Development of a self-microemulsifying drug delivery system using a Dunnione to enhance bioavailability

Purpose The purpose of this study was to enhance the solubility and oral bioavailability of Dunnione (DUN) using a self-microemulsifying drug delivery system (SMEDDS). Methods To determine the optimal formulation of the Dunnione-SMEDDS (DUN-SME), we assessed the solubility and compatibility of vario...

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Published in:Journal of pharmaceutical investigation 2024, 54(5), , pp.605-615
Main Authors: Hwang, Se Jung, Lee, Jeong Hyeon, Choi, Ji Hoon, Oh, Gi-Su, So, Hong-Seob, Park, Jun-Bom, Weon, Kwon Yeon
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container_title Journal of pharmaceutical investigation
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Lee, Jeong Hyeon
Choi, Ji Hoon
Oh, Gi-Su
So, Hong-Seob
Park, Jun-Bom
Weon, Kwon Yeon
description Purpose The purpose of this study was to enhance the solubility and oral bioavailability of Dunnione (DUN) using a self-microemulsifying drug delivery system (SMEDDS). Methods To determine the optimal formulation of the Dunnione-SMEDDS (DUN-SME), we assessed the solubility and compatibility of various oil and surfactant candidates. Subsequently, we employed the design of experiments (DoE) to optimize the formulation, considering the particle size distribution in water and the SMEDDS composition. The characteristics of the optimized DUN-SME were confirmed based on the particle size, zeta potential, and drug release profiles. Subsequently, we assessed the bioavailability of DUN-SME in Beagles conducting a pharmacokinetic study. Results Based on the results of the solubility study, the optimal formulation of DUN-SME comprised Capryol® 90, Tween 20, and Transcutol® P. In the compatibility test, all tested surfactants exhibited the characteristics necessary for organizing DUN-SME into self-emulsions and the formation of fine emulsions. Subsequently, we predicted a particle size of 29.3 nm for DUN-SME based on the simplex lattice design. The measured particle size was 13.7 nm, and the zeta potential was − 6.87 mV. We also confirmed enhanced drug dissolution within 60 min, which was approximately 2-fold higher than that of DUN alone. Furthermore, the bioavailability of DUN was 3.66-fold higher than that of DUN alone in Beagles. Conclusion The optimized DoE-based DUN-SME formulation showed improved solubility and oral bioavailability. Therefore, this strategy may offer a promising solution for developing oral dosage forms of DUN with poor solubility and bioavailability.
doi_str_mv 10.1007/s40005-024-00672-z
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Methods To determine the optimal formulation of the Dunnione-SMEDDS (DUN-SME), we assessed the solubility and compatibility of various oil and surfactant candidates. Subsequently, we employed the design of experiments (DoE) to optimize the formulation, considering the particle size distribution in water and the SMEDDS composition. The characteristics of the optimized DUN-SME were confirmed based on the particle size, zeta potential, and drug release profiles. Subsequently, we assessed the bioavailability of DUN-SME in Beagles conducting a pharmacokinetic study. Results Based on the results of the solubility study, the optimal formulation of DUN-SME comprised Capryol® 90, Tween 20, and Transcutol® P. In the compatibility test, all tested surfactants exhibited the characteristics necessary for organizing DUN-SME into self-emulsions and the formation of fine emulsions. Subsequently, we predicted a particle size of 29.3 nm for DUN-SME based on the simplex lattice design. The measured particle size was 13.7 nm, and the zeta potential was − 6.87 mV. We also confirmed enhanced drug dissolution within 60 min, which was approximately 2-fold higher than that of DUN alone. Furthermore, the bioavailability of DUN was 3.66-fold higher than that of DUN alone in Beagles. Conclusion The optimized DoE-based DUN-SME formulation showed improved solubility and oral bioavailability. 