醫藥添加劑同時進行造粒及/或混合,亦可以藥物作為安定化劑等且塗佈於CELPHERE(旭化成製)等之核粒子後,作為醫藥添加劑同時進行造粒及/或混合。 In addition, another form of the drug used in the present invention is, for example, a drug that is unstable with respect to temperature or humidity. The form in which the drug that is unstable with respect to temperature or humidity is incorporated in the pharmaceutical composition is not particularly limited as long as it is a method generally used in pharmacy. For example, drugs can be granulated and / or mixed at the same time as pharmaceutical additives, or drugs can be used as stabilizers and coated on core particles such as CELPHERE (manufactured by Asahi Kasei Chemicals), and then granulated and / or mixed as pharmaceutical additives .
而且,本發明使用的藥物之另一形態,例如構成機能性粒子之藥物(具有苦味之藥物、必須賦予徐放性之藥物、難溶性藥物)。機能性粒子例如苦味遮蔽粒子、徐放性粒子、固體分散體粒子等。 In addition, another form of the drug used in the present invention is, for example, a drug that constitutes functional particles (a drug with a bitter taste, a drug that must be imparted with a release property, and a drug that is hardly soluble). Functional particles are, for example, bitter taste masking particles, exothermic particles, solid dispersion particles, and the like.
此外,具有苦味之藥物、必須賦予徐放性之藥物或難溶性藥物,可進一步選擇對溫度或濕度而言不安定的藥物作為構成機能性粒子之藥物。 In addition, drugs with bitter taste, drugs that must be imparted with exothermic properties or poorly soluble drugs, drugs that are unstable with respect to temperature or humidity can be further selected as drugs that constitute functional particles.
藥物亦可使用自由體或製藥學上容許的鹽中之任何一種。此外,藥物可使用1種或組合2種以上使用。而且,此等之藥物係本發明可使用的一例,不受此等所限制。 The drug may also use any of free body or pharmaceutically acceptable salts. In addition, one drug may be used alone or two or more drugs may be used in combination. In addition, these drugs are examples of the invention that can be used, and are not limited to these.
有關其摻合量,通常視藥物之種類或醫藥用途(適應症)而定適當選擇,只要是治療學上有效的量或預防學上有效的量即可,沒有特別的限制。例如,在速崩散性錠劑(特別是口腔內崩散錠)中為0.001~80重量%,較佳的形態為0.01~70重量%,更佳的形態為0.01~60重量%。 The blending amount is usually appropriately selected depending on the type of drug or medical use (indications), and it is not particularly limited as long as it is a therapeutically effective amount or a prophylactically effective amount. For example, in fast-disintegrating tablets (particularly intraoral disintegrating tablets), it is 0.001 to 80% by weight, the preferred form is 0.01 to 70% by weight, and the more preferred form is 0.01 to 60% by weight.
本發明之速崩散性錠劑(特別是口腔內崩散錠),係使「超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質」,藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理,在錠劑中「藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質」於成分(例如除藥物外,視其所需之賦形劑、崩散劑、安定化劑、潤滑劑)間形成交聯而具有多孔性構造。 The fast-disintegrating tablet of the present invention (especially the disintegrating tablet in the oral cavity) is a "substance with supercritical or subcritical state of carbon dioxide or liquid or gaseous carbon dioxide treatment with a binder function", by supercritical Or subcritical state carbon dioxide or liquid or gaseous carbon dioxide treatment, in the tablet "substances that have a binder function by treatment with supercritical or subcritical state carbon dioxide or liquid or gaseous carbon dioxide" in the ingredients (such as drugs , Depending on the required excipients, disintegrants, stabilizers, lubricants) formed cross-linked and has a porous structure.
本發明使用的「藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質」,只要是藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理,使該「物質」之熔點或玻璃轉移溫度降低而具有作為結合劑之機能的物質即可,沒有特別的限制。另一形態只要是藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理,含有該「物質」之錠劑的硬度與不含該「物質」者相比時,可予以增加的物質即可,沒有特別的限制。具體而言,處理壓力之一形態為約0.1MPa~約50MPa,較佳的形態為約1MPa~約20MPa。更佳的形態為約1MPa~約15MPa。特佳的形態為約1MPa~約5MPa。而且,另一形態例如壓力為20MPa時熔點或玻璃轉移溫度降低例如5℃以上的物質,較佳的形態為降低20℃以上之物質。此外,另一形態例如在構造式中具有特別是與二氧化碳具親和性之苯乙烯骨架、羰基、醚鍵、酯鍵、碳原子間不飽和鍵之化合物等。 As used in the present invention, "a substance having a binder function by processing carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state" as long as it is processed by carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state It is sufficient to lower the melting point or glass transition temperature of the "substance" to have a function as a binder, and there is no particular limitation. Another form is a substance that can be increased if the hardness of the lozenge containing the "substance" is compared with that without the "substance" as long as it is treated with carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state. That is, there are no special restrictions. Specifically, one form of the treatment pressure is about 0.1 MPa to about 50 MPa, and a preferred form is about 1 MPa to about 20 MPa. A more preferable form is about 1 MPa to about 15 MPa. The particularly good form is about 1 MPa to about 5 MPa. Furthermore, another form such as a substance whose melting point or glass transition temperature is reduced by, for example, 5 ° C or more when the pressure is 20 MPa, and a preferred form is a substance reduced by 20 ° C or more. In addition, another form is, for example, a compound having a styrene skeleton having an affinity for carbon dioxide, a carbonyl group, an ether bond, an ester bond, and an unsaturated bond between carbon atoms in the structural formula.
具有苯乙烯骨架之化合物,例如聚苯乙烯樹脂及其共聚物等。 Compounds with a styrene skeleton, such as polystyrene resins and their copolymers.
具有羰基之化合物,例如醛化合物、酮化合物、羧酸化合物、酯化合物、醯胺化合物、烯酮化合物,羧酸氯化(鹵化)物、酸酐及其聚合物、共聚物等。 Compounds having a carbonyl group, such as aldehyde compounds, ketone compounds, carboxylic acid compounds, ester compounds, amide compounds, enone compounds, carboxylic acid chlorides (halides), acid anhydrides and their polymers, copolymers, etc.
具有醚鍵之化合物,例如以聚乙二醇或聚丙二醇為典型的聚醚。 Compounds having an ether bond, such as polyethylene glycol or polypropylene glycol, are typical polyethers.
具有碳原子間不飽和鍵之化合物,例如具有烯基(alkene)、乙烯基、丙烯基、苯或輪烯(annulene)或其構造的聚合物、共聚物。 The compound having an unsaturated bond between carbon atoms, for example, a polymer or copolymer having an alkene group, vinyl group, propenyl group, benzene or annulene or its structure.
具體而言,例如乙烯基吡咯烷酮.醋酸乙烯酯共聚物(以下簡稱為共聚吡酮)、聚乙烯基己內醯胺-聚乙烯基醋酸-聚乙二醇接枝共聚物(polyvinyl caprolactam-polyvinyl acetate-polyethylene glycol graft copolymer)、聚吡酮、聚吡酮/醋酸乙烯酯樹脂預混合製劑(polyvinyl acetate and polyvinylpyrrolidone(8:2))、甲基丙烯酸共聚物LD(Methacrylic acid and ethyl acrylate copolymer)、聚乙烯醇.聚乙二醇接枝共聚物(polyvinyl alcohol and Polyethylene glycol graft copolymer(75:25))、聚乙烯醇.聚乙二醇接枝共聚物/聚乙烯醇預混合製劑(polyvinyl alcohol and polyethylene glycol graft copolymer(75:25)and polyvinyl alcohol(60/40))、聚氧化乙烯(196)聚氧化丙烯(67)二醇(Ethylene oxide and propylene oxide)、聚乙二醇、聚氧化乙烯硬化 蓖麻油(40)、胺基烷基甲基丙烯酸酯共聚物E、甲基丙烯酸共聚物L、乾燥甲基丙烯酸共聚物LD、甲基丙烯酸共聚物LD、甲基丙烯酸共聚物S、胺基烷基甲基丙烯酸酯共聚物RS、丙烯酸乙酯.甲基丙烯酸甲酯共聚物分散液、乙基纖維素、甲基丙烯酸甲酯.二乙基胺基乙基甲基丙烯酸酯共聚物、羥基丙基甲基纖維素乙酸酯琥珀酸酯(以下簡稱為HPMCAS)、蟲膠、卡波姆及聚乙烯基乙縮醛二乙基胺基乙酸酯。較佳的形態例如共聚吡酮、聚乙烯基己內醯胺-聚乙烯基醋酸-聚乙二醇接枝共聚物、胺基烷基甲基丙烯酸酯共聚物E、胺基烷基甲基丙烯酸酯共聚物RS、甲基丙烯酸甲酯.二乙基胺基乙基甲基丙烯酸酯共聚物、HPMCAS、乙基纖維素、蟲膠、聚吡酮/醋酸乙烯酯樹脂預混合製劑、聚吡酮、卡波姆、聚氧化乙烯(196)聚氧化丙烯(67)乙二醇。更佳的形態例如共聚吡酮、聚乙烯基己內醯胺-聚乙烯基醋酸-聚乙二醇接枝共聚物、胺基烷基甲基丙烯酸酯共聚物E、胺基烷基甲基丙烯酸酯共聚物RS、甲基丙烯酸甲酯.二乙基胺基乙基甲基丙烯酸酯共聚物、HPMCAS、乙基纖維素、聚吡酮/醋酸乙烯酯樹脂預混合製劑。尤佳的形態例如共聚吡酮、聚乙烯基己內醯胺-聚乙烯基醋酸-聚乙二醇接枝共聚物、胺基烷基甲基丙烯酸酯共聚物E、HPMCAS、乙基纖維素。特佳的形態例如共聚吡酮、胺基烷基甲基丙烯酸酯共聚物E。最佳的形態例如胺基烷基甲基丙烯酸酯共聚物E。 Specifically, for example, vinylpyrrolidone. Vinyl acetate copolymer (hereinafter referred to as copolypyrrolidone), polyvinyl caprolactam-polyvinyl acetate-polyethylene glycol graft copolymer (polyvinyl caprolactam-polyvinyl acetate-polyethylene glycol graft copolymer), polypyridine Ketone, polyvinylpyrrolidone / vinyl acetate resin premix (polyvinyl acetate and polyvinylpyrrolidone (8: 2)), methacrylic acid copolymer LD (Methacrylic acid and ethyl acrylate copolymer), polyvinyl alcohol. Polyethylene glycol graft copolymer (polyvinyl alcohol and Polyethylene glycol graft copolymer (75:25)), polyvinyl alcohol. Polyethylene glycol graft copolymer / polyvinyl alcohol premix preparation (polyvinyl alcohol and polyethylene glycol graft copolymer (75:25) and polyvinyl alcohol (60/40)), polyoxyethylene (196) polyoxypropylene (67) Ethylene oxide and propylene oxide, polyethylene glycol, polyethylene oxide harden Castor oil (40), aminoalkyl methacrylate copolymer E, methacrylic acid copolymer L, dry methacrylic acid copolymer LD, methacrylic acid copolymer LD, methacrylic acid copolymer S, aminoalkane Base methacrylate copolymer RS, ethyl acrylate. Methyl methacrylate copolymer dispersion, ethyl cellulose, methyl methacrylate. Diethylaminoethyl methacrylate copolymer, hydroxypropyl methyl cellulose acetate succinate (hereinafter abbreviated as HPMCAS), shellac, carbomer and polyvinyl acetal diethyl Aminoacetate. Preferred forms such as copolypyrrolidone, polyvinyl caprolactam-polyvinyl acetic acid-polyethylene glycol graft copolymer, amino alkyl methacrylate copolymer E, amino alkyl methacrylic acid Ester copolymer RS, methyl methacrylate. Diethylaminoethyl methacrylate copolymer, HPMCAS, ethyl cellulose, shellac, polypyrrolidone / vinyl acetate resin premix preparation, polypyrrolidone, carbomer, polyethylene oxide (196) Polypropylene oxide (67) ethylene glycol. Better forms such as copolypyrrolidone, polyvinylcaprolactam-polyvinylacetic acid-polyethylene glycol graft copolymer, aminoalkyl methacrylate copolymer E, aminoalkyl methacrylic acid Ester copolymer RS, methyl methacrylate. Diethylaminoethyl methacrylate copolymer, HPMCAS, ethyl cellulose, polyvinylpyrrolidone / vinyl acetate resin premix preparation. Particularly preferred forms include copolypyrrolidone, polyvinylcaprolactam-polyvinylacetic acid-polyethylene glycol graft copolymer, aminoalkyl methacrylate copolymer E, HPMCAS, ethyl cellulose. Particularly preferred forms include copolypyrrolidone and aminoalkyl methacrylate copolymer E. The best form is, for example, aminoalkyl methacrylate copolymer E.
此等化合物例如可取自市售的下述商品名。 Such compounds can be obtained from the following trade names commercially available, for example.
.共聚吡酮:kollidon VA-64(BASF Japan)、Kollidon VA-64Fine(BASF Japan)、Plusdon S-630(ISP.Japan) . Copolypyrrolidone: kollidon VA-64 (BASF Japan), Kollidon VA-64 Fine (BASF Japan), Plusdon S-630 (ISP. Japan)
.聚乙烯基己內醯胺-聚乙烯基醋酸-聚乙二醇接枝共聚物:Soluplus(BASF Japan) . Polyvinylcaprolactam-polyvinylacetic acid-polyethylene glycol graft copolymer: Soluplus (BASF Japan)
.聚吡酮:kollidon 12PF(BASF Japan)、Kollidon 17PF(BASF Japan)、Kollidon 30(BASF Japan)、Kollidon 90F(BASF Japan) . Povidone: kollidon 12PF (BASF Japan), Kollidon 17PF (BASF Japan), Kollidon 30 (BASF Japan), Kollidon 90F (BASF Japan)
.聚吡酮/醋酸乙烯酯樹脂預混合製劑:Kollidon SR(BASF Japan) . Polypyrrolidone / vinyl acetate resin premix preparation: Kollidon SR (BASF Japan)
.甲基丙烯酸共聚物LD:Kollicoat MAE 100P(BASF Japan) . Methacrylic acid copolymer LD: Kollicoat MAE 100P (BASF Japan)
.聚乙烯醇.聚乙二醇接枝共聚物:Kollicoat IR(BASF Japan) . Polyvinyl alcohol. Polyethylene glycol graft copolymer: Kollicoat IR (BASF Japan)
.聚乙烯醇.聚乙二醇接枝共聚物/聚乙烯醇預混合製劑:Kollicoat Protect(BASF Japan) . Polyvinyl alcohol. Polyethylene glycol graft copolymer / polyvinyl alcohol premix preparation: Kollicoat Protect (BASF Japan)
.聚氧化乙烯(196)聚氧化丙烯(67)乙二醇:Kolliphor P407(BASF Japan) . Polyoxyethylene (196) Polyoxypropylene (67) Ethylene glycol: Kolliphor P407 (BASF Japan)
.聚乙二醇:Lutrol E400(BASF Japan) . Polyethylene glycol: Lutrol E400 (BASF Japan)
.聚氧化乙烯硬化蓖麻油(40):Cremophor RH40(BASF Japan) . Polyoxyethylene hardened castor oil (40): Cremophor RH40 (BASF Japan)
.胺基烷基甲基丙烯酸酯共聚物E:EUDRAGIT E100(Evonik Degussa Japan)、EUDRAGIT EPO(Evonik Degussa Japan) . Aminoalkyl methacrylate copolymer E: EUDRAGIT E100 (Evonik Degussa Japan), EUDRAGIT EPO (Evonik Degussa Japan)
.甲基丙烯酸共聚物L:EUDRAGIT L100(Evonik Degussa Japan) . Methacrylic acid copolymer L: EUDRAGIT L100 (Evonik Degussa Japan)
.乾燥甲基丙烯酸共聚物LD:EUDRAGIT L100-55(Evonik Degussa Japan) . Dry methacrylic acid copolymer LD: EUDRAGIT L100-55 (Evonik Degussa Japan)
.甲基丙烯酸共聚物LD:EUDRAGIT L30D-55(Evonik Degussa Japan) . Methacrylic acid copolymer LD: EUDRAGIT L30D-55 (Evonik Degussa Japan)
.甲基丙烯酸共聚物S:EUDRAGIT S100(Evonik Degussa Japan) . Methacrylic acid copolymer S: EUDRAGIT S100 (Evonik Degussa Japan)
.胺基烷基甲基丙烯酸酯共聚物RS:EUDRAGIT RL100(Evonik Degussa Japan)、EUDRAGIT RLPO(Evonik Degussa Japan)、EUDRAGIT RS100(Evonik Degussa Japan)、EUDRAGIT RSPO(Evonik Degussa Japan) . Aminoalkyl methacrylate copolymer RS: EUDRAGIT RL100 (Evonik Degussa Japan), EUDRAGIT RLPO (Evonik Degussa Japan), EUDRAGIT RS100 (Evonik Degussa Japan), EUDRAGIT RSPO (Evonik Degussa Japan)
.丙烯酸乙酯.甲基丙烯酸甲酯共聚物分散液:EUDRAGIT NE30(Evonik Degussa Japan)、Kollicoat EMM30D(BASF Japan) . Ethyl acrylate. Methyl methacrylate copolymer dispersion: EUDRAGIT NE30 (Evonik Degussa Japan), Kollicoat EMM30D (BASF Japan)
.乙基纖維素:Ethocel(Dow Chemical Japan) . Ethyl cellulose: Ethocel (Dow Chemical Japan)
.甲基丙烯酸甲酯.二乙基胺基乙基甲基丙烯酸酯共聚物:Kollicoat Smartseal 30D(BASF Japan) . Methyl methacrylate. Diethylaminoethyl methacrylate copolymer: Kollicoat Smartseal 30D (BASF Japan)
.HPMCAS:AQOAT AS-HF、AQOAT AS-MF、AQOAT AS-LF(信越化學工業) . HPMCAS: AQOAT AS-HF, AQOAT AS-MF, AQOAT AS-LF (Shin-Etsu Chemical Industry)
.蟲膠:日本Shellac工業公司市售的乾燥透明白膠等 . Shellac: Dry transparent white glue sold by Japan Shellac Industries, etc.
