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Tailored sticky solutions: 3D-printed miconazole buccal films for pediatric oral candidiasis

Tailored sticky solutions: 3D-printed miconazole buccal films for pediatric oral candidiasis
Tailored sticky solutions: 3D-printed miconazole buccal films for pediatric oral candidiasis
In this research, 3D-printed antifungal buccal films (BFs) were manufactured as a potential alternative to commercially available antifungal oral gels addressing key considerations such as ease of manufacturing, convenience of administration, enhanced drug efficacy and suitability of paediatric patients. The fabrication process involved the use of a semi-solid extrusion method to create BFs from zein-Poly-Vinyl-Pyrrolidone (zein-PVP) polymer blend, which served as a carrier for drug (miconazole) and taste enhancers. After manufacturing, it was determined that the disintegration time for all films was less than 10 min. However, these films are designed to adhere to buccal tissue, ensuring sustained drug release. Approximately 80% of the miconazole was released gradually over 2 h from the zein/PVP matrix of the 3D printed films. Moreover, a detailed physicochemical characterization including spectroscopic and thermal methods was conducted to assess solid state and thermal stability of film constituents. Mucoadhesive properties and mechanical evaluation were also studied, while permeability studies revealed the extent to which film-loaded miconazole permeates through buccal tissue compared to commercially available oral gel formulation. Histological evaluation of the treated tissues was followed. Furthermore, in vitro antifungal activity was assessed for the developed films and the commercial oral gel. Finally, films underwent a two-month drug stability test to ascertain the suitability of the BFs for clinical application. The results demonstrate that 3D-printed films are a promising alternative for local administration of miconazole in the oral cavity.
Administration, Buccal, Animals, Antifungal Agents/administration & dosage, Candidiasis, Oral/drug therapy, Chemistry, Pharmaceutical/methods, Child, Drug Delivery Systems/methods, Drug Liberation, Humans, Miconazole/administration & dosage, Mouth Mucosa/metabolism, Permeability, Povidone/chemistry, Printing, Three-Dimensional, Zein/chemistry, oral candidiasis, miconazole, buccal films, pediatric patients, semi-solid extrusion
1530-9932
Chachlioutaki, Konstantina
aa15e449-9ebc-4a23-a5a3-4a0a1327fc8e
Iordanopoulou, Anastasia
66f18569-c863-4da1-bd09-f83d647bc876
Katsamenis, Orestis L.
8553e7c3-d860-4b7a-a883-abf6c0c4b438
Tsitsos, Anestis
ac28e173-72d1-4aaf-b73c-8a9ee40428d2
Koltsakidis, Savvas
c3e2ad0f-aa05-4ec6-90ad-d26defa51db3
Anastasiadou, Pinelopi
8fd22111-8924-4a9b-9848-964ed127884e
Andreadis, Dimitrios
23c51d7b-3bc1-4ca0-8973-5dc2edd827ef
Economou, Vangelis
2a0f0d95-9004-4111-8f0f-d67d0ef1f91f
Ritzoulis, Christos
9fa4ad95-ee3b-4c42-a0f9-dd72abe34d82
Tzetzis, Dimitrios
3b55f4b1-0bcc-4237-b1ba-3108c42fc6c9
Bouropoulos, Nikolaos
fadadea1-2aa2-4cd9-a7e5-33ba790cd45f
Xenikakis, Iakovos
3885f841-aa8d-4aca-8cd9-0350941888a1
Fatouros, Dimitrios
4a716c96-a8ba-4fbf-b3db-3b2a3a2794c4
Chachlioutaki, Konstantina
aa15e449-9ebc-4a23-a5a3-4a0a1327fc8e
Iordanopoulou, Anastasia
66f18569-c863-4da1-bd09-f83d647bc876
Katsamenis, Orestis L.
8553e7c3-d860-4b7a-a883-abf6c0c4b438
Tsitsos, Anestis
ac28e173-72d1-4aaf-b73c-8a9ee40428d2
Koltsakidis, Savvas
c3e2ad0f-aa05-4ec6-90ad-d26defa51db3
Anastasiadou, Pinelopi
8fd22111-8924-4a9b-9848-964ed127884e
Andreadis, Dimitrios
23c51d7b-3bc1-4ca0-8973-5dc2edd827ef
Economou, Vangelis
2a0f0d95-9004-4111-8f0f-d67d0ef1f91f
Ritzoulis, Christos
9fa4ad95-ee3b-4c42-a0f9-dd72abe34d82
Tzetzis, Dimitrios
3b55f4b1-0bcc-4237-b1ba-3108c42fc6c9
Bouropoulos, Nikolaos
fadadea1-2aa2-4cd9-a7e5-33ba790cd45f
Xenikakis, Iakovos
3885f841-aa8d-4aca-8cd9-0350941888a1
Fatouros, Dimitrios
4a716c96-a8ba-4fbf-b3db-3b2a3a2794c4

