Defining the design space for freeze-dried orodispersible tablets with meloxicam

Objective: This work focused on simultaneously investigating formulation variables and freeze-drying parameters when preparing orodispersible tablets with meloxicam (Mel), by a Quality by Design (QbD) approach. Materials and methods: Methylcellulose (MC) was selected as a matrix forming agent and ma...

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Bibliographic Details
Published in:Drug development and industrial pharmacy 2016-12, Vol.42 (12), p.1977-1989
Main Authors: Iurian, Sonia, Tomuta, Ioan, Bogdan, Cătălina, Rus, Lucia, Tokes, Timea, Barbu-Tudoran, Lucian, Achim, Marcela, Moldovan, Mirela, Leucuta, Sorin
Format: Article
Language:English
Subjects:
Design of experiments
design space
freezing rate
meloxicam
oral lyophilisates
quality by design
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Summary:Objective: This work focused on simultaneously investigating formulation variables and freeze-drying parameters when preparing orodispersible tablets with meloxicam (Mel), by a Quality by Design (QbD) approach. Materials and methods: Methylcellulose (MC) was selected as a matrix forming agent and mannitol (Man) as cryoprotectant, both at two concentration levels. The freezing regime was also varied between fast and shelf-ramped, to find out how it affects the final products. The tablet formulations were characterized for their disintegration time, wetting properties, mechanical properties, morphology and in vitro dissolution. Response Surface Modeling completed the statistical analysis that assessed the effects of independent variables on the responses. Results: All the responses showed good fitting to the chosen model. The increase in MC content determined a positive effect on disintegration time, wetting time, mechanical strength and a negative effect on Mel dissolution. High levels of Man-determined brittle products with low-absorption capacity and fast Mel dissolution. The freezing rate had an important effect on the structure of tablets: fast freezing determined slightly thicker pore walls with smooth surfaces, while shelf-ramped freezing led to a multiple-layer structure with increased hardness. Still, shelf-ramped freezing yielded higher Mel release, due to physical changes of the active substance during the freeze-drying process. Conclusion: From the generated design space, an optimal formulation was obtained and the results validated the experimental design. The QbD approach was an efficient manner of understanding formulation and process parameters at the freeze-dried orodispersible tablets preparation.
ISSN:0363-9045
1520-5762
DOI:10.1080/03639045.2016.1188108