.卡波姆:Lubrizol公司市售的Carbopol 71G、971P、974P、980、981、5984、ETD2020、Ultrez10、934、934P、940、941、1342等或Pemulen TR-1、TR-2等、由住友精化公司市售的AQUPEC HV-501、HV-501E、HV- 501ER、HV-504、HV-504E、HV-505、HV-505E、HV-505ED等、和光純藥市售的Hibiswaco 103、104、105等 . Carbomer: Carbopol 71G, 971P, 974P, 980, 981, 5984, ETD2020, Ultrez10, 934, 934P, 940, 941, 1342, etc., or Pemulen TR-1, TR-2, etc., commercially available from Lubrizol Corporation AQUPEC HV-501, HV-501E, HV- 501ER, HV-504, HV-504E, HV-505, HV-505E, HV-505ED, etc., and Hibiswaco 103, 104, 105, etc. commercially available from Wako Pure Chemicals
.聚乙烯基乙縮醛二乙基胺基乙酸酯:AEA(Mitsubishi Chemical股份有限公司)等 . Polyvinyl acetal diethylaminoacetate: AEA (Mitsubishi Chemical Co., Ltd.), etc.
本發明之速崩散性錠劑(特別是口腔內崩散錠),可使用1種或或組合2種以上本發明使用的「藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質」。 The fast-disintegrating tablet of the present invention (especially the intra-oral disintegrating tablet) can use one kind or a combination of two or more kinds of "using the supercritical or subcritical state of carbon dioxide or liquid or gaseous carbon dioxide "Substances that have a binder function".
「藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質」之形狀,可為粒狀、針狀等,沒有特別的限制。亦可予以粉碎使用。該物質之形狀為粒狀時,平均粒子直徑只要是具有結合劑機能即可,沒有特別的限制,例如以雷射繞射式粒度分布測定裝置測定時之平均粒子直徑,以0.1~350μm為宜。該物質可使用1種或適當組合2種以上等級、形狀、平均粒子直徑等不同者。 The shape of "a substance having a binding agent function by processing carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state" may be granular, needle-shaped, etc., and is not particularly limited. It can also be crushed. When the shape of the substance is granular, the average particle diameter is not particularly limited as long as it has a binder function. For example, the average particle diameter when measured by a laser diffraction particle size distribution measuring device is preferably 0.1 to 350 μm . This substance can be used alone or in combination of two or more types with different levels, shapes, average particle diameters, and the like.
其摻合量只要是可發揮作為「藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質」之機能的量即可,沒有特別的限制。較佳的形態,只要是可改善速崩散性錠劑(特別是口腔內崩散錠)之硬度的量即可,沒有特別的限制。具體而言,例如在速崩散性錠劑(特別是口腔內崩散錠)中為0.1~50重量%,較佳者為1~30重量%,更佳者為3~20重量%。 The blending amount is not particularly limited as long as it can function as a "substance having a binder function by treatment with supercritical or subcritical carbon dioxide or liquid or gaseous carbon dioxide." The preferred form is not particularly limited as long as it can improve the hardness of rapidly disintegrating tablets (especially intraoral disintegrating tablets). Specifically, for example, in a rapidly disintegrating tablet (particularly an oral disintegrating tablet), it is 0.1 to 50% by weight, preferably 1 to 30% by weight, and more preferably 3 to 20% by weight.
本發明之速崩散性錠劑(特別是口腔內崩散錠),視 其所需亦可含有可提高「藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質」之機能的可塑劑。 The fast-disintegrating tablet of the present invention (especially the disintegrating tablet in the oral cavity) depends on It may also contain a plasticizer that can improve the function of "a substance that has a binder function by treatment with supercritical or subcritical carbon dioxide or liquid or gaseous carbon dioxide."
本發明使用的提高「藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質」之機能的可塑劑,例如檸檬酸三乙酯、卡利歐83、丙三醇、丙三醇脂肪酸酯、胡麻油、二甲基聚矽氧烷.二氧化矽混合物、D-山梨糖醇、中鏈脂肪酸三醯甘油酯、來自玉米澱粉之糖醇液、三乙酸甘油酯、濃丙三醇、蓖麻油、苯二甲酸二乙酯、苯二甲酸二丁酯、丁基酞基丁基丁二醇酯、丙二醇、聚氧化乙烯(105)聚氧化丙烯(5)乙二醇、聚山梨糖醇酯80、聚乙二醇400、聚乙二醇600、聚乙二醇1500、聚乙二醇4000、聚乙二醇6000、單硬脂酸丙三醇酯、木酮糖等之糖類。較佳的形態例如檸檬酸三乙酯、三乙酸甘油酯、聚乙二醇4000、聚乙二醇6000、木酮糖等之糖類。更佳的形態例如檸檬酸三乙二酯。可塑劑可使用1種或2種以上組合使用。可塑劑之摻合量,只要是可提高「藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質」之機能的量即可,沒有特別的限制。具體而言,例如在速崩散性錠劑(特別是口腔內崩散錠)中為0.1~20重量%,較佳者為0.1~10重量%,更佳者為0.1~7重量%,特佳者為1~7重量%,最佳者為2~5重量%。此外,相對於「藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化 碳處理而具有結合劑機能之物質」而言可塑劑之摻合量,例如0.5~200重量%,較佳者為0.5~40重量%,更佳者為10~40重量%。 The plasticizer used in the present invention to improve the function of "a substance having a binder function by processing in supercritical or subcritical carbon dioxide or liquid or gaseous carbon dioxide", such as triethyl citrate, calio 83, propylene Triol, glycerin fatty acid ester, flax oil, dimethyl polysiloxane. Silicon dioxide mixture, D-sorbitol, medium chain fatty acid triglyceride, sugar alcohol liquid from corn starch, glycerol triacetate, concentrated glycerin, castor oil, diethyl phthalate, phthalic acid Dibutyl ester, butylphthalobutylbutyl glycol ester, propylene glycol, polyethylene oxide (105), polypropylene oxide (5) ethylene glycol, polysorbate 80, polyethylene glycol 400, polyethylene glycol 600, polyethylene glycol 1500, polyethylene glycol 4000, polyethylene glycol 6000, glycerol monostearate, xylulose and other sugars. Preferred forms include sugars such as triethyl citrate, triacetin, polyethylene glycol 4000, polyethylene glycol 6000, and xylulose. A more preferred form is triethylene citrate. The plasticizer can be used alone or in combination of two or more. The amount of the plasticizer blended is not particularly limited as long as it can increase the function of "a substance having a binder function by treatment with carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state." Specifically, for example, in a rapidly disintegrating tablet (especially an oral disintegrating tablet), it is 0.1 to 20% by weight, preferably 0.1 to 10% by weight, and more preferably 0.1 to 7% by weight. The best one is 1 ~ 7% by weight, and the best one is 2 ~ 5% by weight. In addition, as opposed to "by supercritical or subcritical carbon dioxide or liquid or gas dioxide "Carbon-treated substances with binder function" refers to the blending amount of the plasticizer, for example, 0.5 to 200% by weight, preferably 0.5 to 40% by weight, and more preferably 10 to 40% by weight.
於本發明之速崩散性錠劑(特別是口腔內崩散錠)中,視其所需含有一般添加的賦形劑作為醫藥品添加劑。 The fast-disintegrating tablet of the present invention (especially the intra-oral disintegrating tablet) contains, as necessary, an excipient generally added as a pharmaceutical additive.
本發明使用的賦形劑,只要是親水性物質或水溶性物質即可,沒有特別的限制。較佳的形態,例如糖類、纖維素誘導物、磷酸鹽、硫酸鹽。糖類例如甘露糖醇、乳糖、轉化糖(sucrose)、蔗糖(saccharose)、葡萄糖、果糖、山梨糖醇、木酮糖、赤蘚醇、海藻糖、白糖、多醣。纖維素誘導物例如結晶纖維素等。磷酸鹽例如磷酸氫鈣、磷酸氫鈣水合物、磷酸氫鈣造粒物、磷酸氫鈉水合物、磷酸二氫鉀、磷酸二氫鈉等。硫酸鹽例如硫酸鈣等。 The excipient used in the present invention is not particularly limited as long as it is a hydrophilic substance or a water-soluble substance. Preferred forms, such as sugars, cellulose inducers, phosphates, and sulfates. Sugars such as mannitol, lactose, sucrose, saccharose, glucose, fructose, sorbitol, xylulose, erythritol, trehalose, white sugar, polysaccharides. Cellulose inducers such as crystalline cellulose and the like. Examples of phosphates include calcium hydrogen phosphate, calcium hydrogen phosphate hydrate, calcium hydrogen phosphate granules, sodium hydrogen phosphate hydrate, potassium dihydrogen phosphate, sodium dihydrogen phosphate, and the like. Sulfates such as calcium sulfate and the like.
於本發明之速崩散性錠劑(特別是口腔內崩散錠)中,賦形劑可使用1種或2種以上組合使用。 In the fast-disintegrating tablet of the present invention (particularly, the intra-oral disintegrating tablet), one type or two or more types of excipients can be used in combination.
賦形劑之摻合量,具體而言例如於速崩散性錠劑(特別是口腔內崩散錠)中為0.001~99.99重量%,較佳的形態為1~99.9重量%,更佳的形態為10~99重量%。 The blending amount of the excipient is, for example, 0.001 to 99.99% by weight in a fast disintegrating tablet (especially an intraoral disintegrating tablet), and the preferred form is 1 to 99.9% by weight, more preferably The form is 10 ~ 99% by weight.
於本發明之速崩散性錠劑(特別是口腔內崩散錠)中,除前述賦形劑外,視其所需可進一步使用各種醫藥添加劑且予以製劑化。該醫藥添加劑只要是製藥學上容許且藥理上容許者即可,沒有特別的限制。例如可使用結合劑、崩散劑、酸味劑、發泡劑、人工甜味劑、香料、潤滑劑、著色劑、安定化劑、緩衝劑、抗氧化劑、界面活性劑 等。而且,除藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質以外,亦可添加下述所示之結合劑。 In addition to the aforementioned excipients, various medical additives can be further formulated and formulated into the rapidly disintegrating tablets (particularly intraoral disintegrating tablets) of the present invention. The pharmaceutical additive is not particularly limited as long as it is pharmaceutically acceptable and pharmacologically acceptable. For example, binding agents, disintegrating agents, sour agents, foaming agents, artificial sweeteners, flavors, lubricants, colorants, stabilizers, buffers, antioxidants, surfactants can be used Wait. Furthermore, in addition to substances having a binder function by treatment with carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state, a binder shown below may be added.
結合劑例如共聚吡酮、聚吡酮、聚乙烯醇.聚乙二醇接枝共聚物、聚乙烯醇、聚乙烯醇.丙烯酸.甲基丙烯酸甲酯共聚物、羥基丙基甲基纖維素、阿拉伯膠、糖粉、鏈烷酸鈉、α化澱粉、寒天、醋酸乙烯酯樹脂、支鏈澱粉(pullulan)、澱粉、羥基丙基纖維素等。 Binders such as copomidone, povidone, polyvinyl alcohol. Polyethylene glycol graft copolymer, polyvinyl alcohol, polyvinyl alcohol. acrylic acid. Methyl methacrylate copolymer, hydroxypropyl methylcellulose, gum arabic, powdered sugar, sodium alkanoate, alpha starch, cold weather, vinyl acetate resin, pullulan, starch, hydroxypropyl Cellulose, etc.
崩散劑例如玉米澱粉、馬鈴薯澱粉、羧基甲基纖維素鈣、羧基甲基纖維素鈉、交聯聚吡酮、α化澱粉、部分α化澱粉、羧基甲基纖維素(CMC)、結晶纖維素、交聯羧基甲基纖維素鈉、羧基甲基澱粉鈉、碳酸鎂、低取代度羥基丙基纖維素、低取代度羧基甲基澱粉鈉、沉澱碳酸鈣、明膠、羥基化鋁鎂、合成矽酸鋁等。較佳的形態例如交聯聚吡酮、交聯羧基甲基纖維素鈉、低取代度羥基丙基甲基纖維素、羧基甲基澱粉鈉、α化澱粉、部分α化澱粉、羧基甲基纖維素、羧基甲基纖維素鈣。更佳的形態例如低取代度羥基丙基甲基纖維素、部分α化澱粉、交聯羧基甲基纖維素鈉。 Disintegrants such as corn starch, potato starch, carboxymethyl cellulose calcium, carboxymethyl cellulose sodium, crospovidone, alpha starch, partially alpha starch, carboxy methyl cellulose (CMC), crystalline cellulose 、 Crosslinked sodium carboxymethyl cellulose, sodium carboxymethyl starch, magnesium carbonate, low substitution degree hydroxypropyl cellulose, low substitution degree sodium carboxymethyl starch, precipitated calcium carbonate, gelatin, aluminum magnesium hydroxide, synthetic silicon Acid aluminum, etc. Preferred forms such as crospovidone, croscarmellose sodium, hydroxypropyl methylcellulose with low degree of substitution, sodium carboxymethyl starch, alpha starch, partially alpha starch, carboxy methyl fiber Calcium, carboxymethyl cellulose calcium. More preferred forms are, for example, hydroxypropyl methyl cellulose with a low degree of substitution, partially alpha starch, and cross-linked sodium carboxymethyl cellulose.
酸味劑例如檸檬酸、酒石酸、蘋果酸等。 Sour agents such as citric acid, tartaric acid, malic acid and the like.
發泡劑例如小蘇打、酒石酸、碳酸氫鈉、檸檬酸酐、碳酸氫鈉等。 Blowing agents such as baking soda, tartaric acid, sodium bicarbonate, citric anhydride, sodium bicarbonate and the like.
人工甜味劑例如糖精鈉、甘草酸二鉀、阿斯巴甜(aspartame)、甜菊、索馬甜(thaumatin)等。 Artificial sweeteners such as sodium saccharin, dipotassium glycyrrhizinate, aspartame, stevia, thaumatin and the like.
香料例如檸檬、萊姆、橘子、薄荷醇等。 Spices such as lemon, lime, orange, menthol, etc.
潤滑劑例如硬脂酸鎂、硬脂酸鈣、蔗糖脂肪酸酯、富馬酸硬脂鈉、聚乙二醇、滑石、硬脂酸等。 Lubricants such as magnesium stearate, calcium stearate, sucrose fatty acid esters, sodium stearate fumarate, polyethylene glycol, talc, stearic acid and the like.
著色劑例如黃色三二氧化鐵、紅色三二氧化鐵、食用黃色4號、5號、食用紅色3號、102號、食用藍色3號等。 The coloring agent is, for example, yellow ferric oxide, red ferric oxide, edible yellow No. 4, No. 5, edible red No. 3, No. 102, edible blue No. 3, etc.
安定化劑例如抗壞血酸、天冬胺酸、氯化鈉、氯化鎂、甘胺酸、丙三醇、輕質無水矽酸、葡糖酸鎂、木酮糖、檸檬酸鈣、氫氧化鈣、氫氧化鈉、氫氧化鎂、碳酸鉀、碳酸氫鉀、碳酸氫鈉等。 Stabilizers such as ascorbic acid, aspartic acid, sodium chloride, magnesium chloride, glycine, glycerin, light anhydrous silicic acid, magnesium gluconate, xylulose, calcium citrate, calcium hydroxide, hydroxide Sodium, magnesium hydroxide, potassium carbonate, potassium bicarbonate, sodium bicarbonate, etc.
緩衝劑例如檸檬酸、琥珀酸、富馬酸、酒石酸、抗壞血酸或其鹽類、谷胺酸、谷胺醯胺、甘胺酸、天冬胺酸、丙胺酸、精胺酸或其鹽類、氧化鎂、氧化鋅、氫氧化鎂、磷酸、硼酸或其鹽類等。 Buffers such as citric acid, succinic acid, fumaric acid, tartaric acid, ascorbic acid or its salts, glutamic acid, glutamine, glycine, aspartic acid, alanine, arginine or its salts, Magnesium oxide, zinc oxide, magnesium hydroxide, phosphoric acid, boric acid or its salts, etc.
抗氧化劑例如抗壞血酸、二丁基羥基甲苯、沒食子酸丙酯等。 Antioxidants such as ascorbic acid, dibutylhydroxytoluene, propyl gallate and the like.
界面活性劑例如聚山梨糖醇酯80、月桂基硫酸鈉、聚氧化乙烯硬化蓖麻油等。 Surfactants are, for example, polysorbate 80, sodium lauryl sulfate, polyethylene oxide hardened castor oil, and the like.
醫藥添加劑可適當量添加1種或組合2種以上。 The pharmaceutical additives may be added in an appropriate amount in one kind or in combination of two or more kinds.
此等各種醫藥添加劑之摻合量,可任意設定。 The blending amount of these various medical additives can be arbitrarily set.
本發明之速崩散性錠劑,以口腔內崩散錠為宜。 The fast disintegrating tablet of the present invention is preferably a disintegrating tablet in the oral cavity.
於下述中,說明有關本發明之速崩散性錠劑(特別是口腔內崩散錠)之製造方法。 In the following, the method for producing the fast-disintegrating tablet (particularly the intra-oral disintegrating tablet) of the present invention will be explained.
本發明之「藉由以超臨界或次臨界狀態之二氧化碳或 液體或氣體二氧化碳處理」,只要是使在成分與成分之間架構交聯構造的所謂具有「結合劑」之機能的物質,「部分」或「完全」溶解之處理即可,沒有特別的限制。具體而言,視使用容器之尺寸大小或種類而不同,例如相對於超臨界狀態或次臨界狀態及液體或氣體狀態之約1mL~約2000L之二氧化碳而言,將打錠後之錠劑(特別是口腔內崩散錠)以約0.1g~約2000kg為宜,較佳的形態為約5g~約100kg之比例進行處理。處理的時間以約1分鐘~約50小時為宜,較佳的形態為約1分鐘~約24小時,更佳者為約2分鐘~約12小時,最佳者為約5分鐘~約2小時。 In the present invention, "by using supercritical or subcritical carbon dioxide or "Liquid or gaseous carbon dioxide treatment" is not particularly limited as long as it is a substance that has a so-called "binder" function that has a cross-linking structure between components, and "partially" or "completely" dissolves it. Specifically, it depends on the size or type of the container used. For example, for the supercritical state or subcritical state and the liquid or gas state of about 1mL to about 2000L of carbon dioxide, the tablets after the tablet (special It is suitable for disintegrating tablets in the oral cavity). It is preferably about 0.1g to about 2000kg, and the preferred form is about 5g to about 100kg. The processing time is preferably about 1 minute to about 50 hours, the preferred form is about 1 minute to about 24 hours, the better is about 2 minutes to about 12 hours, the best is about 5 minutes to about 2 hours .
