TW202122111A - 用於藥物溶解度控制之氣相塗層 - Google Patents
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Abstract
一種藥物組合物包括具有藥物活性成分、醫藥上可接受的賦形劑或兩者的顆粒。該等顆粒用包含醫藥上可接受的塗層材料的塗佈層包封。塗佈層小於200奈米厚。
Description
本揭示案涉及經塗佈的藥劑組合物及製備經塗佈的藥劑組合物的方法。
醫藥行業非常感興趣的是開發具有活性藥物成分(API)的改進製劑。製劑可影響API的穩定性和生物利用度以及其他特性。製劑亦可影響藥劑產品(DP)製造的各個方面,例如製造製程的簡便性和安全性。
已經開發了用於包封或塗佈API和DP兩者的多種技術,例如聚合物網狀塗層、鍋塗層、霧化塗層、流化床反應器塗層及原子層沉積塗層。
一種藥物組合物包括具有藥物活性成分、醫藥上可接受的賦形劑或兩者的顆粒。該等顆粒用包含醫藥上可接受的塗層材料的塗佈層包封。塗佈層小於200奈米厚。
在另一態樣中,一種對具有藥物活性成分的顆粒進行塗佈的方法包括使用原子層沉積、分子層沉積、化學氣相沉積、引發的化學氣相沉積或氣溶膠輔助噴霧沉積製程來施加一層醫藥上可接受的塗層材料。
提供了一種用於使用有機聚合物、無機金屬氧化物或兩者的薄的、保形的、均勻的、緻密的塗層來對藥物粉末進行塗佈的方法。此類塗層可表現出獨特的熱和/或pH響應的溶解特性。
厚的藥物塗層可以賦予所需的功能特性,諸如在指定溫度或pH範圍下的溶解度控制。然而,它們的厚度引入了重大的新問題,諸如藥代動力學變化或最終製劑中API含量的降低。
施加用於溶解度改變的塗層的現有方法要求包括大量塗層材料,以確保完全覆蓋所有顆粒,而不管該等顆粒的大小或形狀如何。由於該塗層的過重負載,塗層可能負面地影響藥物的藥理活性。本發明的塗層提供了低厚度(<100 nm)的緻密、保形、無缺陷的膜來減輕此等問題。
該技術賦能薄、均勻、保形和緻密的塗層,而不管粒徑如何。此等高度精確的塗層可以最小化提供有效溶解度控制所需的塗層過度負載,從而最小化溶解度控制製劑影響藥理效能的風險。另外,可以製備有機-無機混合塗層結構,此可賦能新的溶解度控制和刺激響應模式。
該技術意欲生產用於製劑的藥物塗層,該等藥物塗層在最小化對體內藥理效能的影響的同時具有改善的體外溶解度。此可以使用薄的(<100 nm)、保形的有機和無機塗層的組合來實現,該等塗層顯示出獨特的刺激響應溶解度特性。無機塗層可以由金屬氧化物(諸如Al2
O3
或TiO2
)組成。有機塗層可以由縮合聚合物(諸如聚酯或聚醯胺)或鏈增長聚合物組成,該等聚合物是由丙烯酸和甲基丙烯酸、丙烯醯胺、苯乙烯的酯或氨基酯及前述聚合物的共聚物合成的。塗層的獨特之處在於即使在具有高粒徑多分散性、表面粗糙度或深寬比的顆粒上,此等塗層也具有超薄(<100 nm)、均勻和保形的結構。
在製程中經由原子層沉積(ALD)或化學氣相沉積(CVD)中的一者或多者來塗佈金屬氧化物材料。經由分子層沉積(MLD)、引發(熱絲)化學氣相沉積(iCVD)或氣溶膠輔助噴霧沉積製程(AA-CVD)中的一者或多者來塗層聚合物。該等技術共享塗層均勻性高、與粒徑無關、具有良好的保形覆蓋性和相對缺乏針孔缺陷的獨特益處,並且適用於其他地方所述的一般反應器結構。在沉積期間(藉由旋轉、氣體流動或振動)攪動要塗佈的顆粒,以確保高生產量和良好的均勻性。