Chachlioutaki, Konstantina, Iordanopoulou, Anastasia, Katsamenis, Orestis L., Tsitsos, Anestis, Koltsakidis, Savvas, Anastasiadou, Pinelopi, Andreadis, Dimitrios, Economou, Vangelis, Ritzoulis, Christos, Tzetzis, Dimitrios, Bouropoulos, Nikolaos, Xenikakis, Iakovos and Fatouros, Dimitrios (2024) Tailored sticky solutions: 3D-printed miconazole buccal films for pediatric oral candidiasis. AAPS PharmSciTech, 25 (7), [190]. (doi:10.1208/s12249-024-02908-5).

Record type: Article

Abstract

In this research, 3D-printed antifungal buccal films (BFs) were manufactured as a potential alternative to commercially available antifungal oral gels addressing key considerations such as ease of manufacturing, convenience of administration, enhanced drug efficacy and suitability of paediatric patients. The fabrication process involved the use of a semi-solid extrusion method to create BFs from zein-Poly-Vinyl-Pyrrolidone (zein-PVP) polymer blend, which served as a carrier for drug (miconazole) and taste enhancers. After manufacturing, it was determined that the disintegration time for all films was less than 10 min. However, these films are designed to adhere to buccal tissue, ensuring sustained drug release. Approximately 80% of the miconazole was released gradually over 2 h from the zein/PVP matrix of the 3D printed films. Moreover, a detailed physicochemical characterization including spectroscopic and thermal methods was conducted to assess solid state and thermal stability of film constituents. Mucoadhesive properties and mechanical evaluation were also studied, while permeability studies revealed the extent to which film-loaded miconazole permeates through buccal tissue compared to commercially available oral gel formulation. Histological evaluation of the treated tissues was followed. Furthermore, in vitro antifungal activity was assessed for the developed films and the commercial oral gel. Finally, films underwent a two-month drug stability test to ascertain the suitability of the BFs for clinical application. The results demonstrate that 3D-printed films are a promising alternative for local administration of miconazole in the oral cavity.

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Accepted/In Press date: 30 July 2024
Published date: 20 August 2024
Keywords: Administration, Buccal, Animals, Antifungal Agents/administration & dosage, Candidiasis, Oral/drug therapy, Chemistry, Pharmaceutical/methods, Child, Drug Delivery Systems/methods, Drug Liberation, Humans, Miconazole/administration & dosage, Mouth Mucosa/metabolism, Permeability, Povidone/chemistry, Printing, Three-Dimensional, Zein/chemistry, oral candidiasis, miconazole, buccal films, pediatric patients, semi-solid extrusion

Identifiers

Local EPrints ID: 499048
URI: http://eprints.soton.ac.uk/id/eprint/499048
DOI: doi:10.1208/s12249-024-02908-5
ISSN: 1530-9932
PURE UUID: 254ffffa-7212-4f6b-aad9-e3eeea1f8c56
ORCID for Orestis L. Katsamenis: ORCID iD orcid.org/0000-0003-4367-4147

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Date deposited: 07 Mar 2025 17:39
Last modified: 08 Mar 2025 02:45

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Contributors

Author: Konstantina Chachlioutaki
Author: Anastasia Iordanopoulou
Author: Orestis L. Katsamenis ORCID iD
Author: Anestis Tsitsos
Author: Savvas Koltsakidis
Author: Pinelopi Anastasiadou
Author: Dimitrios Andreadis
Author: Vangelis Economou
Author: Christos Ritzoulis
Author: Dimitrios Tzetzis
Author: Nikolaos Bouropoulos
Author: Iakovos Xenikakis
Author: Dimitrios Fatouros

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