處理亦可在耐壓性容器內進行。具體而言,例如耐壓容器:H系列(多摩精器製)或EV系列(日本分光製)或VE-1(三菱化工機製)、CO2送液幫浦:SCF-GET或PU-2086(日本分光製)、CO2空氣壓縮機:PU-1(三菱化工機製)、溫度計:白金測溫電阻(R36S)(日本電測製)或TI-2068-01(日本分光製)、加熱器:蝴蝶結型加熱器(JK)(AS ONE製)或Oven CO-2060(日本分光製)、溫度計指示控制機:E5CN(OMRON製)、壓力指示機:WGA-710B(協和電業製)、壓力計:PG-500KU(協和電業製)、自動背壓調整閥:BP-2080(日本分光製)等於系統構成時使用的裝置。處理的溫度,係視構成本發明之速崩散性錠劑(特別是口腔內崩散錠)之成分的種類而不同,以約-40℃~約100℃為宜。例如,「藉由以 超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質」為共聚吡酮時約25℃~約70℃,為聚乙烯基己內醯胺-聚乙烯基醋酸-聚乙二醇接枝聚合物時約10℃~約65℃,為胺基烷基甲基丙烯酸酯共聚物E時約10℃~約65℃,為乙基纖維素時約10℃~約100℃。處理的壓力,相同地視構成本發明之速崩散性錠劑(特別是口腔內崩散錠)之成分的種類而不同,以約0.1MPa~約50MPa為宜,較佳者為約1MPa~約20MPa。 The treatment can also be carried out in a pressure-resistant container. Specifically, for example, a pressure-resistant container: H series (made by Tama Seiki) or EV series (made by Japan Spectroscopy) or VE-1 (Mitsubishi Chemical Corporation), CO 2 liquid delivery pump: SCF-GET or PU-2086 ( Japan Spectroscopy), CO 2 air compressor: PU-1 (Mitsubishi Chemical Mechanism), thermometer: platinum temperature resistance (R36S) (made by Nippon Electric Measurement) or TI-2068-01 (Japan Spectroscopy), heater: Bow-type heater (JK) (manufactured by AS ONE) or Oven CO-2060 (manufactured by Japan Spectroscopy), thermometer indicator controller: E5CN (manufactured by OMRON), pressure indicator: WGA-710B (manufactured by Kyowa Electric), pressure gauge : PG-500KU (manufactured by Kyowa Electric), automatic back pressure adjustment valve: BP-2080 (manufactured by Japan Spectroscopy) is equal to the device used when the system is constructed. The treatment temperature differs depending on the type of ingredients constituting the fast-disintegrating tablet of the present invention (especially the intra-oral disintegrating tablet), and is preferably about -40 ° C to about 100 ° C. For example, "a substance with a binder function by treatment with carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state" is about 25 ° C to about 70 ° C when it is copolypyrrolidone, which is polyvinyl caprolactam- Polyvinyl acetic acid-polyethylene glycol graft polymer is about 10 ℃ ~ about 65 ℃, when it is amino alkyl methacrylate copolymer E is about 10 ℃ ~ about 65 ℃, when it is ethyl cellulose 10 ℃ ~ about 100 ℃. The treatment pressure is similarly different depending on the types of ingredients constituting the fast-disintegrating tablet of the present invention (especially the intra-oral disintegrating tablet), and is preferably about 0.1 MPa to about 50 MPa, preferably about 1 MPa to About 20MPa.
於處理時,可於二氧化碳中混合其他溶劑等添加。其他溶劑例如可使用水;苯、甲苯、醋酸乙酯、環己烷、二甲苯等之芳香族烴類;二甲醚、二乙醚、二噁烷、二乙氧基乙烷、四氫呋喃、1,2-二甲氧基乙烷等之醚類;二氯甲烷、氯仿、四氯化碳、1,2-二氯乙烷等之有機氯系有機溶劑;乙腈、丙腈等之烷腈類;硝基甲烷、硝基乙烷等之硝基鏈烷類;N,N-二甲基甲醯胺、N,N-二甲基乙醯胺等之醯胺類;丙酮等之酮類;醋酸、醋酸酐、油酸等之脂肪酸;甲醇、乙醇、丙醇等之醇類;二甲基亞碸等之亞碸類等;以及此等之混合溶劑等,其中,以乙醇、丙酮等較佳。其他溶劑之使用量,通常在超臨界或次臨界狀態或液體或氣體狀態之二氧化碳中,以約0.1~約99.9體積%為宜,較佳的形態約為1~99體積%。 During the treatment, other solvents and the like may be mixed with carbon dioxide and added. For other solvents, for example, water; aromatic hydrocarbons such as benzene, toluene, ethyl acetate, cyclohexane, and xylene; dimethyl ether, diethyl ether, dioxane, diethoxyethane, tetrahydrofuran, 1, Ethers such as 2-dimethoxyethane; organic chlorine-based organic solvents such as methylene chloride, chloroform, carbon tetrachloride, 1,2-dichloroethane; alkanenitriles such as acetonitrile and propionitrile; Nitroalkanes such as nitromethane and nitroethane; amides such as N, N-dimethylformamide, N, N-dimethylacetamide; ketones such as acetone; acetic acid Fatty acids such as acetic anhydride, oleic acid, etc .; alcohols such as methanol, ethanol, propanol, etc .; sulfonanes such as dimethyl sulfoxide; etc .; and mixed solvents of these, etc., among which ethanol, acetone, etc. are preferred . The amount of other solvents used is usually about 0.1 to about 99.9% by volume in carbon dioxide in supercritical or subcritical state or liquid or gas state, and the preferred form is about 1 to 99% by volume.
此外,於處理時可在二氧化碳中加入其他氣體。其他的氣體例如可使用氮氣等。 In addition, other gases can be added to the carbon dioxide during processing. For other gases, for example, nitrogen gas or the like can be used.
具體而言,例如可於下述(O)之處理後,依照下述 (1)~(4)中任一順序,製造本發明之速崩散性錠劑(特別是口腔內崩散錠),惟不受下述所限制。以下亦記載(1)~(4)中之任一順序作為二氧化碳(壓力)處理。 Specifically, for example, after the treatment of (O) below, according to the following (1) to (4) In any order, the rapid disintegrating lozenges (especially intraoral disintegrating lozenges) of the present invention are manufactured, but are not limited to the following. The following also describes any of (1) to (4) as carbon dioxide (pressure) treatment.
(O)調製二氧化碳處理前之速崩散性錠劑(例如口腔內崩散錠) (O) Preparation of rapidly disintegrating tablets before carbon dioxide treatment (for example, oral disintegrating tablets)
具體而言,例如使在藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質中添加藥效成分之混合物予以壓縮成形的方法;使藥效成分以含有藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質的水溶液造粒,且使所得的造粒物壓縮成形的方法;使藥效成分與藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質以水溶液造粒,且使所得的造粒物壓縮成形的方法;使藥效成分與藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質以有機溶劑造粒,且使所得的造粒物壓縮成形的方法;使藥效成分與藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質,使用藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質予以造粒,且使所得的造粒物壓縮成形的方法;使藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質與其他的醫藥添加劑造粒,且使所得 的造粒物與藥效成分混合之混合物壓縮成形的方法;以及使藥效成分與藉由以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質使用噴霧乾燥機製作固體分散物,且使所得的固體分散物與其他的醫藥添加劑混合之混合物壓縮成形的方法等。 Specifically, for example, a method of compressing and forming a mixture of medicinal ingredients by adding a mixture of medicinal ingredients to a substance having a binder function by processing carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state; A method of granulating an aqueous solution of a substance having a binding agent function by processing carbon dioxide or liquid or gaseous carbon dioxide in a supercritical or subcritical state, and compressing and forming the resulting granules; A method for granulating a substance in a critical or subcritical state with carbon dioxide or liquid or gaseous carbon dioxide and having the function of a binder with an aqueous solution, and compressing the resulting granules; by using supercritical or subcritical components Carbon dioxide or liquid or gaseous carbon dioxide in the state of treatment and the substance with a binder function is granulated with an organic solvent, and the resulting granulated material is compressed and shaped; the medicinal components and the carbon dioxide by supercritical or subcritical state Or liquid or gaseous carbon dioxide treatment with a binder function of the substance, use by super A method for granulating a substance with a binder function by processing carbon dioxide or liquid or gaseous carbon dioxide in a boundary or subcritical state, and compressing and forming the resulting granules; by using carbon dioxide or liquid in a supercritical or subcritical state Or gaseous carbon dioxide treatment and a substance with a binder function and other pharmaceutical additives are granulated, and the resulting The method of compressing and forming the mixture of the granulated substance and the medicinal ingredient; and the use of the spray dryer for the medicinal ingredient and the substance that has the function of a binder by treatment with carbon dioxide or liquid or gaseous carbon dioxide in supercritical or subcritical state A method of preparing a solid dispersion and compressing a mixture of the obtained solid dispersion and other medical additives, and the like.
(1) (1)
.在耐壓性容器中加入速崩散性錠劑(例如口腔內崩散錠) . Add fast-disintegrating lozenges (e.g., disintegrating tablets in the mouth) to a pressure-resistant container
.將該耐壓性容器之溫度保持於二氧化碳之臨界點以上 . Keep the temperature of the pressure-resistant container above the critical point of carbon dioxide
.在該耐壓性容器中填充二氧化碳(視其所需混合上述溶劑或其他氣體) . Fill the pressure-resistant container with carbon dioxide (mix the above solvents or other gases as required)
.將該耐壓性容器內之壓力保持於二氧化碳之臨界點以上,進行二氧化碳處理 . Keep the pressure in the pressure-resistant container above the critical point of carbon dioxide and carry out carbon dioxide treatment
.以二氧化碳處理完成後,除壓且取出所得的速崩散性錠劑(例如口腔內崩散錠) . After the treatment with carbon dioxide is completed, the pressure is removed and the resulting rapidly disintegrating lozenges (for example, oral disintegrating lozenges)
(2) (2)
.在耐壓性容器中加入速崩散性錠劑(例如口腔內崩散錠) . Add fast-disintegrating lozenges (e.g., disintegrating tablets in the mouth) to a pressure-resistant container
.將該耐壓性容器之溫度保持於二氧化碳之臨界點以上 . Keep the temperature of the pressure-resistant container above the critical point of carbon dioxide
.在該耐壓性容器中填充二氧化碳(視其所需混合上述溶劑或其他氣體) . Fill the pressure-resistant container with carbon dioxide (mix the above solvents or other gases as required)
.將該耐壓性容器內保持於未達二氧化碳之臨界點,進行二氧化碳處理 . Keep the pressure-resistant container at the critical point of carbon dioxide and carry out carbon dioxide treatment
.以二氧化碳處理完成後,除壓且取出所得的速崩散性錠 劑(例如口腔內崩散錠) . After the treatment with carbon dioxide is completed, the pressure is removed and the resulting rapidly disintegrating ingot is removed Agents (e.g. oral disintegrating tablets)
(3) (3)
.在耐壓性容器中加入速崩散性錠劑(例如口腔內崩散錠) . Add fast-disintegrating lozenges (e.g., disintegrating tablets in the mouth) to a pressure-resistant container
.將該耐壓性容器之溫度保持於未達二氧化碳之臨界點 . Keep the temperature of the pressure-resistant container below the critical point of carbon dioxide
.在該耐壓性容器中填充二氧化碳(視其所需混合上述溶劑或其他氣體) . Fill the pressure-resistant container with carbon dioxide (mix the above solvents or other gases as required)
.將該耐壓性容器內保持於二氧化碳之臨界點以上,進行二氧化碳處理 . Hold the pressure-resistant container above the critical point of carbon dioxide and perform carbon dioxide treatment
.以二氧化碳處理完成後,除壓且取出所得的速崩散性錠劑(例如口腔內崩散錠) . After the treatment with carbon dioxide is completed, the pressure is removed and the resulting rapidly disintegrating lozenges (for example, oral disintegrating lozenges)
(4) (4)
.在耐壓性容器中加入速崩散性錠劑(例如口腔內崩散錠) . Add fast-disintegrating lozenges (e.g., disintegrating tablets in the mouth) to a pressure-resistant container
.將該耐壓性容器之溫度保持於未達二氧化碳之臨界點 . Keep the temperature of the pressure-resistant container below the critical point of carbon dioxide
.在該耐壓性容器中填充二氧化碳(視其所需混合上述溶劑或其他氣體) . Fill the pressure-resistant container with carbon dioxide (mix the above solvents or other gases as required)
.將該耐壓性容器內保持於未達二氧化碳之臨界點,進行二氧化碳處理 . Keep the pressure-resistant container at the critical point of carbon dioxide and carry out carbon dioxide treatment
.以二氧化碳處理完成後,除壓且取出所得的速崩散性錠劑(例如口腔內崩散錠) . After the treatment with carbon dioxide is completed, the pressure is removed and the resulting rapidly disintegrating lozenges (for example, oral disintegrating lozenges)
於下述中,以實施例、比較例、參考例及試驗例為例,更詳細地說明本發明,惟本發明不受此等所限制。 In the following, the present invention will be described in more detail by taking examples, comparative examples, reference examples, and test examples, but the present invention is not limited by these.
而且,視藥物而定,由於摻合極微量(例如數ng或數μg等),下述實施例全部含有極微量的藥物。 Moreover, depending on the drug, due to the incorporation of extremely small amounts (for example, several ng or several μg, etc.), the following examples all contain extremely small amounts of drugs.
混合D-甘露糖醇(Pearitol 50C、Rocket Japan製、以下沒有特別限制時亦相同)59.0w/w%、結晶纖維素(MCC SANAQ burst、PHARMATRANS SANAQAG製)20.0w/w%、共聚吡酮(Kollidon VA64 Fine、BASF Japan公司製)10.0w/w%、交聯聚吡酮(Kollidon CL、BASF Japan製)10.0w/w%。在該混合物中摻合硬脂酸鎂(Parteck LUB MST、Merck製、以下沒有特別限制時亦相同)1.0w/w%,且使用單發打錠機(Autograph AGS-20kNG、島津製作所製、以下沒有特別限制時亦相同),以打錠壓力約1.0kN/搗杵製作每1錠為180mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為8N(n=1)。其次,使該錠劑使用耐壓性容器(耐壓室),以二氧化碳壓力8.0MPa、45℃進行處理30分鐘後,以減壓速度約16kPa/秒進行減壓,製得本發明之速崩散性錠劑。 Mixed D-mannitol (Pearitol 50C, manufactured by Rocket Japan, the same is not particularly limited below) 59.0w / w%, crystalline cellulose (MCC SANAQ burst, PHARMATRANS SANAQAG) 20.0w / w%, co-pyrrolidone ( Kollidon VA64 Fine, manufactured by BASF Japan) 10.0w / w%, cross-linked polypyrrolidone (Kollidon CL, manufactured by BASF Japan) 10.0w / w%. Magnesium stearate (Parteck LUB MST, made by Merck, the following is also the same unless otherwise specified) is mixed with 1.0w / w% of this mixture, and a single-shot spindle machine (Autograph AGS-20kNG, manufactured by Shimadzu Corporation, below) is used It is the same when there is no particular limitation), and a tablet having a tableting pressure of about 1.0 kN / shovel is used to prepare a tablet of 180 mg per tablet (tablet diameter 8.5 mm). The tablet hardness is 8N (n = 1). Next, the tablet was treated with a pressure-resistant container (pressure-resistant chamber) at a carbon dioxide pressure of 8.0 MPa and 45 ° C for 30 minutes, and then depressurized at a decompression rate of about 16 kPa / sec to produce the rapid disintegration of the present invention. Lozenges.
混合D-甘露糖醇54.0w/w%、結晶纖維素(MCC SANAQ burst、PHARMATRANSSANAQ AG製) 20.0w/w%、共聚吡酮(Kollidon VA64 Fine、BASF Japan公司製)15.0w/w%、交聯聚吡酮(Kollidon CL、BASF Japan製)10.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力約1.0kN/搗杵製作每1錠為180mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為8N(n=1)。其次,使該錠劑使用耐壓室,以二氧化碳壓力8.0MPa、45℃進行處理30分鐘後,以減壓速度約16kPa/秒進行減壓,製得本發明之速崩散性錠劑。 Mixed D-mannitol 54.0w / w%, crystalline cellulose (MCC SANAQ burst, PHARMATRANSSANAQ AG) 20.0w / w%, copolypyrrolidone (Kollidon VA64 Fine, manufactured by BASF Japan) 15.0w / w%, cross-linked polypyrrolidone (Kollidon CL, manufactured by BASF Japan) 10.0w / w%. Magnesium stearate 1.0w / w% was blended into this mixture, and a single-shot tableting machine was used to make tablets with a tableting pressure of about 1.0kN / tamper to make 180mg per tablet (tablet diameter 8.5mm) . The tablet hardness is 8N (n = 1). Next, this lozenge was treated with a pressure-resistant chamber and treated at a carbon dioxide pressure of 8.0 MPa and 45 ° C for 30 minutes, and then depressurized at a depressurization rate of about 16 kPa / sec to prepare the rapidly disintegrating lozenge of the present invention.
