Evaluation of highly branched cyclic dextrin in inhalable particles of combined antibiotics for the pulmonary delivery of anti-tuberculosis drugs

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• 作者：Kazunori Kadota ^{kadota@gly.oups.ac.jp} ; Arisa Senda ; Hideaki Tagishi ; John Oluwasogo Ayorinde ^{shogo205@yahoo.com} ; Yuichi Tozuka ; ^{ytozuka@gly.oups.ac.jp}
• 关键词：API ; active pharmaceutical ingredient ; βCD ; β-cyclodextrin ; BET ; Brunauer&ndash ; Emmett&ndash ; Teller ; DPI ; dry powder-inhaler ; ED ; emitted dose ; FPD ; fine-particle dose ; FPF ; fine-particle fraction ; HBCD ; highly branched cyclic dextrin ; HPLC ; high performance liquid chromatography ; HPMC ; hydroxypropyl methylcellulose ; MβCD ; methyl β-cyclodextrin ; SDPs ; spray-dried particle formulations ; SD ; standard deviation ; SEM ; scanning electron microscopy ; PLGA ; poly(lactic-co-glycolic) acid polymer ; PVA ; po
• 刊名：International Journal of Pharmaceutics
• 出版年：2017
• 出版时间：30 January 2017
• 年：2017
• 卷：517
• 期：1-2
• 页码：8-18
• 全文大小：2473 K
• 卷排序：517

文摘

This work aims to identify a suitable formulation for the pulmonary delivery of combinations of inhalational drugs using highly branched cyclic dextrin (HBCD) macromolecules. We compared the effectiveness between powders prepared from HBCD with those prepared from five alternative excipients (lactose, maltose, sucrose, β-cyclodextrin and methyl β-cyclodextrin) in the pulmonary delivery of a single-dosage form of two anti-tuberculosis drugs (isoniazid and rifampicin).Fine particles of untreated active pharmaceutical ingredients (APIs) and combination products using excipients were prepared by spray drying. Rifampicin, a hydrophobic compound, was dissolved in ethanol, whereas isoniazid, a hydrophilic compound combined with either HBCD or an alternative excipient was dissolved in water. This was followed by the preparation of the spray-dried particle formulations (SDPs). The SDPs were characterised in terms of particle size, surface morphology, drug content, specific surface area, powder X-ray diffraction and inhalational properties.The addition of either an excipient or HBCD decreased API particle sizes, producing submicron-size particles. Surface morphology examination using scanning electron microscopy revealed API SDPs to be cylindrical and non-wrinkled. However, API–excipient SDPs were wrinkled and rough. Only HBCD SDPs were porous and non-aggregating, thereby suggesting superior aerodynamic properties and suitability for pulmonary delivery of these particles. HBCD formulations had the highest drug content in terms of both isoniazid (97.5%) and rifampicin (92.3%). Larger surface areas were obtained for SDPs of HBCD than those of other sugars. Regarding inhalational properties, HBCD formulations had higher emitted dose and fine-particle fractions than formulations of all other sugars tested. Our results confirm the feasibility of the formulation of hydrophilic and hydrophobic drug substances into a single-dosage preparation for pulmonary delivery using HBCD as an excipient.