藉由交替投加前驅物(諸如三甲基鋁(TMA)或TiCl4)和氧化劑(諸如水蒸氣或臭氧),在大約室溫至300℃的溫度下進行金屬氧化物的ALD沉積。藉由該方法製得的金屬氧化物的優異化學惰性和物理強度使得該等金屬氧化物成為用於溶解度控制的新候選者。它們亦顯示出依賴於pH的溶解度性質。在塗覆製程中,將前驅物以靜態模式或流通模式投加到反應器中。在靜態模式中,將金屬前驅物脈衝進入密閉的反應器中,並使金屬前驅物在反應器中停留,直到金屬前驅物藉由與表面反應而被消耗掉。隨後泵出反應副產物,並再次脈衝化反應物,直到粉末上的所有反應位點都已被佔據。隨後藉由惰性氣體流清除反應器中的殘餘反應物。隨後用氧化劑重複該循環。在流通模式中,將金屬前驅物的流速設定為使得在不關閉反應器排氣的情況下,金屬前驅物在反應器中被完全或幾乎完全消耗。監測排氣以識別反應終點,在此時用惰性氣體清除反應器,並用氧化劑重複該過程。在流通模式或靜態模式中,重複該循環,直到實現所需的膜厚為止。
可以經由分子層沉積(MLD)或引發的(熱絲)化學氣相沉積(iCVD)以類似的方式沉積有機聚合物層。MLD是一種類似於用於上述ALD的製程的替代製程,並且可用於沉積縮聚物,諸如聚醯胺和聚酯,該等縮聚物可以是支鏈的或交聯的。pH響應性聚酯或聚醯胺由於它們在不同環境中差異地控制溶解度的能力而特別有用。在MLD製程中,藉由投加交替的物理吸附或化學吸附的單層來對顆粒進行塗佈,該等單層由一對或多對互補的多官能路易斯酸和鹼組成。路易斯鹼可以由多官能醇(諸如二甘醇)或胺(諸如乙二胺)組成。路易斯酸可以由多官能的醯氯(諸如琥珀醯氯、戊二醯氯或己二醯氯)組成。三官能路易斯酸或鹼,諸如均苯三甲醯氯可用於引入支化或交聯。有機-無機混合材料亦可以使用金屬-有機前驅物(諸如TMA)作為路易斯酸來製備。如上面針對ALD所規定的,該等交替的層可以以靜態或流過模式投加。
ICVD製程可用於沉積鏈增長聚合物,諸如聚(丙烯酸酯)、聚(甲基丙烯酸酯)和聚(苯乙烯)及前述聚合物的共聚物。在該等材料中,丙烯酸和甲基丙烯酸的氨基酯(諸如pDMAEMA和pEMAEMA)特別受關注,因為它們的溶解度轉變強烈依賴於pH值。另外,水凝膠材料(諸如交聯的聚丙烯醯胺)由於其可溶脹性而亦顯示出對溶解度的顯著影響。在iCVD製程中,一種或多種選自乙烯基、丙烯酸酯、甲基丙烯酸酯、丙烯醯胺、甲基丙烯醯胺或苯乙烯化學物的子集的單體前驅體經由能夠遞送1-100 g/min的單體蒸氣的蒸氣遞送系統(亦即,起泡器或直接液體注入)流入反應器。共聚物亦可以藉由共注射多種不同單體來製備。相對飽和比和反應速率將決定沉積膜的組成。第二注射器提供熱引發劑(諸如有機過氧化物)的遞送。引發劑在進入反應器之前流經加熱的元件。該加熱的元件使引發劑在不與單體蒸氣相互作用的情況下裂解形成兩種過氧自由基。隨後該等自由基誘發物理吸附在待塗佈顆粒的表面上的單體物質的鏈增長聚合。
該等製程均導致緻密、保形、高度均勻的膜,該等膜無法藉由當今的現有藥物塗佈製程生產。該等精確塗佈由於刺激或熱響應而可實現良好的溶解度控制,同時由於塗層的極薄性而使塗層對藥理特性的影響最小化。此外,它們可以藉由以下方式來最小化賦形劑負載:在較薄的塗層中實現相同的效能,從而以較小的劑型因素實現增加的藥物劑量。最後,該等製程可以組合使用,以創建具有獨特的環境依賴性溶解度控制的層壓結構,從而允許在最小化塗層對體內效能的影響的同時調整藥物溶解度。
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Claims (23)
- 一種藥物組合物,包含顆粒,該等顆粒包含一藥物活性成分、一醫藥上可接受的賦形劑或兩者,其中該等顆粒被包含一醫藥上可接受的塗層材料的一塗佈層包封,其中該塗佈層為小於200奈米厚。
- 如請求項1所述之藥物組合物,其中該塗佈層為小於100 nm厚。
- 如請求項1所述之藥物組合物,其中該塗佈層為小於50 nm厚。
- 如請求項1所述之藥物組合物,其中該塗佈層為小於10 nm厚。