混合D-甘露糖醇97.0w/w%、共聚吡酮(Kollidon VA64 Fine、BASF Japan公司製)3.0w/w%。使該混合物使用單發打錠機,以打錠壓力約1.0kN/搗杵製作每1錠為270mg之錠劑(錠劑直徑9.0mm)。錠劑硬度為10N(n=3)。其次,使該錠劑使用耐壓室,以二氧化碳壓力6.0MPa、40℃進行處理30分鐘後,慢慢地進行減壓,製得本發明之速崩散性錠劑。 D-mannitol 97.0 w / w% and copolypyrrolidone (Kollidon VA64 Fine, manufactured by BASF Japan) 3.0 w / w% were mixed. A single-shot tableting machine was used for this mixture, and a tablet having a tabletting pressure of about 1.0 kN / trotter was used to prepare tablets of 270 mg per tablet (tablet diameter 9.0 mm). Tablet hardness is 10N (n = 3). Next, this lozenge was treated with a pressure-resistant chamber and treated with a carbon dioxide pressure of 6.0 MPa and 40 ° C. for 30 minutes, and then the pressure was gradually reduced to obtain the rapidly disintegrating lozenge of the present invention.
混合D-甘露糖醇95.0w/w%、共聚吡酮(Kollidon VA64 Fine、BASF Japan公司製)5.0w/w%。使該混合物使用單發打錠機,以打錠壓力約1.0kN/搗杵製作每1錠為270mg之錠劑(錠劑直徑9.0mm)。錠劑硬度為10N(n=1)。其次,使該錠劑使用耐壓室,以二氧化碳壓力 6.0MPa、40℃進行處理30分鐘後,慢慢地進行減壓,製得本發明之速崩散性錠劑。 D-mannitol 95.0w / w% and copolypyrrolidone (Kollidon VA64 Fine, manufactured by BASF Japan) 5.0w / w% were mixed. A single-shot tableting machine was used for this mixture, and a tablet having a tabletting pressure of about 1.0 kN / trotter was used to prepare tablets of 270 mg per tablet (tablet diameter 9.0 mm). The tablet hardness is 10N (n = 1). Secondly, use the pressure-resistant chamber of the lozenge with carbon dioxide pressure After treatment at 6.0 MPa and 40 ° C for 30 minutes, the pressure was slowly reduced to obtain the rapidly disintegrating tablet of the present invention.
混合D-甘露糖醇90.0w/w%、共聚吡酮(Kollidon VA64 Fine、BASF Japan公司製)10.0w/w%。使該混合物使用單發打錠機,以打錠壓力約1.0kN/搗杵製作每1錠為270mg之錠劑(錠劑直徑9.0mm)。錠劑硬度為10N(n=1)。其次,使該錠劑使用耐壓室,以二氧化碳壓力6.0MPa、40℃進行處理30分鐘後,慢慢地進行減壓,製得本發明之速崩散性錠劑。 D-mannitol 90.0w / w% and copolypyrrolidone (Kollidon VA64 Fine, manufactured by BASF Japan) 10.0w / w% were mixed. A single-shot tableting machine was used for this mixture, and a tablet having a tabletting pressure of about 1.0 kN / trotter was used to prepare tablets of 270 mg per tablet (tablet diameter 9.0 mm). The tablet hardness is 10N (n = 1). Next, this lozenge was treated with a pressure-resistant chamber and treated with a carbon dioxide pressure of 6.0 MPa and 40 ° C. for 30 minutes, and then the pressure was gradually reduced to obtain the rapidly disintegrating lozenge of the present invention.
混合F-Melt(富士化學製)89.0w/w%、共聚吡酮(Kollidon VA64 Fine、BASF Japan公司製)10.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力約1.0kN/搗杵製作每1錠為180mg之錠劑(錠劑直徑8.0mm)。錠劑硬度為17N(n=3)。口腔內崩散時間為19秒(n=3)。其次,使該錠劑使用耐壓室,以二氧化碳壓力6.0MPa、40℃進行處理30分鐘後,慢慢地進行減壓,製得本發明之速崩散性錠劑。 F-Melt (manufactured by Fuji Chemicals) 89.0 w / w% and copolypyrrolone (Kollidon VA64 Fine, manufactured by BASF Japan) 10.0 w / w% were mixed. Magnesium stearate 1.0w / w% was blended into this mixture, and a single-shot tableting machine was used to produce tablets with a tableting pressure of about 1.0 kN / tamper to make 180 tablets per tablet (tablet diameter 8.0 mm) . The tablet hardness is 17N (n = 3). The disintegration time in the oral cavity was 19 seconds (n = 3). Next, this lozenge was treated with a pressure-resistant chamber and treated with a carbon dioxide pressure of 6.0 MPa and 40 ° C. for 30 minutes, and then the pressure was gradually reduced to obtain the rapidly disintegrating lozenge of the present invention.
混合F-Melt(富士化學製)89.0w/w%、共聚吡酮 (Kollidon VA64 Fine、BASF Japan公司製)10.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用旋轉打錠機(HT-EX系列、鈿鐵工所製、以下沒有特別限制時亦相同),以打錠壓力約1.0kN/搗杵製作每1錠為180mg之錠劑(參考例1)(錠劑直徑8.0mm)。其次,使該錠劑使用耐壓室,以二氧化碳壓力4MPa、25℃進行處理5分鐘後,慢慢地進行減壓,製得本發明之速崩散性錠劑。 Mixed F-Melt (manufactured by Fuji Chemical) 89.0w / w%, copolypyrrolidone (Kollidon VA64 Fine, manufactured by BASF Japan) 10.0w / w%. Magnesium stearate is mixed with 1.0w / w% of this mixture, and a rotary ingot machine (HT-EX series, manufactured by CK Iron Works, the same is not the same as below) is used, and the ingot pressure is about 1.0kN / A pestle produces a lozenge (reference example 1) of 180 mg per lozenge (lozenge diameter 8.0 mm). Next, this lozenge was treated with a pressure-resistant chamber and treated with a carbon dioxide pressure of 4 MPa and 25 ° C. for 5 minutes, and then the pressure was gradually reduced to obtain the rapidly disintegrating lozenge of the present invention.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力4MPa、25℃進行處理15分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,減壓速度條件以約27kPa/秒進行。 The lozenges of Reference Example 1 were treated with a pressure-resistant chamber and treated with a carbon dioxide pressure of 4 MPa and 25 ° C. for 15 minutes, followed by depressurization to prepare the rapidly disintegrating lozenges of the present invention. In addition, the decompression speed condition is performed at about 27 kPa / sec.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力4MPa、25℃進行處理30分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,減壓速度條件以約27kPa/秒進行。 The lozenges of Reference Example 1 were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 4 MPa and 25 ° C. for 30 minutes, and then depressurized to obtain the rapidly disintegrating lozenges of the invention. In addition, the decompression speed condition is performed at about 27 kPa / sec.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力8MPa、25℃進行處理5分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,減壓速度條件以約16kPa/秒進行。 The lozenges of Reference Example 1 were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 8 MPa and 25 ° C. for 5 minutes, and then depressurized to obtain the rapidly disintegrating lozenges of the invention. In addition, the decompression speed condition is performed at about 16 kPa / sec.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力8MPa、25℃進行處理15分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,減壓速度條件以約16kPa/秒進行。 The lozenges of Reference Example 1 were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 8 MPa and 25 ° C. for 15 minutes, and then depressurized to obtain the rapidly disintegrating lozenges of the present invention. In addition, the decompression speed condition is performed at about 16 kPa / sec.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力8MPa、25℃進行處理30分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,減壓速度條件以約16kPa/秒進行。 The lozenges of Reference Example 1 were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 8 MPa and 25 ° C. for 30 minutes, and then depressurized to obtain the rapidly disintegrating lozenges of the present invention. In addition, the decompression speed condition is performed at about 16 kPa / sec.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力4MPa、35℃進行處理5分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,減壓速度條件以約27kPa/秒進行。 The lozenges of Reference Example 1 were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 4 MPa and 35 ° C. for 5 minutes, and then depressurized to obtain the rapidly disintegrating lozenges of the present invention. In addition, the decompression speed condition is performed at about 27 kPa / sec.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力4MPa、35℃進行處理15分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,減壓速度條件以約27kPa/秒進行。 The lozenges of Reference Example 1 were treated with a pressure-resistant chamber and treated with carbon dioxide pressure of 4 MPa and 35 ° C. for 15 minutes, followed by depressurization to prepare the rapidly disintegrating lozenges of the present invention. In addition, the decompression speed condition is performed at about 27 kPa / sec.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力4MPa、35℃進行處理30分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,減壓速度條件以約27kPa/秒進行。 The lozenges of Reference Example 1 were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 4 MPa and 35 ° C. for 30 minutes, and then depressurized to obtain the rapidly disintegrating lozenges of the present invention. In addition, the decompression speed condition is performed at about 27 kPa / sec.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力8MPa、35℃進行處理5分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,減壓速度條件以約16kPa/秒進行。 The lozenges of Reference Example 1 were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 8 MPa and 35 ° C. for 5 minutes, and then depressurized to obtain the rapidly disintegrating lozenges of the present invention. In addition, the decompression speed condition is performed at about 16 kPa / sec.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力8MPa、35℃進行處理15分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,減壓速度條件以約16kPa/秒進行。 The tablets of Reference Example 1 were used in a pressure-resistant chamber, treated with carbon dioxide pressure of 8 MPa and 35 ° C. for 15 minutes, and then depressurized to obtain the rapidly disintegrating tablets of the present invention. In addition, the decompression speed condition is performed at about 16 kPa / sec.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力8MPa、35℃進行處理30分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,減壓速度條件以約16kPa/秒進行。 The lozenges of Reference Example 1 were used in a pressure-resistant chamber, treated with carbon dioxide pressure of 8 MPa and 35 ° C. for 30 minutes, and then depressurized to prepare the rapidly disintegrating lozenges of the present invention. In addition, the decompression speed condition is performed at about 16 kPa / sec.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力4MPa、45℃進行處理5分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,減壓速度條件以約27kPa/秒進行。 The lozenges of Reference Example 1 were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 4 MPa and 45 ° C. for 5 minutes, and then depressurized to obtain the rapidly disintegrating lozenges of the present invention. In addition, the decompression speed condition is performed at about 27 kPa / sec.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力4MPa、45℃進行處理15分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,減壓速度條件以約27kPa/秒進行。 The lozenges of Reference Example 1 were treated with a pressure-resistant chamber, treated with carbon dioxide at 4 MPa and 45 ° C for 15 minutes, and then depressurized to obtain the rapidly disintegrating lozenges of the present invention. In addition, the decompression speed condition is performed at about 27 kPa / sec.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力4MPa、45℃進行處理30分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,減壓速度條件以約27kPa/秒進行。 The lozenges of Reference Example 1 were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 4 MPa and 45 ° C for 30 minutes, and then depressurized to prepare the rapidly disintegrating lozenges of the present invention. In addition, the decompression speed condition is performed at about 27 kPa / sec.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力8MPa、45℃進行處理5分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,減壓速度條件以約16kPa/秒進行。 The lozenges of Reference Example 1 were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 8 MPa and 45 ° C. for 5 minutes, and then depressurized to obtain the rapidly disintegrating lozenges of the present invention. In addition, the decompression speed condition is performed at about 16 kPa / sec.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力8MPa、45℃進行處理15分鐘後,進行減壓,製得本發明 之速崩散性錠劑。而且,減壓速度條件以約16kPa/秒進行。 The tablet of Reference Example 1 was used in a pressure-resistant chamber, treated with carbon dioxide at 8 MPa and 45 ° C for 15 minutes, and then depressurized to produce the present invention. The fast disintegrating lozenges. In addition, the decompression speed condition is performed at about 16 kPa / sec.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力8MPa、45℃進行處理30分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,減壓速度條件以約16kPa/秒進行。 The lozenges of Reference Example 1 were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 8 MPa and 45 ° C. for 30 minutes, and then depressurized to prepare the rapidly disintegrating lozenges of the present invention. In addition, the decompression speed condition is performed at about 16 kPa / sec.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力8MPa、45℃進行處理30分鐘後,以減壓速度約800kPa/秒進行減壓,製得本發明之速崩散性錠劑。 The tablets of Reference Example 1 were used in a pressure-resistant chamber, treated with carbon dioxide pressure of 8 MPa and 45 ° C. for 30 minutes, and then depressurized at a decompression rate of about 800 kPa / sec to prepare the rapidly disintegrating tablets of the present invention.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力8MPa、45℃進行處理2400分鐘後,以減壓速度約800kPa/秒進行減壓,製得本發明之速崩散性錠劑。 The lozenges of Reference Example 1 were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 8 MPa and 45 ° C. for 2400 minutes, and then depressurized at a decompression rate of about 800 kPa / sec to prepare the rapidly disintegrating lozenges of the present invention.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力8MPa、45℃進行處理2400分鐘後,以減壓速度約16kPa/秒進行減壓,製得本發明之速崩散性錠劑。 The lozenges of Reference Example 1 were treated with a pressure-resistant chamber, treated with carbon dioxide at 8 MPa and 45 ° C. for 2400 minutes, and then depressurized at a depressurization rate of about 16 kPa / sec to prepare the rapidly disintegrating lozenges of the present invention.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力20MPa、45℃進行處理30分鐘後,以減壓速度約27kPa/秒進行減壓,製得本發明之速崩散性錠劑。 The lozenges of Reference Example 1 were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 20 MPa and 45 ° C for 30 minutes, and then depressurized at a depressurization rate of about 27 kPa / sec to prepare the rapidly disintegrating lozenges of the present invention.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力20MPa、45℃進行處理30分鐘後,以減壓速度約2000kPa/秒進行減壓,製得本發明之速崩散性錠劑。 The lozenges of Reference Example 1 were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 20 MPa and 45 ° C for 30 minutes, and then depressurized at a depressurization rate of about 2000 kPa / sec to prepare the rapidly disintegrating lozenges of the present invention.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力20MPa、45℃進行處理2400分鐘後,以減壓速度約2000kPa/秒進行減壓,製得本發明之速崩散性錠劑。 The lozenges of Reference Example 1 were treated with a pressure-resistant chamber and treated at a carbon dioxide pressure of 20 MPa and 45 ° C for 2400 minutes, followed by depressurization at a depressurization rate of about 2000 kPa / sec to prepare the rapidly disintegrating lozenges of the present invention.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力20MPa、45℃進行處理2400分鐘後,以減壓速度約27kPa/秒進行減壓,製得本發明之速崩散性錠劑。 The lozenges of Reference Example 1 were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 20 MPa and 45 ° C. for 2400 minutes, and then depressurized at a depressurization rate of about 27 kPa / sec to prepare the rapidly disintegrating lozenges of the present invention.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力20MPa、40℃進行處理30分鐘後,以減壓速度約2000kPa/秒進行減壓,製得本發明之速崩散性錠劑。 The lozenges of Reference Example 1 were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 20 MPa and 40 ° C for 30 minutes, and then depressurized at a decompression rate of about 2000 kPa / sec to prepare the rapidly disintegrating lozenges of the present invention.
使參考例1之錠劑使用耐壓室,以二氧化碳壓力20MPa、40℃進行處理2400分鐘後,以減壓速度約2000kPa/秒進行減壓,製得本發明之速崩散性錠劑。 The lozenges of Reference Example 1 were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 20 MPa and 40 ° C. for 2400 minutes, and then depressurized at a decompression rate of about 2000 kPa / sec to prepare the rapidly disintegrating lozenges of the present invention.
混合D-甘露糖醇54.0w/w%、結晶纖維素(PHARMATRANS SANAQ AG製)20.0w/w%、聚乙烯基己內醯胺-聚乙烯基醋酸-聚乙二醇接枝共聚物(Soluplus、BASF Japan製)15.0w/w%、交聯聚吡酮(Kollidon CL、BASF Japan製)10.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力約1.0kN/搗杵製作每1錠為180mg之錠劑(錠劑直徑8.5mm)。其次,使該錠劑使用耐壓室,以二氧化碳壓力8.0MPa、45℃進行處理30分鐘後,以減壓速度約16kPa/秒進行減壓,製得本發明之速崩散性錠劑。 Mixed D-mannitol 54.0w / w%, crystalline cellulose (made by PHARMATRANS SANAQ AG) 20.0w / w%, polyvinyl caprolactam-polyvinyl acetic acid-polyethylene glycol graft copolymer (Soluplus , Manufactured by BASF Japan) 15.0 w / w%, cross-linked polypyrrolidone (Kollidon CL, manufactured by BASF Japan) 10.0 w / w%. Magnesium stearate 1.0w / w% was blended into this mixture, and a single-shot tableting machine was used to make tablets with a tableting pressure of about 1.0kN / tamper to make 180mg per tablet (tablet diameter 8.5mm) . Next, this lozenge was treated with a pressure-resistant chamber and treated at a carbon dioxide pressure of 8.0 MPa and 45 ° C for 30 minutes, and then depressurized at a depressurization rate of about 16 kPa / sec to prepare the rapidly disintegrating lozenge of the present invention.
混合F-Melt(富士化學製)89.0w/w%、共聚吡酮(Kollidon VA64 Fine、BASF Japan公司製)10.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用旋轉打錠機以打錠壓力約2.5kN/搗杵製作每1錠為180mg之錠劑(錠劑直徑8.0mm)。 F-Melt (manufactured by Fuji Chemicals) 89.0 w / w% and copolypyrrolone (Kollidon VA64 Fine, manufactured by BASF Japan) 10.0 w / w% were mixed. Magnesium stearate 1.0 w / w% was blended into the mixture, and a rotary tableting machine was used to produce tablets with a tableting pressure of about 2.5 kN / ram and 180 mg per tablet (tablet diameter 8.0 mm).
有關實施例1,2,34(n=1)、實施例3~6(n=3)、實施例7~33、比較例1(n=5)之錠劑,測定其硬度。硬度係使用錠劑硬度計(Tablet Hardness Tester、“Schleuniger”、Model 6D、Schleuniger公司製)進行測定。結果如表3所示。 For the tablets of Examples 1, 2, 34 (n = 1), Examples 3 to 6 (n = 3), Examples 7 to 33, and Comparative Example 1 (n = 5), the hardness was measured. The hardness was measured using a tablet hardness tester (Tablet Hardness Tester, "Schleuniger", Model 6D, manufactured by Schleuniger). The results are shown in Table 3.
