Enteric Release Essential Oil Prepared by Co-Spray Drying Methacrylate/Polysaccharides—Influence of Starch Type

Enteric Release Essential Oil Prepared by Co-Spray Drying Methacrylate/Polysaccharides—Influence of Starch Type

Oregano essential oil (EO) enteric release powder was formulated by spray drying feed emulsions stabilized with polysaccharides (PSC) and Eudragit<sup>®</sup> L100 (PLM). Different modified starches were used in the PSC component. Spray-dried powders were evaluated for particle size and...

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Main Authors: Ioannis Partheniadis, Evangelia Zarafidou, Konstantinos E. Litinas, Ioannis Nikolakakis
Format: Article
Language:English
Published: MDPI AG 2020-06-01
Series:Pharmaceutics
Subjects:
microencapsulation
oregano essential oil
electrostatics
methacrylate polymer
emulsion reconstitution
oral delivery
Online Access:https://www.mdpi.com/1999-4923/12/6/571
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spelling doaj-8866e2c3bb744f9d99164e0253d4f1c52020-11-25T03:40:18ZengMDPI AGPharmaceutics1999-49232020-06-011257157110.3390/pharmaceutics12060571Enteric Release Essential Oil Prepared by Co-Spray Drying Methacrylate/Polysaccharides—Influence of Starch TypeIoannis Partheniadis0Evangelia Zarafidou1Konstantinos E. Litinas2Ioannis Nikolakakis3Department of Pharmaceutical Technology, School of Pharmacy, Faculty of Health Sciences, Aristotle University of Thessaloniki, 54124 Thessaloniki, GreeceDepartment of Pharmaceutical Technology, School of Pharmacy, Faculty of Health Sciences, Aristotle University of Thessaloniki, 54124 Thessaloniki, GreeceLaboratory of Organic Chemistry, Department of Chemistry, Aristotle University of Thessaloniki, 54124 Thessaloniki, GreeceDepartment of Pharmaceutical Technology, School of Pharmacy, Faculty of Health Sciences, Aristotle University of Thessaloniki, 54124 Thessaloniki, GreeceOregano essential oil (EO) enteric release powder was formulated by spray drying feed emulsions stabilized with polysaccharides (PSC) and Eudragit<sup>®</sup> L100 (PLM). Different modified starches were used in the PSC component. Spray-dried powders were evaluated for particle size and morphology, dynamic packing, flowability, chemical interactions, reconstitution, and gastric protection. Feed emulsions were stable, indicating the good emulsification ability of the PLM/PSC combination. The presence of polymer in the encapsulating wall neutralized electrostatic charges indicating physical attraction, and FTIR spectra showed peaks of both PLM and PSC without significant shifting. Furthermore, the presence of polymer influenced spray drying, resulting in the elimination of surface cavities and the improvement of powder packing and flowability, which was best when the surface-active, low-viscosity sodium octenyl succinate starch was used (angle of repose 42°). When a PLM/PSC ratio of 80/20 was used in the encapsulating wall, the spray-dried product showed negligible re-emulsification and less than 15% release in pH 1.2 medium for 2 h, confirming gastric protection, whereas at pH 6.8, it provided complete re-emulsification and release. In conclusion, (1) polymer–PSC physical interaction promoted the formation of a smoother particle surface and product with improved technological properties, which is important for further processing, and (2) the gastro protective function of Eudragit<sup>®</sup> L100 was not impaired due to the absence of significant chemical interactions.https://www.mdpi.com/1999-4923/12/6/571microencapsulationoregano essential oilelectrostaticsmethacrylate polymeremulsion reconstitutionoral delivery
collection DOAJ
language English
format Article
sources DOAJ
author Ioannis Partheniadis
Evangelia Zarafidou
Konstantinos E. Litinas
Ioannis Nikolakakis
spellingShingle Ioannis Partheniadis
Evangelia Zarafidou
Konstantinos E. Litinas
Ioannis Nikolakakis
Enteric Release Essential Oil Prepared by Co-Spray Drying Methacrylate/Polysaccharides—Influence of Starch Type
Pharmaceutics
microencapsulation
oregano essential oil
electrostatics
methacrylate polymer
emulsion reconstitution
oral delivery
author_facet Ioannis Partheniadis
Evangelia Zarafidou
Konstantinos E. Litinas
Ioannis Nikolakakis
author_sort Ioannis Partheniadis
title Enteric Release Essential Oil Prepared by Co-Spray Drying Methacrylate/Polysaccharides—Influence of Starch Type
title_short Enteric Release Essential Oil Prepared by Co-Spray Drying Methacrylate/Polysaccharides—Influence of Starch Type
title_full Enteric Release Essential Oil Prepared by Co-Spray Drying Methacrylate/Polysaccharides—Influence of Starch Type
title_fullStr Enteric Release Essential Oil Prepared by Co-Spray Drying Methacrylate/Polysaccharides—Influence of Starch Type
title_full_unstemmed Enteric Release Essential Oil Prepared by Co-Spray Drying Methacrylate/Polysaccharides—Influence of Starch Type
title_sort enteric release essential oil prepared by co-spray drying methacrylate/polysaccharides—influence of starch type
publisher MDPI AG
series Pharmaceutics
issn 1999-4923
publishDate 2020-06-01
description Oregano essential oil (EO) enteric release powder was formulated by spray drying feed emulsions stabilized with polysaccharides (PSC) and Eudragit<sup>®</sup> L100 (PLM). Different modified starches were used in the PSC component. Spray-dried powders were evaluated for particle size and morphology, dynamic packing, flowability, chemical interactions, reconstitution, and gastric protection. Feed emulsions were stable, indicating the good emulsification ability of the PLM/PSC combination. The presence of polymer in the encapsulating wall neutralized electrostatic charges indicating physical attraction, and FTIR spectra showed peaks of both PLM and PSC without significant shifting. Furthermore, the presence of polymer influenced spray drying, resulting in the elimination of surface cavities and the improvement of powder packing and flowability, which was best when the surface-active, low-viscosity sodium octenyl succinate starch was used (angle of repose 42°). When a PLM/PSC ratio of 80/20 was used in the encapsulating wall, the spray-dried product showed negligible re-emulsification and less than 15% release in pH 1.2 medium for 2 h, confirming gastric protection, whereas at pH 6.8, it provided complete re-emulsification and release. In conclusion, (1) polymer–PSC physical interaction promoted the formation of a smoother particle surface and product with improved technological properties, which is important for further processing, and (2) the gastro protective function of Eudragit<sup>®</sup> L100 was not impaired due to the absence of significant chemical interactions.
topic microencapsulation
oregano essential oil
electrostatics
methacrylate polymer
emulsion reconstitution
oral delivery
url https://www.mdpi.com/1999-4923/12/6/571
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AT evangeliazarafidou entericreleaseessentialoilpreparedbycospraydryingmethacrylatepolysaccharidesinfluenceofstarchtype
AT konstantinoselitinas entericreleaseessentialoilpreparedbycospraydryingmethacrylatepolysaccharidesinfluenceofstarchtype
AT ioannisnikolakakis entericreleaseessentialoilpreparedbycospraydryingmethacrylatepolysaccharidesinfluenceofstarchtype
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