Controlled release of 5-Fluorouracil from alginate beads encapsulated in 3D printed pH-responsive solid dosage forms
Controlled release of 5-Fluorouracil from alginate beads encapsulated in 3D printed pH-responsive solid dosage forms
Three-dimensional printing is being steadily deployed as manufacturing technology for the development of personalized pharmaceutical dosage forms. In the present study, we developed a hollow pH-responsive 3D printed tablet encapsulating drug loaded non-coated and chitosan-coated alginate beads for the targeted colonic delivery of 5-fluorouracil (5-FU). A mixture of Eudragit® L100-55 and Eudragit® S100 was fabricated by means of hot-melt extrusion (HME) and the produced filaments were printed utilizing a fused deposition modeling (FDM) 3D printer to form the pH-responsive layer of the tablet with the rest comprising of a water-insoluble poly-lactic acid (PLA) layer. The filaments and alginate particles were characterized for their physicochemical properties (thermogravimetric analysis, differential scanning calorimetry, X-ray diffraction), their surface topography was visualized by scanning electron microscopy and the filaments’ mechanical properties were assessed by instrumented indentation testing and tensile testing. The optimized filament formulation was 3D printed and the structural integrity of the hollow tablet in increasing pH media (pH 1.2 to pH 7.4) was assessed by means of time-lapsed microfocus computed tomography (μCT). In vitro release studies demonstrated controlled release of 5-FU from the alginate beads encapsulated within the hollow pH-sensitive tablet matrix at pH values corresponding to the colonic environment (pH 7.4). The present study highlights the potential of additive manufacturing in fabricating controlled-release dosage forms rendering them pertinent formulations for further in vivo evaluation.
3362-3375
Gioumouxouzis, Christos I.
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Chatzitaki, Aikaterini-Theodora
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Karavasili, Christina
f174d197-8ba7-4765-adc8-99fa2f1c86fa
Katsamenis, Orestis L.
8553e7c3-d860-4b7a-a883-abf6c0c4b438
Tzetzis, Dimitrios
3b55f4b1-0bcc-4237-b1ba-3108c42fc6c9
Mystiridou, Emmanouela
1bcc4a33-c815-4767-949e-65f384ec3b10
Bouropoulos, Nikolaos
fadadea1-2aa2-4cd9-a7e5-33ba790cd45f
Fatouros, Dimitrios G.
4a716c96-a8ba-4fbf-b3db-3b2a3a2794c4
19 November 2018
Gioumouxouzis, Christos I.
6bbfb151-763a-48dc-8d1f-9cabd27c8d11
Chatzitaki, Aikaterini-Theodora
86c8220a-9b34-48ec-a903-ed1d82c5c34c
Karavasili, Christina
f174d197-8ba7-4765-adc8-99fa2f1c86fa
Katsamenis, Orestis L.
8553e7c3-d860-4b7a-a883-abf6c0c4b438
Tzetzis, Dimitrios
3b55f4b1-0bcc-4237-b1ba-3108c42fc6c9
Mystiridou, Emmanouela
1bcc4a33-c815-4767-949e-65f384ec3b10
Bouropoulos, Nikolaos
fadadea1-2aa2-4cd9-a7e5-33ba790cd45f
Fatouros, Dimitrios G.
4a716c96-a8ba-4fbf-b3db-3b2a3a2794c4
Gioumouxouzis, Christos I., Chatzitaki, Aikaterini-Theodora, Karavasili, Christina, Katsamenis, Orestis L., Tzetzis, Dimitrios, Mystiridou, Emmanouela, Bouropoulos, Nikolaos and Fatouros, Dimitrios G.
(2018)
Controlled release of 5-Fluorouracil from alginate beads encapsulated in 3D printed pH-responsive solid dosage forms.
AAPS PharmSciTech, 19 (8), .
(doi:10.1208/s12249-018-1084-2).
Abstract
Three-dimensional printing is being steadily deployed as manufacturing technology for the development of personalized pharmaceutical dosage forms. In the present study, we developed a hollow pH-responsive 3D printed tablet encapsulating drug loaded non-coated and chitosan-coated alginate beads for the targeted colonic delivery of 5-fluorouracil (5-FU). A mixture of Eudragit® L100-55 and Eudragit® S100 was fabricated by means of hot-melt extrusion (HME) and the produced filaments were printed utilizing a fused deposition modeling (FDM) 3D printer to form the pH-responsive layer of the tablet with the rest comprising of a water-insoluble poly-lactic acid (PLA) layer. The filaments and alginate particles were characterized for their physicochemical properties (thermogravimetric analysis, differential scanning calorimetry, X-ray diffraction), their surface topography was visualized by scanning electron microscopy and the filaments’ mechanical properties were assessed by instrumented indentation testing and tensile testing. The optimized filament formulation was 3D printed and the structural integrity of the hollow tablet in increasing pH media (pH 1.2 to pH 7.4) was assessed by means of time-lapsed microfocus computed tomography (μCT). In vitro release studies demonstrated controlled release of 5-FU from the alginate beads encapsulated within the hollow pH-sensitive tablet matrix at pH values corresponding to the colonic environment (pH 7.4). The present study highlights the potential of additive manufacturing in fabricating controlled-release dosage forms rendering them pertinent formulations for further in vivo evaluation.
Text
Gioumouxouzis et al PharmSciTech 2018 Redacted
- Accepted Manuscript
More information
Accepted/In Press date: 24 May 2018
e-pub ahead of print date: 14 June 2018
Published date: 19 November 2018
Identifiers
Local EPrints ID: 422024
URI: http://eprints.soton.ac.uk/id/eprint/422024
ISSN: 1530-9932
PURE UUID: d7bee006-22ef-4078-976d-e6c735ff6e65
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Date deposited: 12 Jul 2018 16:31
Last modified: 16 Mar 2024 04:06
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Contributors
Author:
Christos I. Gioumouxouzis
Author:
Aikaterini-Theodora Chatzitaki
Author:
Christina Karavasili
Author:
Dimitrios Tzetzis
Author:
Emmanouela Mystiridou
Author:
Nikolaos Bouropoulos
Author:
Dimitrios G. Fatouros
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