有關參考例1、實施例1,2,6,34(n=1)、實施例7~33、比較例1(n=3)之錠劑,測定其口腔內崩散時間。口腔內崩散時間係使用口腔內崩散試驗機(Tricorptester、岡田精工公司製)進行測定。結果如表3所示。 For the lozenges of Reference Example 1, Examples 1, 2, 6, and 34 (n = 1), Examples 7 to 33, and Comparative Example 1 (n = 3), the disintegration time in the oral cavity was measured. The intraoral disintegration time was measured using an intraoral disintegration tester (Tricorptester, manufactured by Okada Seiko Co., Ltd.). The results are shown in Table 3.
有關參考例1、實施例7~33、比較例1之錠劑,測定其厚度(n=5)。錠劑之厚度係使用digimatic indicator(Mitutoyo Absolute、Mitutoyo公司製)進行測定。結果如表3所示。 For the tablets of Reference Example 1, Examples 7 to 33, and Comparative Example 1, the thickness (n = 5) was measured. The thickness of the lozenge was measured using a digimatic indicator (Mitutoyo Absolute, manufactured by Mitutoyo). The results are shown in Table 3.
有關參考例1、實施例7~33、比較例1之錠劑,測定其空隙率(n=1)。空隙率係使用體積密度測定裝置 (Akivic 1330、GeoPycTM1360、Micromeritics公司製)進行測定。結果如表3所示。 For the tablets of Reference Example 1, Examples 7 to 33, and Comparative Example 1, the porosity (n = 1) was measured. The porosity was measured using a bulk density measuring device (Akivic 1330, GeoPyc ™ 1360, manufactured by Micromeritics). The results are shown in Table 3.
使用二氧化碳,處理共聚吡酮(Kollidon VA64、BASF Japan)及聚乙烯基己內醯胺-聚乙烯基醋酸-聚乙二醇接枝共聚物(Soluplus、BASF Japan)。處理時之二氧化碳壓力及各物質之玻璃轉移點如表1(共聚吡酮)及表2(聚乙烯基己內醯胺-聚乙烯基醋酸-聚乙二醇接枝共聚物)所示。 Using carbon dioxide, copolypyrrolidone (Kollidon VA64, BASF Japan) and polyvinyl caprolactam-polyvinylacetic acid-polyethylene glycol graft copolymer (Soluplus, BASF Japan) were treated. The carbon dioxide pressure during treatment and the glass transition point of each substance are shown in Table 1 (co-polypyrrolidone) and Table 2 (polyvinylcaprolactam-polyvinylacetic acid-polyethylene glycol graft copolymer).
結果,有熔點或玻璃轉移溫度降低的現象(表1、表2)。該玻璃轉移溫度,以目視判斷耐壓室中之各物質,確認引起相轉移的溫度予以求取。如此藉由使用二氧化碳,可利用在室溫附近以超臨界或次臨界狀態之二氧化碳或液體或氣體二氧化碳處理而具有結合劑機能之物質的相變化,可使形成粒子間交聯之多孔性構造適用於速崩散性錠劑(特別是口腔內崩散錠)。 As a result, there is a phenomenon that the melting point or glass transition temperature decreases (Table 1, Table 2). The glass transition temperature is determined by visually judging each substance in the pressure chamber and confirming the temperature at which phase transition occurs. In this way, by using carbon dioxide, the phase change of the substance having a binder function can be processed by using supercritical or subcritical carbon dioxide or liquid or gaseous carbon dioxide near room temperature, and the porous structure that forms cross-links between particles can be applied. For rapid disintegrating lozenges (especially oral disintegrating tablets).
在直打用甘露糖醇(Parteck M100、Merck製)99.0w/w%中摻合硬脂酸鎂(Parteck LUB MST、Merck製、以下沒有特別的限制時亦相同)1.0w/w%,且使用單 發打錠機(Autograph AGS-20kNG、島津製作所製、以下沒有特別限制時亦相同),以錠劑硬度為20N、錠劑厚度約為3.9mm的方式進行打錠(錠劑直徑8.5mm)。 Magnesium stearate (Parteck LUB MST, Merck, the following is not particularly limited) 1.0w / w% is blended with 99.0w / w% of mannitol (Parteck M100, manufactured by Merck) for direct hitting, and Use list The tableting machine (Autograph AGS-20kNG, manufactured by Shimadzu Corporation, and the same when not specifically limited below) performs tabletting (tablet diameter 8.5mm) so that the tablet hardness is 20N and the tablet thickness is about 3.9mm.
使此等錠劑使用耐壓室,以二氧化碳壓力10MPa、40℃進行處理60分鐘後,進行減壓,製得參考例2之錠劑。 These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 10 MPa and 40 ° C. for 60 minutes, and then depressurized to obtain a lozenge of Reference Example 2.
在直打用甘露糖醇(Parteck M100、Merck製)79.0w/w%中混合表4記載之各種醫藥添加劑20.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以錠劑硬度為20N、錠劑厚度約為3.9mm的方式進行打錠(錠劑直徑8.5mm)。 Various medical additives 20.0w / w% described in Table 4 were mixed with mannitol (Parteck M100, manufactured by Merck) 79.0w / w% for direct hitting. Magnesium stearate 1.0w / w% was blended into the mixture, and a single-shot tableting machine was used to perform tabletting (tablet diameter 8.5mm) with a tablet hardness of 20N and a tablet thickness of about 3.9mm. .
使此等錠劑使用耐壓室,以二氧化碳壓力6MPa、25℃進行處理45分鐘後,進行減壓,製得參考例3~8之錠劑。 These tablets were treated with a pressure-resistant chamber and treated with carbon dioxide at 6 MPa and 25 ° C. for 45 minutes, and then depressurized to prepare tablets of Reference Examples 3 to 8.
在直打用甘露糖醇(Parteck M100、Merck製)79.0w/w%中混合表4記載之各種醫藥添加劑20.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以錠劑硬度為20N、錠劑厚度約為3.9mm的方式進行打錠(錠劑直徑8.5mm)。 Various medical additives 20.0w / w% described in Table 4 were mixed with mannitol (Parteck M100, manufactured by Merck) 79.0w / w% for direct hitting. Magnesium stearate 1.0w / w% was blended into the mixture, and a single-shot tableting machine was used to perform tabletting (tablet diameter 8.5mm) with a tablet hardness of 20N and a tablet thickness of about 3.9mm. .
使此等錠劑使用耐壓室,以二氧化碳壓力10MPa、 40℃進行處理60分鐘後,進行減壓,製得參考例9~24之錠劑。 Make these tablets use pressure chamber, with carbon dioxide pressure 10MPa, After treatment at 40 ° C for 60 minutes, the pressure was reduced to obtain tablets of Reference Examples 9 to 24.
有關參考例2~24,各測定二氧化碳壓力處理前後之錠劑硬度。硬度係使用錠劑硬度計(Tablet Hardness Tester、“Schleuniger”、Model 6D、Schleuniger公司製)進行測定。結果如表4所示。 For Reference Examples 2 to 24, the hardness of tablets before and after carbon dioxide pressure treatment was measured. The hardness was measured using a tablet hardness tester (Tablet Hardness Tester, "Schleuniger", Model 6D, manufactured by Schleuniger). The results are shown in Table 4.
由表4之結果可知,有關參考例2、參考例15~24,於二氧化碳壓力處理後,可確認仍沒有錠劑硬度上升的情形,相對於此,參考例3~14確認有硬度上升情形。藉由本結果可確認,參考例3~14中藉由組合含有的醫藥添加劑與二氧化碳壓力處理,利用物質之相變化,確認錠劑硬度被提高。因此、參考例3~14為本發明之實施例。 From the results in Table 4, it can be seen that in Reference Example 2 and Reference Examples 15 to 24, after the carbon dioxide pressure treatment, it can be confirmed that there is no increase in the hardness of the tablets. In contrast, Reference Examples 3 to 14 confirm the increase in hardness. From this result, it can be confirmed that, in Reference Examples 3 to 14, by combining the medical additives and carbon dioxide pressure treatment contained, it is confirmed that the hardness of the lozenge is improved by using the phase change of the substance. Therefore, Reference Examples 3 to 14 are examples of the present invention.
在直打用甘露糖醇(Parteck M100、Merck製)79.0w/w%中混合平均粒子直徑10~20μm之共聚吡酮(Kollidon VA64 Fine、BASF Japan)20.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以錠劑硬度為19N、錠劑厚度約為3.9mm的方式進行打錠(錠劑直徑8.5mm)。使此等錠劑使用耐壓室,以二氧化碳壓力6MPa、25℃進行處理45分鐘後,進行減壓,製得參考例25之錠劑。 Co-polypyrrolidone (Kollidon VA64 Fine, BASF Japan) 20.0 w / w% with an average particle diameter of 10-20 μm was mixed with 79.0 w / w% of mannitol for direct hits (Parteck M100, manufactured by Merck). Magnesium stearate 1.0w / w% was blended into this mixture, and a single-shot tableting machine was used to make tablets with a tablet hardness of 19N and a tablet thickness of about 3.9mm (tablet diameter 8.5mm) . These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 6 MPa and 25 ° C. for 45 minutes, and then depressurized to obtain a lozenge of Reference Example 25.
有關參考例25,各測定打錠品及經二氧化碳壓力處理者之硬度。硬度係使用錠劑硬度計(Tablet Hardness Tester、“Schleuniger”、Model 6D、Schleuniger公司製)進行測定。結果如表5所示。 Regarding Reference Example 25, the hardness of ingot products and those treated with carbon dioxide pressure were measured. The hardness was measured using a tablet hardness tester (Tablet Hardness Tester, "Schleuniger", Model 6D, manufactured by Schleuniger). The results are shown in Table 5.
由表5之結果可知,參考例8與參考例25之錠劑硬度的比較結果,有關藉由二氧化碳壓力處理而具有結合劑機能之物質,即使使用同一成分時,藉由控制粒徑較小,以二氧化碳壓力處理而誘導相變化時,可更為有效地提高錠劑硬度。此係藉由使相變化成分之粒子直徑控制為小值,以增大表面積,且更為有效地進行粒子間交聯。因此,參考例25亦為本發明之實施例。 It can be seen from the results in Table 5 that the results of the comparison of the hardness of the tablets of Reference Example 8 and Reference Example 25 are related to the substance that has the function of a binder by carbon dioxide pressure treatment. Even if the same component is used, by controlling the particle size, When treated with carbon dioxide pressure to induce a phase change, the tablet hardness can be more effectively increased. This is achieved by controlling the particle diameter of the phase change component to a small value to increase the surface area and more effectively perform cross-linking between particles. Therefore, Reference Example 25 is also an embodiment of the present invention.
在直打用甘露糖醇(Parteck M100、Merck製)79.0w/w%中混合乙基纖維素(Ethocel stardard 7 FP Premium、Dow Chemical製)20.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以錠劑硬度為20N、錠劑厚度約為3.9mm的方式進行打錠(錠劑直徑8.5mm)。使此等錠劑使用耐壓室,以二氧化碳壓力6MPa、25℃進行處理45分鐘後,進行減壓,製得參考例26之錠劑。 Ethylcellulose (Ethocel stardard 7 FP Premium, Dow Chemical) 20.0w / w% was mixed with mannitol (Parteck M100, manufactured by Merck) 79.0w / w% for direct hitting. Magnesium stearate 1.0w / w% was blended into the mixture, and a single-shot tableting machine was used to perform tabletting (tablet diameter 8.5mm) with a tablet hardness of 20N and a tablet thickness of about 3.9mm. . These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 6 MPa and 25 ° C. for 45 minutes, and then depressurized to obtain a lozenge of Reference Example 26.
在乙醇(乙醇99.5%、關東化學製)150g中溶解乙 基纖維素(Ethocel stardard 7 FP Premium、Dow Chemical製)13.5g與檸檬酸三乙酯(Triethyl Citrate、東京化成製)1.5g,以噴霧乾燥機(Mini Spray Dryer B-290、Buchi製、以下沒有特別限制時亦相同)進行噴霧乾燥,製得乙基纖維素/檸檬酸三乙酯(9/1)噴霧乾燥品。 Dissolve B in 150g of ethanol (ethanol 99.5%, manufactured by Kanto Chemical) Cellulose (Ethocel stardard 7 FP Premium, manufactured by Dow Chemical) 13.5g and triethyl citrate (Triethyl Citrate, manufactured by Tokyo Chemical Industry) 1.5g, with a spray dryer (Mini Spray Dryer B-290, manufactured by Buchi, the following is not available It is the same when it is particularly restricted). Spray drying is performed to obtain an ethyl cellulose / triethyl citrate (9/1) spray dried product.
在直打用甘露糖醇(Parteck M100、Merck製)79.0w/w%中混合乙基纖維素/檸檬酸三乙酯(9/1)乾燥噴霧品20.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以錠劑硬度為22N、錠劑厚度約為3.9mm的方式進行打錠(錠劑直徑8.5mm)。使此等錠劑使用耐壓室,以二氧化碳壓力6MPa、25℃進行處理45分鐘後,進行減壓,製得參考例27之錠劑。 Ethylcellulose / triethyl citrate (9/1) dry spray product 20.0w / w% was mixed with 79.0w / w% of mannitol (Parteck M100, manufactured by Merck) for direct hit. Magnesium stearate 1.0w / w% was blended into this mixture, and a single-shot tableting machine was used to make tablets with a tablet hardness of 22N and a tablet thickness of about 3.9mm (tablet diameter 8.5mm) . These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 6 MPa and 25 ° C. for 45 minutes, and then depressurized to obtain a lozenge of Reference Example 27.
在乙醇(乙醇99.5%、關東化學製)150g中溶解乙基纖維素(Ethocel stardard 7 FP Premium、Dow Chemical製)11.25g與檸檬酸三乙酯(Triethyl Citrate、東京化成製)3.75g,以噴霧乾燥機進行噴霧乾燥,製得乙基纖維素/檸檬酸三乙酯(7.5/2.5)噴霧乾燥品。 Dissolve 11.25 g of ethyl cellulose (Ethocel stardard 7 FP Premium, manufactured by Dow Chemical) and 3.75 g of triethyl citrate (Triethyl Citrate, manufactured by Tokyo Chemical Industry Co., Ltd.) in 150 g of ethanol (ethanol 99.5%, manufactured by Kanto Chemical Co., Ltd.) by spraying The dryer was spray-dried to obtain an ethyl cellulose / triethyl citrate (7.5 / 2.5) spray-dried product.
在直打用甘露糖醇(Parteck M100、Merck製)79.0w/w%中混合乙基纖維素/檸檬酸三乙酯(7.5/2.5)乾燥噴霧品20.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以錠劑硬度為20N、錠劑厚度約為3.9mm的方式進行打錠(錠劑直徑8.5mm)。 使此等錠劑使用耐壓室,以二氧化碳壓力6MPa、25℃進行處理45分鐘後,進行減壓,製得參考例28之錠劑。 Ethylcellulose / triethyl citrate (7.5 / 2.5) dry spray 20.0w / w% was mixed with mannitol (Parteck M100, manufactured by Merck) 79.0w / w% for direct hit. Magnesium stearate 1.0w / w% was blended into the mixture, and a single-shot tableting machine was used to perform tabletting (tablet diameter 8.5mm) with a tablet hardness of 20N and a tablet thickness of about 3.9mm. . These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 6 MPa and 25 ° C for 45 minutes, and then depressurized to obtain a lozenge of Reference Example 28.
有關參考例26~28之錠劑,各測定經二氧化碳壓力處理前後之硬度。硬度係使用錠劑硬度計(Tablet Hardness Tester、“Schleuniger”、Model 6D、Schleuniger公司製)進行測定。結果如表6所示。 For the tablets of Reference Examples 26 to 28, the hardness before and after the carbon dioxide pressure treatment was measured. The hardness was measured using a tablet hardness tester (Tablet Hardness Tester, "Schleuniger", Model 6D, manufactured by Schleuniger). The results are shown in Table 6.
由表6之結果可知,於使用在乙基纖維素中含有可塑劑之噴霧乾燥品之參考例27與28之錠劑中,確認可得較僅使用乙基纖維素之效果更為顯著的錠劑硬度上升情形。因此,參考例26~28亦為本發明之實施例。 It can be seen from the results in Table 6 that in the tablets of Reference Examples 27 and 28 using spray-dried products containing plasticizer in ethyl cellulose, it was confirmed that tablets having a more remarkable effect than ethyl cellulose alone can be obtained. The hardness of the agent increases. Therefore, Reference Examples 26 to 28 are also examples of the present invention.
使D-甘露糖醇(Pearitol 50C、Rocket Japan製、以下沒有特別限制時亦相同)410g以共聚吡酮(Kollidon VA64、BASF Japan製)水溶液(10.0 w/w%)100g作為結合液,使用流動層造粒機(Flo-Coater FLO-1、 FREUND產業/大河原製作所製、以下沒有特別限制時亦相同)予以造粒。在部分該造粒物中混合胺基烷基甲基丙烯酸酯共聚物E(Eudragit EPO、Evonik Degussa Japan製、以下沒有特別限制時亦相同)10.0w/w%、交聯聚吡酮(Kollidon CL-F、BASF Japan製)5.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用旋轉打錠機(HT-EX系列、鈿鐵工所製、以下沒有特別限制時亦相同),以打錠壓力約1kN/搗杵製作每1錠約170mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為11N(n=10)。使此等錠劑使用耐壓室,以二氧化碳壓力5MPa、25℃進行處理5分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 410 g of D-mannitol (Pearitol 50C, manufactured by Rocket Japan, and the same is not particularly limited below) 410 g and 100 g of copolypyrrolidone (Kollidon VA64, manufactured by BASF Japan) aqueous solution (10.0 w / w%) as a binding solution were used Layer granulator (Flo-Coater FLO-1, (FREUND Industries / Ogawara Manufacturing Co., Ltd., the same is true if there is no specific limitation below) In some of these granules, an aminoalkyl methacrylate copolymer E (Eudragit EPO, manufactured by Evonik Degussa Japan, and the following is not particularly limited) 10.0w / w%, cross-linked polypyrrolidone (Kollidon CL -F, manufactured by BASF Japan) 5.0w / w%. Magnesium stearate is mixed with 1.0w / w% of this mixture, and a rotary ingot machine (HT-EX series, manufactured by CK Iron Works, the same is not the same as below) is used, and the ingot pressure is about 1kN / Using a pestle, a lozenge of about 170 mg per lozenge (lozenge diameter 8.5 mm) is prepared. Tablet hardness is 11N (n = 10). These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 5 MPa and 25 ° C. for 5 minutes, and then depressurized to prepare the rapidly disintegrating lozenges of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使實施例35之錠劑使用耐壓室,以二氧化碳壓力4MPa、25℃進行處理60分鐘後,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約為1MPa/分鐘進行。 The tablets of Example 35 were treated with a pressure-resistant chamber, treated with carbon dioxide at 4 MPa and 25 ° C for 60 minutes, and then depressurized to prepare the rapidly disintegrating tablets of the present invention. In addition, the decompression speed condition is about 1 MPa / min.