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Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><cites>FETCH-LOGICAL-c277t-af8334ed41a5df4d86324ae0631f618441af662fa7002ad0f4902aa1e9d7fe113</cites><orcidid>0000-0003-2307-8938</orcidid></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27924,27925</link.rule.ids><backlink>$$Uhttps://www.kci.go.kr/kciportal/ci/sereArticleSearch/ciSereArtiView.kci?sereArticleSearchBean.artiId=ART003117997$$DAccess content in National Research Foundation of Korea (NRF)$$Hfree_for_read</backlink></links><search><creatorcontrib>Hwang, Se Jung</creatorcontrib><creatorcontrib>Lee, Jeong Hyeon</creatorcontrib><creatorcontrib>Choi, Ji Hoon</creatorcontrib><creatorcontrib>Oh, Gi-Su</creatorcontrib><creatorcontrib>So, Hong-Seob</creatorcontrib><creatorcontrib>Park, Jun-Bom</creatorcontrib><creatorcontrib>Weon, Kwon Yeon</creatorcontrib><title>Development of a self-microemulsifying drug delivery system using a Dunnione to enhance bioavailability</title><title>Journal of pharmaceutical investigation</title><addtitle>J. Pharm. Investig</addtitle><description>Purpose The purpose of this study was to enhance the solubility and oral bioavailability of Dunnione (DUN) using a self-microemulsifying drug delivery system (SMEDDS). Methods To determine the optimal formulation of the Dunnione-SMEDDS (DUN-SME), we assessed the solubility and compatibility of various oil and surfactant candidates. Subsequently, we employed the design of experiments (DoE) to optimize the formulation, considering the particle size distribution in water and the SMEDDS composition. The characteristics of the optimized DUN-SME were confirmed based on the particle size, zeta potential, and drug release profiles. Subsequently, we assessed the bioavailability of DUN-SME in Beagles conducting a pharmacokinetic study. Results Based on the results of the solubility study, the optimal formulation of DUN-SME comprised Capryol® 90, Tween 20, and Transcutol® P. In the compatibility test, all tested surfactants exhibited the characteristics necessary for organizing DUN-SME into self-emulsions and the formation of fine emulsions. Subsequently, we predicted a particle size of 29.3 nm for DUN-SME based on the simplex lattice design. The measured particle size was 13.7 nm, and the zeta potential was − 6.87 mV. We also confirmed enhanced drug dissolution within 60 min, which was approximately 2-fold higher than that of DUN alone. Furthermore, the bioavailability of DUN was 3.66-fold higher than that of DUN alone in Beagles. Conclusion The optimized DoE-based DUN-SME formulation showed improved solubility and oral bioavailability. 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Pharm. Investig</stitle><date>2024-09-01</date><risdate>2024</risdate><volume>54</volume><issue>5</issue><spage>605</spage><epage>615</epage><pages>605-615</pages><issn>2093-5552</issn><eissn>2093-6214</eissn><abstract>Purpose The purpose of this study was to enhance the solubility and oral bioavailability of Dunnione (DUN) using a self-microemulsifying drug delivery system (SMEDDS). Methods To determine the optimal formulation of the Dunnione-SMEDDS (DUN-SME), we assessed the solubility and compatibility of various oil and surfactant candidates. Subsequently, we employed the design of experiments (DoE) to optimize the formulation, considering the particle size distribution in water and the SMEDDS composition. The characteristics of the optimized DUN-SME were confirmed based on the particle size, zeta potential, and drug release profiles. Subsequently, we assessed the bioavailability of DUN-SME in Beagles conducting a pharmacokinetic study. Results Based on the results of the solubility study, the optimal formulation of DUN-SME comprised Capryol® 90, Tween 20, and Transcutol® P. In the compatibility test, all tested surfactants exhibited the characteristics necessary for organizing DUN-SME into self-emulsions and the formation of fine emulsions. Subsequently, we predicted a particle size of 29.3 nm for DUN-SME based on the simplex lattice design. The measured particle size was 13.7 nm, and the zeta potential was − 6.87 mV. We also confirmed enhanced drug dissolution within 60 min, which was approximately 2-fold higher than that of DUN alone. Furthermore, the bioavailability of DUN was 3.66-fold higher than that of DUN alone in Beagles. Conclusion The optimized DoE-based DUN-SME formulation showed improved solubility and oral bioavailability. 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Original Article
약학
title Development of a self-microemulsifying drug delivery system using a Dunnione to enhance bioavailability
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