- 如請求項1所述之藥物組合物,其中該塗佈層為小於1 nm厚。
- 如請求項1所述之藥物組合物,其中該塗佈層包含兩種或更多種醫藥上可接受的塗層材料。
- 如請求項1所述之藥物組合物,其中該塗佈層包括包含一第一醫藥上可接受的塗層材料的一第一子層和包含一第二醫藥上可接受的塗層材料的一第二子層。
- 如請求項1所述之藥物組合物,其中基於一體積平均值,該等顆粒具有小於10微米的一中值粒徑。
- 如請求項1所述之藥物組合物,其中基於一體積平均值,該等顆粒具有小於1微米的一中值粒徑。
- 如請求項1所述之藥物組合物,其中基於一體積平均值,該等顆粒具有小於100奈米的一中值粒徑。
- 如請求項1所述之藥物組合物,其中該醫藥上可接受的塗層材料包含一金屬氧化物。
- 如請求項11所述之藥物組合物,其中該金屬氧化物是氧化鋁或二氧化鈦。
- 如請求項1所述之藥物組合物,其中該醫藥上可接受的塗層材料包含一聚醯胺或一聚酯。
- 如請求項1所述之藥物組合物,其中該醫藥上可接受的塗層材料包含諸如一聚(丙烯酸酯)、一聚(甲基丙烯酸酯)、一聚(苯乙烯)及前述材料的共聚物。
- 如請求項1所述之藥物組合物,其中該等顆粒包含藥物活性成分和一種或多種醫藥上可接受的賦形劑。
- 一種單位劑型,該單位劑型包含如請求項1所述之的藥物組合物。
- 如請求項16所述之單位劑型,其中該劑型是一錠劑或膠囊劑。
- 如請求項1所述之藥物組合物,其中該藥物活性成分不是一類鴉片藥物。
- 如請求項1所述之藥物組合物,其中該塗佈層改變以下項中的一者或多者:跟隨性、穩定性和光敏性。
- 如請求項1所述之藥物組合物,其中該塗佈層藉由原子層沉積或分子層沉積來施加。
- 一種對包含藥物活性成分的顆粒進行塗佈的方法,包括以下步驟:使用原子層沉積、分子層沉積、化學氣相沉積、引發的化學氣相沉積或氣溶膠輔助噴霧沉積製程來施加一醫藥上可接受的塗層材料的一層。
- 如請求項21所述之方法,包括以下步驟:施加包含一第一醫藥上可接受的塗層材料的一第一子層和包含一第二醫藥上可接受的塗層材料的一第二子層。
- 如請求項21所述之方法,其中該施加在低於50℃的溫度下進行。
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EP (1) | EP4021421A4 (zh) |
JP (1) | JP2022545279A (zh) |
KR (1) | KR20220051385A (zh) |
CN (1) | CN114423415A (zh) |
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WO2010038691A1 (ja) * | 2008-09-30 | 2010-04-08 | アステラス製薬株式会社 | 経口投与用粒子状医薬組成物 |
CN103402503A (zh) * | 2011-03-03 | 2013-11-20 | 默克专利股份有限公司 | 经包衣的固体药物制剂 |
FI126168B (en) * | 2012-09-18 | 2016-07-29 | Novaldmedical Ltd Oy | A method for coating pharmaceutical substrates |
LT3003286T (lt) * | 2013-05-24 | 2022-08-10 | Nanexa Ab | Kietųjų nanodalelių su neorganine danga gamybos būdas ir jų naudojimas |
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