使實施例35之錠劑使用耐壓室,以二氧化碳壓力3MPa、25℃進行處理840分鐘後,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約為1MPa/分鐘進行。 The tablets of Example 35 were treated with a pressure-resistant chamber and treated with a carbon dioxide pressure of 3 MPa and 25 ° C for 840 minutes, followed by depressurization to prepare the rapidly disintegrating tablets of the present invention. In addition, the decompression speed condition is about 1 MPa / min.
使實施例35之錠劑使用耐壓室,以二氧化碳壓力4MPa、15℃進行處理45分鐘後,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約為1MPa/分鐘進行。 The tablets of Example 35 were treated with a pressure-resistant chamber and treated with carbon dioxide at 4 MPa and 15 ° C. for 45 minutes, and then the pressure was reduced to obtain the rapidly disintegrating tablets of the present invention. In addition, the decompression speed condition is about 1 MPa / min.
使實施例35之錠劑使用耐壓室,以二氧化碳壓力4MPa、45℃進行處理45分鐘後,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約為1MPa/分鐘進行。 The tablets of Example 35 were treated with a pressure-resistant chamber, treated with carbon dioxide at 4 MPa and 45 ° C for 45 minutes, and then depressurized to prepare the rapidly disintegrating tablets of the present invention. In addition, the decompression speed condition is about 1 MPa / min.
使實施例35之錠劑使用耐壓室,以二氧化碳壓力3MPa、60℃進行處理45分鐘後,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約為1MPa/分鐘進行。 The tablets of Example 35 were treated with a pressure-resistant chamber and treated with a carbon dioxide pressure of 3 MPa and 60 ° C for 45 minutes, and then the pressure was reduced to prepare the rapidly disintegrating tablets of the present invention. In addition, the decompression speed condition is about 1 MPa / min.
混合F-Melt(富士化學製)89.0w/w%、胺基烷基甲基丙烯酸酯共聚物E 1.0w/w%、共聚吡酮(Kollidon VA64、BASF Japan公司製)9.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力 約1.5kN/搗杵製作每1錠為170mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為12N(n=3)。使該錠劑使用耐壓室,以二氧化碳壓力3MPa、45℃進行處理120分鐘後,製得本發明之速崩散性錠劑。而且,以減壓速度條件約為1MPa/分鐘進行。 F-Melt (manufactured by Fuji Chemical) 89.0 w / w%, aminoalkyl methacrylate copolymer E 1.0 w / w%, copolypyrrolidone (Kollidon VA64, manufactured by BASF Japan) 9.0 w / w% were mixed. Magnesium stearate 1.0w / w% is blended into this mixture, and a single-shot spindle machine is used to reduce the pressure Approximately 1.5kN / ramming pestle is used to make a lozenge of 170mg per lozenge (lozenge diameter 8.5mm). Tablet hardness is 12N (n = 3). The tablets were used in a pressure-resistant chamber, and treated with a carbon dioxide pressure of 3 MPa and 45 ° C. for 120 minutes to prepare the rapidly disintegrating tablets of the present invention. In addition, the decompression speed condition is about 1 MPa / min.
使D-甘露糖醇410g以共聚吡酮(Kollidon VA64、BASF Japan製)水溶液(10.0w/w%)100g作為結合液,使用流動層造粒機予以造粒。在部分該造粒物中混合胺基烷基甲基丙烯酸酯共聚物E 7.5w/w%、交聯聚吡酮(Kollidon CL-F、BASF Japan製)10.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力約2.5kN/搗杵製作每1錠約190mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為27N(n=2)。使此等錠劑使用耐壓室,以二氧化碳壓力3MPa、45℃進行處理120分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 410 g of D-mannitol was granulated using 100 g of copolypyrrolidone (Kollidon VA64, manufactured by BASF Japan) aqueous solution (10.0 w / w%) as a binding liquid, using a fluidized bed granulator. Part of the granulated product was mixed with aminoalkyl methacrylate copolymer E 7.5 w / w% and cross-linked polypyrrolidone (Kollidon CL-F, manufactured by BASF Japan) 10.0 w / w%. Magnesium stearate 1.0w / w% was blended into this mixture, and a single-shot tableting machine was used to make tablets with a tableting pressure of about 2.5kN / tamper to make about 190mg per tablet (tablet diameter 8.5mm) . Tablet hardness is 27N (n = 2). These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 3 MPa and 45 ° C. for 120 minutes, and then depressurized to prepare the rapidly disintegrating lozenges of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使D-甘露糖醇410g以共聚吡酮(Kollidon VA64、BASF Japan製)水溶液(10.0w/w%)100g作為結合液,使用流動層造粒機予以造粒。在部分該造粒物中混合胺基烷基甲基丙烯酸酯共聚物E 20.0w/w%、交聯聚吡酮 (Kollidon CL-F、BASF Japan製)10.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力約2.0kN/搗杵製作每1錠約176mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為37N(n=2)。使此等錠劑使用耐壓室,以二氧化碳壓力1MPa、35℃進行處理840分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 410 g of D-mannitol was granulated using 100 g of copolypyrrolidone (Kollidon VA64, manufactured by BASF Japan) aqueous solution (10.0 w / w%) as a binding liquid, using a fluidized bed granulator. In some of the granules, an aminoalkyl methacrylate copolymer E 20.0 w / w%, cross-linked polypyrrolidone is mixed (Kollidon CL-F, manufactured by BASF Japan) 10.0w / w%. Magnesium stearate 1.0w / w% was blended into this mixture, and a single-shot tableting machine was used to make tablets with a tableting pressure of about 2.0kN / tamper to make about 176mg per tablet (tablet diameter 8.5mm) . The tablet hardness is 37N (n = 2). These tablets were treated with a pressure-resistant chamber, treated with carbon dioxide at 1 MPa and 35 ° C. for 840 minutes, and then depressurized to prepare the rapidly disintegrating tablets of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使D-甘露糖醇410g以共聚吡酮(Kollidon VA64、BASF Japan製)水溶液(5.0w/w%)50g與聚吡酮(Kollidon K30、BASF Japan製)水溶液(5.0w/w%)50g之混合液作為結合液,使用流動層造粒機予以造粒。在部分該造粒物中混合胺基烷基甲基丙烯酸酯共聚物E 10.0w/w%、交聯聚吡酮(Kollidon CL-F、BASF Japan製)5.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用旋轉打錠機,以打錠壓力約1.0kN/搗杵製作每1錠約171mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為12N(n=10)。使此等錠劑使用耐壓室,加入氮氣壓力10MPa後,再以二氧化碳壓力5.0MPa、25℃進行處理45分鐘後,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 410g of D-mannitol was prepared by copolypyrrolidone (Kollidon VA64, BASF Japan) aqueous solution (5.0w / w%) 50g and polypyrrolidone (Kollidon K30, BASF Japan) aqueous solution (5.0w / w%) 50g The mixed liquid is used as a binding liquid and granulated using a fluidized bed granulator. Part of the granulated product was mixed with aminoalkyl methacrylate copolymer E 10.0 w / w% and cross-linked polypyrrolidone (Kollidon CL-F, manufactured by BASF Japan) 5.0 w / w%. To this mixture, 1.0 w / w% of magnesium stearate was blended, and a rotary tableting machine was used to produce tablets with a tableting pressure of about 1.0 kN / ram and about 171 mg per tablet (tablet diameter 8.5 mm). Tablet hardness is 12N (n = 10). These lozenges were used in a pressure-resistant chamber, and after adding a nitrogen pressure of 10 MPa, and then treated with a carbon dioxide pressure of 5.0 MPa and 25 ° C. for 45 minutes, the pressure was reduced to obtain the rapidly disintegrating lozenges of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使實施例44之錠劑使用耐壓室,加入二氧化碳壓力5.0MPa後,再加入氮氣壓力5.0MPa,於25℃下進行處理45分鐘後,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約為1MPa/分鐘進行。 The lozenge of Example 44 was used in a pressure-resistant chamber. After adding carbon dioxide pressure of 5.0 MPa, and then adding nitrogen pressure of 5.0 MPa, after processing at 25 ° C. for 45 minutes, the pressure was reduced to obtain the rapidly disintegrating ingot of the present invention. Agent. In addition, the decompression speed condition is about 1 MPa / min.
使D-甘露糖醇410g以聚吡酮(Kollidon K30、BASF Japan製)水溶液(10.0w/w%)100g作為結合液,使用流動層造粒機予以造粒。在部分該造粒物中混合胺基烷基甲基丙烯酸酯共聚物E 10.0w/w%、交聯聚吡酮(Kollidon CL-F、BASF Japan製)5.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用旋轉打錠機,以打錠壓力約1kN/搗杵製作每1錠約170mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為13N(n=10)。使此等錠劑使用耐壓室,以二氧化碳壓力4MPa、25℃進行處理30分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 410 g of D-mannitol was granulated using a fluidized bed granulator using 100 g of polypyrrolidone (Kollidon K30, manufactured by BASF Japan) aqueous solution (10.0 w / w%) as a binding liquid. Part of the granulated product was mixed with aminoalkyl methacrylate copolymer E 10.0 w / w% and cross-linked polypyrrolidone (Kollidon CL-F, manufactured by BASF Japan) 5.0 w / w%. Magnesium stearate 1.0 w / w% was blended into the mixture, and a rotary tableting machine was used to produce tablets with a tableting pressure of about 1 kN / ram and about 170 mg per tablet (tablet diameter 8.5 mm). The tablet hardness is 13N (n = 10). These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 4 MPa and 25 ° C for 30 minutes, and then depressurized to prepare the rapidly disintegrating lozenges of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使D-甘露糖醇320g以聚乙烯醇.丙烯酸.甲基丙烯酸甲酯共聚物(POVACOAT Type F、大同化成工業製)水溶液(5.0w/w%)80g作為結合液,使用流動層造粒機予以造粒。在部分該造粒物中混合胺基烷基甲基丙烯酸酯共聚物E 10.0w/w%、交聯聚吡酮(Kollidon CL-F、BASF Japan製)8.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力約1kN/搗杵製作每1錠約180mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為16N(n=2)。使此等錠劑使用耐壓室,以二氧化碳壓力4MPa、25℃進行處理35分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 Make 320g of D-mannitol with polyvinyl alcohol. acrylic acid. 80 g of an aqueous solution (5.0 w / w%) of methyl methacrylate copolymer (POVACOAT Type F, manufactured by Datong Chemical Industry Co., Ltd.) was used as a binding liquid, and granulated using a fluidized bed granulator. In some of the granules, an aminoalkyl methacrylate copolymer E 10.0w / w%, cross-linked polypyrrolidone (Kollidon CL-F, BASF Made in Japan) 8.0w / w%. Magnesium stearate 1.0 w / w% was blended into this mixture, and a single-shot tableting machine was used to produce tablets with a tableting pressure of about 1 kN / ram and about 180 mg per tablet (tablet diameter 8.5 mm). The tablet hardness is 16N (n = 2). These tablets were treated with a pressure-resistant chamber, treated with carbon dioxide at 4 MPa and 25 ° C. for 35 minutes, and then depressurized to prepare the rapidly disintegrating tablets of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使D-甘露糖醇320g以羥基丙基纖維素(HPC-SSL、日本曹達製)水溶液(5.0w/w%)80g作為結合液,使用流動層造粒機予以造粒。在部分該造粒物中混合胺基烷基甲基丙烯酸酯共聚物E 10.0w/w%、交聯聚吡酮(Kollidon CL-F、BASF Japan製)8.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力約1kN/搗杵製作每1錠約180mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為12N(n=2)。使此等錠劑使用耐壓室,以二氧化碳壓力4MPa、25℃進行處理45分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 320 g of D-mannitol was granulated using a fluidized bed granulator using 80 g of hydroxypropyl cellulose (HPC-SSL, manufactured by Nippon Soda) aqueous solution (5.0 w / w%) as a binding liquid. Part of the granulated product was mixed with aminoalkyl methacrylate copolymer E 10.0 w / w% and cross-linked polypyrrolidone (Kollidon CL-F, manufactured by BASF Japan) 8.0 w / w%. Magnesium stearate 1.0 w / w% was blended into this mixture, and a single-shot tableting machine was used to produce tablets with a tableting pressure of about 1 kN / ram and about 180 mg per tablet (tablet diameter 8.5 mm). The tablet hardness is 12N (n = 2). These tablets were treated with a pressure-resistant chamber, treated with carbon dioxide at 4 MPa and 25 ° C. for 45 minutes, and then depressurized to prepare the rapidly disintegrating tablets of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使D-甘露糖醇320g以羥基甲基丙基纖維素(hypromellose)(TC-5E、信越化學工業製)水溶液 (5.0w/w%)80g作為結合液,使用流動層造粒機予以造粒。在部分該造粒物中混合胺基烷基甲基丙烯酸酯共聚物E 10.0w/w%、交聯聚吡酮(Kollidon CL-F、BASF Japan製)8.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力約1kN/搗杵製作每1錠約180mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為12N(n=2)。使此等錠劑使用耐壓室,以二氧化碳壓力4MPa、25℃進行處理45分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 320 g of D-mannitol was used as an aqueous solution of hydroxymethylpropyl cellulose (hypromellose) (TC-5E, manufactured by Shin-Etsu Chemical Co., Ltd.) (5.0w / w%) 80g was used as a binding liquid and granulated using a fluidized bed granulator. Part of the granulated product was mixed with aminoalkyl methacrylate copolymer E 10.0 w / w% and cross-linked polypyrrolidone (Kollidon CL-F, manufactured by BASF Japan) 8.0 w / w%. Magnesium stearate 1.0 w / w% was blended into this mixture, and a single-shot tableting machine was used to produce tablets with a tableting pressure of about 1 kN / ram and about 180 mg per tablet (tablet diameter 8.5 mm). The tablet hardness is 12N (n = 2). These tablets were treated with a pressure-resistant chamber, treated with carbon dioxide at 4 MPa and 25 ° C. for 45 minutes, and then depressurized to prepare the rapidly disintegrating tablets of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使D-甘露糖醇320g以聚乙烯醇.聚乙二醇接枝共聚物(Kollicoat IR、BASF Japan製)水溶液(5.0w/w%)80g作為結合液,使用流動層造粒機予以造粒。在部分該造粒物中混合胺基烷基甲基丙烯酸酯共聚物E 10.0w/w%、交聯聚吡酮(Kollidon CL-F、BASF Japan製)8.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力約1kN/搗杵製作每1錠約180mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為12N(n=2)。使此等錠劑使用耐壓室,以二氧化碳壓力4MPa、25℃進行處理45分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 Make 320g of D-mannitol with polyvinyl alcohol. 80 g of an aqueous solution (5.0 w / w%) of polyethylene glycol graft copolymer (Kollicoat IR, manufactured by BASF Japan) was used as a binding liquid, and granulated using a fluidized bed granulator. Part of the granulated product was mixed with aminoalkyl methacrylate copolymer E 10.0 w / w% and cross-linked polypyrrolidone (Kollidon CL-F, manufactured by BASF Japan) 8.0 w / w%. Magnesium stearate 1.0 w / w% was blended into this mixture, and a single-shot tableting machine was used to produce tablets with a tableting pressure of about 1 kN / ram and about 180 mg per tablet (tablet diameter 8.5 mm). The tablet hardness is 12N (n = 2). These tablets were treated with a pressure-resistant chamber, treated with carbon dioxide at 4 MPa and 25 ° C. for 45 minutes, and then depressurized to prepare the rapidly disintegrating tablets of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使D-甘露糖醇410g以共聚吡酮(Kollidon VA64、BASF Japan)水溶液(10.0w/w%)100g作為結合液,使用流動層造粒機予以造粒。在部分該造粒物中混合胺基烷基甲基丙烯酸酯共聚物E 9.0w/w%、低取代度羥基丙基纖維素(L-HPC NBD-022、信越化學工業製)9.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力約1kN/搗杵製作每1錠約185mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為13N(n=3)。使此等錠劑使用耐壓室,以二氧化碳壓力4MPa、25℃進行處理35分鐘後,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 Using 410 g of D-mannitol and 100 g of copolypyrrolidone (Kollidon VA64, BASF Japan) aqueous solution (10.0 w / w%) as a binding liquid, the granulation was carried out using a fluidized bed granulator. In some of the granules, an aminoalkyl methacrylate copolymer E 9.0w / w%, a low-substituted hydroxypropyl cellulose (L-HPC NBD-022, manufactured by Shin-Etsu Chemical Industry) 9.0w / w %. Magnesium stearate 1.0 w / w% was blended into the mixture, and a single-shot tableting machine was used to produce tablets with a tableting pressure of about 1 kN / ram and about 185 mg per tablet (tablet diameter 8.5 mm). Tablet hardness is 13N (n = 3). These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 4 MPa and 25 ° C. for 35 minutes, and then reduced in pressure to prepare the rapidly disintegrating lozenges of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使D-甘露糖醇410g以共聚吡酮(Kollidon VA64、BASF Japan)水溶液(10.0w/w%)100g作為結合液,使用流動層造粒機予以造粒。在部分該造粒物中混合胺基烷基甲基丙烯酸酯共聚物E 10.0w/w%、交聯CMC-Na(Kiccolate ND-2HS、旭化成公司製)5.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力約1kN/搗杵製作每1錠約180mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為12N(n=3)。使此等錠劑使用耐壓室,以二氧化碳壓力4MPa、25℃進行處理10分鐘 後,進行減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 Using 410 g of D-mannitol and 100 g of copolypyrrolidone (Kollidon VA64, BASF Japan) aqueous solution (10.0 w / w%) as a binding liquid, the granulation was carried out using a fluidized bed granulator. Part of the granulated product was mixed with aminoalkyl methacrylate copolymer E 10.0 w / w% and cross-linked CMC-Na (Kiccolate ND-2HS, manufactured by Asahi Kasei Corporation) 5.0 w / w%. Magnesium stearate 1.0 w / w% was blended into this mixture, and a single-shot tableting machine was used to produce tablets with a tableting pressure of about 1 kN / ram and about 180 mg per tablet (tablet diameter 8.5 mm). Tablet hardness is 12N (n = 3). These tablets are processed in a pressure-resistant chamber at a carbon dioxide pressure of 4 MPa and 25 ° C for 10 minutes Thereafter, the pressure was reduced to prepare the instant disintegrating lozenge of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使D-甘露糖醇410g以共聚吡酮(Kollidon VA64、BASF Japan製)水溶液(10.0w/w%)100g作為結合液,使用流動層造粒機予以造粒。在部分該造粒物中混合胺基烷基甲基丙烯酸酯共聚物E 9.0w/w%、部分α化澱粉(PCS、旭化成公司製)9.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力約1kN/搗杵製作每1錠約180mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為9N(n=3)。使此等錠劑使用耐壓室,以二氧化碳壓力4MPa、25℃進行處理35分鐘後,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 410 g of D-mannitol was granulated using 100 g of copolypyrrolidone (Kollidon VA64, manufactured by BASF Japan) aqueous solution (10.0 w / w%) as a binding liquid, using a fluidized bed granulator. A part of this granulated material was mixed with aminoalkyl methacrylate copolymer E 9.0 w / w%, and partially alpha starch (PCS, manufactured by Asahi Kasei Corporation) 9.0 w / w%. Magnesium stearate 1.0 w / w% was blended into this mixture, and a single-shot tableting machine was used to produce tablets with a tableting pressure of about 1 kN / ram and about 180 mg per tablet (tablet diameter 8.5 mm). The tablet hardness is 9N (n = 3). These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 4 MPa and 25 ° C. for 35 minutes, and then reduced in pressure to prepare the rapidly disintegrating lozenges of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使D-甘露糖醇410g以共聚吡酮(Kollidon VA64、BASF Japan)水溶液(10.0w/w%)100g作為結合液,使用流動層造粒機予以造粒。在部分該造粒物中混合胺基烷基甲基丙烯酸酯共聚物E 9.0w/w%、羧基甲基澱粉鈉(Primojel、DMV-Fonterra Excipients製)9.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力約1kN/搗杵製作每1錠約185mg之錠劑 (錠劑直徑8.5mm)。錠劑硬度為8N(n=3)。使此等錠劑使用耐壓室,以二氧化碳壓力4MPa、25℃進行處理10分鐘後,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 Using 410 g of D-mannitol and 100 g of copolypyrrolidone (Kollidon VA64, BASF Japan) aqueous solution (10.0 w / w%) as a binding liquid, the granulation was carried out using a fluidized bed granulator. Part of the granulated product was mixed with aminoalkyl methacrylate copolymer E 9.0 w / w% and carboxymethyl starch sodium (Primojel, manufactured by DMV-Fonterra Excipients) 9.0 w / w%. Magnesium stearate 1.0w / w% is blended into the mixture, and a single-shot ingot machine is used to make an ingot of about 185mg per ingot with an ingot pressure of about 1kN / tamper. (Diabetes diameter 8.5mm). Tablet hardness is 8N (n = 3). These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 4 MPa and 25 ° C. for 10 minutes, and then depressurized to prepare the rapidly disintegrating lozenges of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使D-甘露糖醇410g以共聚吡酮(Kolidon VA64、BASF Japan)水溶液(10.0w/w%)100g作為結合液,使用流動層造粒機予以造粒。在部分該造粒物中混合胺基烷基甲基丙烯酸酯共聚物E 10.0w/w%、CMC-Ca(ECG-505、五德藥品製)5.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力約1kN/搗杵製作每1錠約181mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為10N(n=3)。使此等錠劑使用耐壓室,以二氧化碳壓力4MPa、25℃進行處理10分鐘後,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 Using 410 g of D-mannitol and 100 g of copolypyrrolidone (Kolidon VA64, BASF Japan) aqueous solution (10.0 w / w%) as a binding liquid, it was granulated using a fluidized bed granulator. Part of the granulated product was mixed with aminoalkyl methacrylate copolymer E 10.0 w / w% and CMC-Ca (ECG-505, manufactured by Wude Pharmaceutical) 5.0 w / w%. Magnesium stearate 1.0 w / w% was blended into the mixture, and a single-shot tableting machine was used to produce tablets with a tableting pressure of about 1 kN / ram and about 181 mg per tablet (tablet diameter 8.5 mm). Tablet hardness is 10N (n = 3). These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 4 MPa and 25 ° C. for 10 minutes, and then depressurized to prepare the rapidly disintegrating lozenges of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使D-甘露糖醇410g以共聚吡酮(Kollidon VA64、BASF Japan)水溶液(10.0w/w%)100g作為結合液,使用流動層造粒機予以造粒。在部分該造粒物中混合胺基烷基甲基丙烯酸酯共聚物E 9.0w/w%、α化澱粉(SWELSTAR PD-1、旭化成化學公司製)9.0w/w%。在該 混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力約1kN/搗杵製作每1錠約184mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為8N(n=3)。使此等錠劑使用耐壓室,以二氧化碳壓力4MPa、25℃進行處理35分鐘後,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 Using 410 g of D-mannitol and 100 g of copolypyrrolidone (Kollidon VA64, BASF Japan) aqueous solution (10.0 w / w%) as a binding liquid, the granulation was carried out using a fluidized bed granulator. Part of the granulated product was mixed with aminoalkyl methacrylate copolymer E 9.0 w / w% and alpha starch (SWELSTAR PD-1, manufactured by Asahi Kasei Chemicals Co., Ltd.) 9.0 w / w%. In that Magnesium stearate 1.0w / w% was blended into the mixture, and a single-shot tableting machine was used to make tablets of about 184 mg per tablet (tablet diameter 8.5 mm) with a tableting pressure of about 1 kN / ram. Tablet hardness is 8N (n = 3). These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 4 MPa and 25 ° C. for 35 minutes, and then reduced in pressure to prepare the rapidly disintegrating lozenges of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使D-甘露糖醇410g以共聚吡酮(Kollidon VA64、BASF Japan)水溶液(10.0w/w%)100g作為結合液,使用流動層造粒機予以造粒。在部分該造粒物中混合胺基烷基甲基丙烯酸酯共聚物E 9.0w/w%、CMC(NS-300、五德藥品製)9.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力約1kN/搗杵製作每1錠約181mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為11N(n=3)。使此等錠劑使用耐壓室,以二氧化碳壓力4MPa、25℃進行處理10分鐘後,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 Using 410 g of D-mannitol and 100 g of copolypyrrolidone (Kollidon VA64, BASF Japan) aqueous solution (10.0 w / w%) as a binding liquid, the granulation was carried out using a fluidized bed granulator. Part of the granulated product was mixed with aminoalkyl methacrylate copolymer E 9.0 w / w% and CMC (NS-300, manufactured by Wude Pharmaceutical) 9.0 w / w%. Magnesium stearate 1.0 w / w% was blended into the mixture, and a single-shot tableting machine was used to produce tablets with a tableting pressure of about 1 kN / ram and about 181 mg per tablet (tablet diameter 8.5 mm). Tablet hardness is 11N (n = 3). These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 4 MPa and 25 ° C. for 10 minutes, and then depressurized to prepare the rapidly disintegrating lozenges of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使D-甘露糖醇410g以共聚吡酮(Kollidon VA64、BASF Japan)水溶液(10.0w/w%)100g作為結合液,使用流動層造粒機予以造粒。在該造粒物7.59g中混合乙醯 基胺基酚(山本化學工業製)0.56g、胺基烷基甲基丙烯酸酯共聚物E 1.0g、交聯聚吡酮(Kollidon CL-F、BASF Japan製)0.75g。在該混合物中摻合硬脂酸鎂0.10g,且使用單發打錠機,以打錠壓力約1kN/搗杵製作每1錠約180mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為12N(n=3)。使此等錠劑使用耐壓室,以二氧化碳壓力4MPa、25℃進行處理25分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 Using 410 g of D-mannitol and 100 g of copolypyrrolidone (Kollidon VA64, BASF Japan) aqueous solution (10.0 w / w%) as a binding liquid, the granulation was carried out using a fluidized bed granulator. Acetic acid is mixed with 7.59 g of the granulated material 0.56 g of aminoaminophenol (manufactured by Yamamoto Chemical Industry), 1.0 g of aminoalkyl methacrylate copolymer E, and 0.75 g of cross-linked polypyrrolidone (Kollidon CL-F, manufactured by BASF Japan). To this mixture, 0.10 g of magnesium stearate was blended, and a single-shot tableting machine was used to produce tablets with a tableting pressure of about 1 kN / ram and about 180 mg per tablet (tablet diameter 8.5 mm). Tablet hardness is 12N (n = 3). These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 4 MPa and 25 ° C. for 25 minutes, and then depressurized to obtain the rapidly disintegrating lozenges of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使D-甘露糖醇410g以聚吡酮(Kollidon K30、BASF Japan)水溶液(10.0w/w%)100g作為結合液,使用流動層造粒機予以造粒。在該造粒物7.04g中混合啡莫替丁(famotidine)(Astellas製藥製)1.11g、胺基烷基甲基丙烯酸酯共聚物E 1.0g、交聯聚吡酮(Kollidon CL-F、BASF Japan製)0.75g。在該混合物中摻合硬脂酸鎂0.10g,且使用單發打錠機,以打錠壓力約1kN/搗杵製作每1錠約180mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為16N(n=3)。使此等錠劑使用耐壓室,以二氧化碳壓力4MPa、25℃進行處理25分鐘後,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 410 g of D-mannitol was granulated using a fluidized bed granulator using 100 g of polypyrrolidone (Kollidon K30, BASF Japan) aqueous solution (10.0 w / w%) as a binding liquid. To 7.04g of the granulated material, 1.11g of famotidine (manufactured by Astellas Pharmaceuticals), 1.0g of aminoalkyl methacrylate copolymer E, and cross-linked polypyrrolidone (Kollidon CL-F, BASF) Japan) 0.75g. To this mixture, 0.10 g of magnesium stearate was blended, and a single-shot tableting machine was used to produce tablets with a tableting pressure of about 1 kN / ram and about 180 mg per tablet (tablet diameter 8.5 mm). The tablet hardness is 16N (n = 3). These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 4 MPa and 25 ° C. for 25 minutes, and then depressurized to prepare the rapidly disintegrating lozenges of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使D-甘露糖醇410g以聚吡酮(Kollidon K30、BASF Japan)水溶液(10.0w/w%)100g作為結合液,使用流動層造粒機予以造粒。在該造粒物8.09g中混合坦舒羅新(tamsulosin)(Astellas製藥製)0.056g、胺基烷基甲基丙烯酸酯共聚物E 1.0g、交聯聚吡酮(Kollidon CL-F、BASF Japan製)0.75g。在該混合物中摻合硬脂酸鎂0.10g,且使用單發打錠機,以打錠壓力約1kN/搗杵製作每1錠約180mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為17N(n=3)。使此等錠劑使用耐壓室,以二氧化碳壓力4MPa、25℃進行處理25分鐘後,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 410 g of D-mannitol was granulated using a fluidized bed granulator using 100 g of polypyrrolidone (Kollidon K30, BASF Japan) aqueous solution (10.0 w / w%) as a binding liquid. Tamsulosin (Astellas Pharmaceuticals) 0.056g, aminoalkyl methacrylate copolymer E 1.0g, cross-linked polypyrrolidone (Kollidon CL-F, BASF) were mixed with 8.09g of the granules Japan) 0.75g. To this mixture, 0.10 g of magnesium stearate was blended, and a single-shot tableting machine was used to produce tablets with a tableting pressure of about 1 kN / ram and about 180 mg per tablet (tablet diameter 8.5 mm). The tablet hardness is 17N (n = 3). These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 4 MPa and 25 ° C. for 25 minutes, and then depressurized to prepare the rapidly disintegrating lozenges of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使D-甘露糖醇410g以共聚吡酮(Kollidon VA64、BASF Japan)水溶液(10.0w/w%)100g作為結合液,使用流動層造粒機予以造粒。在部分該造粒物中混合HPMCAS(AQOAT AS-HF、信越化學工業製)20.0w/w%、交聯聚吡酮(Kollidon CL-F、BASF Japan製)8.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力約1kN/搗杵製作每1錠約176mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為25N(n=3)。使此等錠劑使用耐壓室,以二氧化碳壓力 5MPa、25℃進行處理45分鐘後,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 Using 410 g of D-mannitol and 100 g of copolypyrrolidone (Kollidon VA64, BASF Japan) aqueous solution (10.0 w / w%) as a binding liquid, the granulation was carried out using a fluidized bed granulator. HPMCAS (AQOAT AS-HF, manufactured by Shin-Etsu Chemical Co., Ltd.) 20.0 w / w% and cross-linked polypyrrolidone (Kollidon CL-F, manufactured by BASF Japan) 8.0 w / w% were mixed with some of the granules. Magnesium stearate 1.0 w / w% was blended into the mixture, and a single-shot tableting machine was used to make tablets with a tableting pressure of about 1 kN / ram and about 176 mg per tablet (tablet diameter 8.5 mm). Tablet hardness is 25N (n = 3). Make these tablets use pressure chamber, with carbon dioxide pressure After treatment at 5 MPa and 25 ° C for 45 minutes, the pressure was reduced to obtain the rapid disintegrating tablet of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使D-甘露糖醇410g以共聚吡酮(Kollidon VA64、BASF Japan)水溶液(10.0w/w%)100g作為結合液,使用流動層造粒機予以造粒。在部分該造粒物中混合HPMCAS(AQOAT AS-HF、信越化學工業製)15.0w/w%、交聯聚吡酮(Kollidon CL-F、BASF Japan製)8.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力約1kN/搗杵製作每1錠約176mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為25N(n=3)。使此等錠劑使用耐壓室,以二氧化碳壓力5MPa、45℃進行處理840分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 Using 410 g of D-mannitol and 100 g of copolypyrrolidone (Kollidon VA64, BASF Japan) aqueous solution (10.0 w / w%) as a binding liquid, the granulation was carried out using a fluidized bed granulator. HPMCAS (AQOAT AS-HF, manufactured by Shin-Etsu Chemical Co., Ltd.) 15.0 w / w% and cross-linked polypyrrolidone (Kollidon CL-F, manufactured by BASF Japan) 8.0 w / w% were mixed with part of the granulated material. Magnesium stearate 1.0 w / w% was blended into the mixture, and a single-shot tableting machine was used to make tablets with a tableting pressure of about 1 kN / ram and about 176 mg per tablet (tablet diameter 8.5 mm). Tablet hardness is 25N (n = 3). These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 5 MPa and 45 ° C. for 840 minutes, and then depressurized to prepare the rapidly disintegrating lozenges of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使實施例62之錠劑使用耐壓室,以二氧化碳壓力5MPa、60℃進行處理45分鐘,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約為1MPa/分鐘進行。 The tablets of Example 62 were treated with a pressure-resistant chamber at a carbon dioxide pressure of 5 MPa and 60 ° C for 45 minutes, and then depressurized to prepare the rapidly disintegrating tablets of the present invention. In addition, the decompression speed condition is about 1 MPa / min.
使D-甘露糖醇410g以聚吡酮(Kollidon K30、BASF Japan)水溶液(10.0w/w%)100g作為結合液,使用流動層造粒機予以造粒。在部分該造粒物中混合乙基纖維素(Ethocel standard 7 FP Premium、Dow Chemical製)15.0w/w%、交聯聚吡酮(Kollidon CL-F、BASF Japan製)8.0w/w%、1-Mentol(關東化學製)1.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力約1kN/搗杵製作每1錠約171mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為21N(n=3)。使此等錠劑使用耐壓室,以二氧化碳壓力5MPa、60℃進行處理45分鐘後,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 410 g of D-mannitol was granulated using a fluidized bed granulator using 100 g of polypyrrolidone (Kollidon K30, BASF Japan) aqueous solution (10.0 w / w%) as a binding liquid. Ethyl cellulose (Ethocel standard 7 FP Premium, manufactured by Dow Chemical) 15.0w / w%, cross-linked polypyrrolidone (Kollidon CL-F, manufactured by BASF Japan) 8.0w / w%, 1-Mentol (made by Kanto Chemical) 1.0w / w%. Magnesium stearate 1.0 w / w% was blended into the mixture, and a single-shot tableting machine was used to produce tablets with a tableting pressure of about 1 kN / ram and about 171 mg per tablet (tablet diameter 8.5 mm). The tablet hardness is 21N (n = 3). These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 5 MPa and 60 ° C. for 45 minutes, and then depressurized to prepare the rapidly disintegrating lozenges of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使實施例35之錠劑使用耐壓室,以二氧化碳壓力3.5MPa、25℃進行處理120分鐘,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約為1MPa/分鐘進行。 The tablets of Example 35 were treated with a pressure-resistant chamber at a carbon dioxide pressure of 3.5 MPa and 25 ° C for 120 minutes, and the pressure was reduced to obtain the rapidly disintegrating tablets of the present invention. In addition, the decompression speed condition is about 1 MPa / min.
使實施例46之錠劑使用耐壓室,以二氧化碳壓力3.5MPa、25℃進行處理120分鐘,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約為1MPa/分鐘 進行。 The tablets of Example 46 were treated with a pressure-resistant chamber at a carbon dioxide pressure of 3.5 MPa and 25 ° C for 120 minutes, and the pressure was reduced to obtain the rapidly disintegrating tablets of the present invention. Moreover, at a decompression speed condition of about 1MPa / min get on.
使實施例44之錠劑使用耐壓室,以二氧化碳壓力3.5MPa、25℃進行處理120分鐘,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約為1MPa/分鐘進行。 The tablets of Example 44 were treated with a pressure-resistant chamber at a carbon dioxide pressure of 3.5 MPa and 25 ° C. for 120 minutes, and the pressure was reduced to obtain the rapidly disintegrating tablets of the present invention. In addition, the decompression speed condition is about 1 MPa / min.
使D-甘露糖醇415g以聚吡酮(Kollidon K30、BASF Japan)水溶液(5.0w/w%)100g作為結合液,使用流動層造粒機予以造粒。在部分該造粒物中混合胺基烷基甲基丙烯酸酯共聚物E 10w/w%、交聯聚吡酮(Kollidon CL-F、BASF Japan製)5.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用旋轉打錠機,以打錠壓力約1kN/搗杵製作每1錠約171mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為10N(n=10)。使此等錠劑使用耐壓室,以二氧化碳壓力4MPa、25℃進行處理40分鐘後,予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 Using 415 g of D-mannitol and 100 g of polypyrrolidone (Kollidon K30, BASF Japan) aqueous solution (5.0 w / w%) as a binding liquid, it was granulated using a fluidized bed granulator. Part of this granulated material was mixed with aminoalkyl methacrylate copolymer E 10 w / w% and cross-linked polypyrrolidone (Kollidon CL-F, manufactured by BASF Japan) 5.0 w / w%. Magnesium stearate 1.0 w / w% was blended into this mixture, and a rotary tableting machine was used to produce tablets with a tableting pressure of about 1 kN / ram and about 171 mg per tablet (tablet diameter 8.5 mm). Tablet hardness is 10N (n = 10). These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 4 MPa and 25 ° C. for 40 minutes, and then depressurized to prepare the rapidly disintegrating lozenges of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使D-甘露糖醇415g以聚吡酮(Kollidon K30、BASF Japan)水溶液(5.0w/w%)100g作為結合液,使用流動層造 粒機予以造粒。在部分該造粒物中混合胺基烷基甲基丙烯酸酯E 10.0w/w%、交聯聚吡酮(Kollidon CL-F、BASF Japan製)5.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用旋轉打錠機,以打錠壓力約1.8kN/搗杵製作每1錠約186mg之錠劑(錠劑直徑8.5mm)。錠劑硬度為19N(n=10)。使此等錠劑使用耐壓室,以二氧化碳壓力3.5MPa、25℃進行處理90分鐘後,進行減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 Using 415g of D-mannitol and 100g of aqueous solution (5.0w / w%) of polypyrrolidone (Kollidon K30, BASF Japan) as a binding liquid, a fluidized bed was used. Granulator for granulation. Part of the granulated product was mixed with aminoalkyl methacrylate E 10.0 w / w% and cross-linked polypyrrolidone (Kollidon CL-F, manufactured by BASF Japan) 5.0 w / w%. Magnesium stearate 1.0 w / w% was blended into this mixture, and a rotary tableting machine was used to produce tablets with a tableting pressure of about 1.8 kN / ram and about 186 mg per tablet (tablet diameter 8.5 mm). The tablet hardness is 19N (n = 10). These lozenges were used in a pressure-resistant chamber, treated with a carbon dioxide pressure of 3.5 MPa and 25 ° C. for 90 minutes, and then depressurized to prepare the rapidly disintegrating lozenges of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使實施例35之錠劑在大氣中、60℃進行處理45分鐘後,製得比較例2之錠劑。 After the tablets of Example 35 were treated in the atmosphere at 60 ° C for 45 minutes, the tablets of Comparative Example 2 were prepared.
使實施例69之錠劑在大氣中、70℃進行處理840分鐘後,製得比較例3之錠劑。 After the lozenges of Example 69 were treated in the atmosphere at 70 ° C for 840 minutes, the lozenges of Comparative Example 3 were prepared.
使實施例70之錠劑在大氣中、70℃進行處理840分鐘後,製得比較例4之錠劑。 After the tablets of Example 70 were treated in the atmosphere at 70 ° C for 840 minutes, the tablets of Comparative Example 4 were prepared.
有關實施例35~69、比較例2~4之錠劑,各測定硬度。硬度係使用錠劑硬度計(Tablet Hardness Tester、 “Schleuniger”、Model 6D、Schleuniger公司製)進行測定。結果如表7所示。 For the tablets of Examples 35 to 69 and Comparative Examples 2 to 4, the hardness was measured for each. Hardness uses Tablet Hardness Tester (Tablet Hardness Tester, "Schleuniger", Model 6D, manufactured by Schleuniger)). The results are shown in Table 7.
有關實施例35~69、比較例2~4之錠劑,測定口腔內崩懷時間。口腔內崩散時間係使用口腔內崩散試驗機(Tricorptester、岡田精工公司製)進行測定。結果如表7所示。 With regard to the tablets of Examples 35 to 69 and Comparative Examples 2 to 4, the time of oral cavity collapse was measured. The intraoral disintegration time was measured using an intraoral disintegration tester (Tricorptester, manufactured by Okada Seiko Co., Ltd.). The results are shown in Table 7.
有關實施例35~69、比較例2~4之錠劑進行測定厚度(n=5)。錠劑之厚度係使用digimatic indicator(Mitutoyo Absolute、Mitutoyo公司製)進行測定。結果如表7所示。 The thickness of the tablets of Examples 35 to 69 and Comparative Examples 2 to 4 was measured (n = 5). The thickness of the lozenge was measured using a digimatic indicator (Mitutoyo Absolute, manufactured by Mitutoyo). The results are shown in Table 7.
將實施例65~69、比較例3~4之速崩散性錠劑包裝於PTP片(34x111mm、7錠x2列/片)中,以下述條件進行落下試驗。 The fast disintegrating tablets of Examples 65 to 69 and Comparative Examples 3 to 4 were packaged in PTP tablets (34 x 111 mm, 7 tablets x 2 rows / tablet), and the drop test was performed under the following conditions.
.落下高度:150cm . Drop height: 150cm
.落下重複次數:10次 . The number of repeated drops: 10 times
.進行試驗之PTP片數:10片 . Number of PTP tablets tested: 10 tablets
.PTP片之方向:使藥劑收納部(口袋)朝向上方 . The direction of PTP tablets: make the medicine storage part (pocket) face upward
.破損率:(產生破裂及/或破損之速崩散性錠劑數) /140×100 . Breakage rate: (number of rapidly disintegrating lozenges that break and / or break) / 140 × 100
結果如表7所示。 The results are shown in Table 7.
由表7之結果可知,利用藉由二氧化碳壓力處理之胺基烷基甲基丙烯酸酯共聚物E或HPMCAS及乙基纖維素之相變化的交聯,可製得錠劑硬度經提高的本發明之速崩散性錠劑。 It can be seen from the results in Table 7 that the present invention with an improved tablet hardness can be obtained by the cross-linking of the phase change of aminoalkyl methacrylate copolymer E or HPMCAS and ethyl cellulose treated by carbon dioxide pressure The fast disintegrating lozenges.
詳言之,實施例35~43中可確認藉由適當組合胺基烷基甲基丙烯酸酯共聚物E之添加量、二氧化碳處理壓力、處理溫度、處理時間,製得本發明之速崩散性錠劑。於比較例2中雖在大氣中、60℃下實施加熱處理45分鐘,無法確認錠劑硬度有上升情形。此外,於實施例35中,在二氧化碳壓力5MPa、25℃下處理5分鐘,確認有顯著的錠劑硬度上升情形,即使在室溫附近之溫和溫度環境下,仍可確認達成錠劑硬度上升的情形。 Specifically, in Examples 35 to 43, it can be confirmed that the rapid disintegration of the present invention can be obtained by appropriately combining the addition amount of aminoalkyl methacrylate copolymer E, carbon dioxide treatment pressure, treatment temperature, and treatment time Lozenges. In Comparative Example 2, although the heat treatment was performed in the atmosphere at 60 ° C for 45 minutes, it was not possible to confirm that the hardness of the tablets had increased. In addition, in Example 35, treatment at a carbon dioxide pressure of 5 MPa and 25 ° C for 5 minutes confirmed a significant increase in tablet hardness. Even in a mild temperature environment near room temperature, it was confirmed that the tablet hardness increased. situation.
於實施例44~45中,可確認藉由併用二氧化碳與氮氣,同樣地可誘導錠劑硬度上升。由本結果可知,本發明除二氧化碳外,亦具有可利用其他氣體之可能性。 In Examples 44 to 45, it was confirmed that by using carbon dioxide and nitrogen together, the tablet hardness can be induced to increase in the same manner. From this result, it can be seen that the present invention has the possibility of using other gases in addition to carbon dioxide.
實施例46~50中,於造粒步驟中使用的作為結合劑可使用聚吡酮或聚乙烯醇.丙烯酸.甲基丙烯酸甲酯共聚物之各種一般用結合劑。 In Examples 46 to 50, polypyrrolidone or polyvinyl alcohol may be used as a binding agent in the granulation step. acrylic acid. Various common binders for methyl methacrylate copolymers.
於實施例51~57中,藉由利用作為崩散劑之低取代度羥基丙基纖維素、交叉CMC-Na或部分α化澱粉之各種一般用崩散劑,可製得本發明之速崩散性錠劑。 In Examples 51-57, the rapid disintegration of the present invention can be obtained by using various general-purpose disintegrating agents as a dispersing agent, such as low-substituted hydroxypropyl cellulose, cross-CMC-Na, or partially alpha starch. Lozenges.
於實施例58~60中,可確認於含有典型藥物之製劑中,製得具有相同性能之速崩散性錠劑。 In Examples 58 to 60, it can be confirmed that rapid disintegrating lozenges with the same properties are prepared in the preparations containing typical drugs.
於實施例61~64中,藉由組合HPMCAS或乙基纖維 素與二氧化碳壓力處理,與胺基烷基甲基丙烯酸酯共聚物相同地,可提高錠劑硬度,且可製得本發明之速崩散性錠劑。由此可知,參考例中藉由二氧化碳壓力添加具有提高錠劑硬度機能之成分的典型添加劑群中,藉由適當的處方設計,可製得本發明之速崩散性錠劑。 In Examples 61 to 64, by combining HPMCAS or ethyl fiber The pressure treatment of the element and carbon dioxide, like the aminoalkyl methacrylate copolymer, can increase the hardness of the lozenge, and the fast disintegrating lozenge of the present invention can be prepared. From this, it can be seen that the rapid disintegrating lozenges of the present invention can be produced by adding a typical additive group having a component that improves the hardness of a tablet by carbon dioxide pressure in the reference example, and by appropriate prescription design.
有關實施例65~69,評估落下試驗之破損率,確認皆為0~0.7%之極低的破損率。另外,有關使與實施例68,69相同處方的速崩散性錠劑,以沒有二氧化碳的方式進行加熱處理,錠劑硬度被提高為相同程度的比較例3,4,呈現2.1~5%之相對高的破損率。可知本發明速崩散性錠劑之耐破損率亦優異。 Regarding Examples 65 to 69, the breakage rate of the drop test was evaluated, and it was confirmed that they were all extremely low breakage rates of 0 to 0.7%. In addition, for the rapidly disintegrating lozenges of the same formulation as in Examples 68 and 69, the heat treatment was performed without carbon dioxide, and the hardness of the lozenges was increased to the same degree, showing 2.1 to 5%. Relatively high breakage rate. It can be seen that the fast-disintegrating tablet of the present invention is also excellent in breakage resistance.
使含有琥珀酸索非那辛(solifenacin succinate)(Astellas製藥製)且具苦味遮蔽機能之微粒子80.7g,以共聚吡酮(Kollidon VA64、BASF Japan)水溶液(10.0w/w%)100g作為結合液,使用流動層造粒機予以造粒。在該造粒物中混合胺基烷基甲基丙烯酸酯E 10.0w/w%、交聯聚吡酮(Kollidon CL-F、BASF Japan製)5.0w/w%。在該混合物中摻合硬脂酸鎂1.0w/w%,且使用單發打錠機,以打錠壓力約1kN/搗杵製作每1錠約150mg之錠劑(琥珀酸索非那辛之含量5mg)(錠劑直徑7.5mm)。錠劑硬度為10N(n=3)。使此等錠劑使用耐壓室,以二氧化碳壓力5MPa、35℃進行處理30分鐘後, 予以減壓,製得本發明之速崩散性錠劑。而且,以減壓速度條件約1MPa/分鐘進行。 80.7 g of microparticles containing solifenacin succinate (manufactured by Astellas Pharmaceuticals) with a bitter taste masking function, and 100 g of copolypyrrolidone (Kollidon VA64, BASF Japan) aqueous solution (10.0 w / w%) as binding liquid , Granulate with a fluidized bed granulator. Aminoalkyl methacrylate E 10.0 w / w% and cross-linked polypyrrolidone (Kollidon CL-F, manufactured by BASF Japan) 5.0 w / w% were mixed in the granulated material. Magnesium stearate 1.0w / w% was blended into the mixture, and a single-shot ingot machine was used to make an ingot of about 150 mg per ingot (sofenacin succinate) with an ingot pressure of about 1 kN / tamper Content 5mg) (tablet diameter 7.5mm). Tablet hardness is 10N (n = 3). After using these pressure-resistant tablets in a pressure-resistant chamber, after processing at a carbon dioxide pressure of 5 MPa and 35 ° C for 30 minutes, The pressure was reduced to prepare the rapidly disintegrating tablet of the present invention. Furthermore, it is performed at a reduced pressure rate condition of about 1 MPa / minute.
使實施例70之錠劑在大氣中、70℃進行處理840分鐘後,製得比較例5之錠劑。 After the tablets of Example 70 were treated in the atmosphere at 70 ° C for 840 minutes, the tablets of Comparative Example 5 were prepared.
有關實施例70之速崩散性錠劑及比較例5之錠劑,各測定硬度。硬度係使用錠劑硬度計(Tablet Hardness Tester、“Schleuniger”、Model 6D、Schleuniger公司製)進行測定。結果如表8所示。 Regarding the fast disintegrating tablet of Example 70 and the tablet of Comparative Example 5, the hardness was measured. The hardness was measured using a tablet hardness tester (Tablet Hardness Tester, "Schleuniger", Model 6D, manufactured by Schleuniger). The results are shown in Table 8.
有關實施例70中使用的苦味遮蔽粒子、實施例70之速崩散性錠劑、及有關比較例5之錠劑,進行溶出試驗。溶出試驗裝置係使用Dissolution tester NTR-6100A(富山化學製),有關琥珀酸索非那辛之溶出率係使用液體色層分析器(島津製作所製)進行測定。試驗條件如下所述。 The dissolution test was performed on the bitter taste masking particles used in Example 70, the fast-disintegrating tablets of Example 70, and the tablets of Comparative Example 5. The dissolution test apparatus used Dissolution tester NTR-6100A (manufactured by Toyama Chemical), and the dissolution rate of solifenacin succinate was measured using a liquid chromatography analyzer (manufactured by Shimadzu Corporation). The test conditions are as follows.
.發泡法50rpm . Foaming method 50rpm
.試驗液:日局崩散試驗第2液(pH6.8)900mL . Test liquid: the second liquid (pH6.8) 900mL
.試驗液溫度:37℃±0.5℃ . Test liquid temperature: 37 ℃ ± 0.5 ℃
.試驗時間:2分鐘、30分鐘 . Test time: 2 minutes, 30 minutes
結果如表8所示。 The results are shown in Table 8.
有關實施例70中使用的苦味遮蔽粒子、實施例70之速崩散性錠劑、及有關比較例5之錠劑,測定相對於琥珀酸索非那辛及其分解物之總量而言,量最多的分解物之生成量(以下簡稱為主分解物之生成量)、與相對於琥珀酸索非那辛及其分解物之總量而言的總分解物量(以下簡稱為分解物總量)。結果如表8所示。 The bitter taste masking particles used in Example 70, the rapidly disintegrating tablets of Example 70, and the tablets of Comparative Example 5 were measured relative to the total amount of solifenacin succinate and its decomposed products The largest amount of decomposition products (hereinafter referred to as the main decomposition products) and the total decomposition products relative to the total amount of solifenacin succinate and its decomposition products (hereinafter referred to as the total decomposition products) ). The results are shown in Table 8.
由表8之結果可知,相對於實施例70之速崩散性錠劑與苦味遮蔽粒子相同程度的主分解物之生成量、及分解物總量而言,比較例5之錠劑確認有顯著增加。 From the results in Table 8, it can be seen that the tablets of Comparative Example 5 were confirmed to be significant relative to the amount of the main decomposition product and the total amount of decomposition products of the rapidly disintegrating tablets of Example 70 and the bitter taste masking particles. increase.
本發明就改善在流通過程中產生的錠劑破損情形,且充分維持賦予依照對溫度或濕度而言不安定的藥物、或由難溶性藥物而形成的固體分散體粒子、苦味遮蔽粒子、徐放性粒子等藥物特性為基準賦予企求機能之機能性粒子的各種機能而言,可提供速崩散性錠劑(特別是口腔內崩散錠)。 The present invention improves the breakage of tablets produced during the circulation process, and fully maintains the solid dispersion particles, bitter masking particles, and Xu Fang that are given to drugs that are unstable according to temperature or humidity, or are made of insoluble drugs. Drug particles and other medicinal properties can provide fast-disintegrating lozenges (especially intraoral disintegrating tablets) for various functions based on which functional particles are required to function.
於上述中,按照特定形態說明本說明,惟該業者所做的變形或改良皆包含於本發明範圍中。 In the above, the description is described according to a specific form, but the modifications or improvements made by the manufacturer are included in the scope of the present invention.
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CN105194677A (en) * | 2014-06-23 | 2015-12-30 | 天津金耀集团有限公司 | Lactose celecoxib medicine composition |
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