Thermal Analytical Approaches to Characterization and Compatibility Studies of Duloxetine Hydrochloride
Autor: | Paulo R. Oliveira, Fábio S. Murakami, Andressa Veiga, Tábata Bauab, Lucca Centa Malucelli, Laiane J. Oliveira, Marco Aurélio da Silva Carvalho Filho, Elisa F. Montin, Nayana C. F. Stofella |
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Rok vydání: | 2020 |
Předmět: |
Pharmacology
Croscarmellose sodium 010405 organic chemistry Chemistry Thermal decomposition Duloxetine Hydrochloride 01 natural sciences Enteric coating Dosage form 0104 chemical sciences Thermogravimetry Microcrystalline cellulose 010404 medicinal & biomolecular chemistry chemistry.chemical_compound Drug Discovery medicine Magnesium stearate Nuclear chemistry medicine.drug |
Zdroj: | Pharmaceutical Chemistry Journal. 54:659-666 |
ISSN: | 1573-9031 0091-150X |
DOI: | 10.1007/s11094-020-02249-0 |
Popis: | Duloxetine hydrochloride (DLX) is a serotonin and noradrenalin reuptake inhibitor mostly used for the treatment of major depressive and anxiety disorders. Physicochemical characterization of this drug and compatibility studies with excipients are particularly important during pharmaceutical technology development in order to guarantee the quality, safe and effective dosage form. Duloxetine is acid labile, thus the final product must be formulated with enteric coating to prevent degradation in the stomach for proper drug delivery. The major purpose of this work was to characterize this drug in solid-state form through thermal analytical techniques (TG/DTG, DSC), diffuse reflectance infrared Fourier transform (DRIFT) spectrophotometry, morphological analysis by scanning electron microscopy (SEM) and x-ray diffraction (XRD) analysis. The compatibility studies with excipients (1:1 w/w) was carried out using sodium starch glycolate (SSG), lactose (LAC), magnesium stearate (MS), croscarmellose sodium (CS), colloidal silicon dioxide (CSD) and microcrystalline cellulose (MCC). For DLX, the DSC analysis showed a sharp endothermic peak corresponding to the melting process (Tpeak = 168.93°C) and purity determination of 98.74 ± 0.03%. Thermogravimetry (TG) curves revealed a mass loss of approximately 58% during thermal decomposition and the non-isothermal kinetics revealed estimated Ea of 62.73 kJ mol-1 with a reaction order of zero, indicating that DLX thermal decomposition is constant over time, regardless of its concentration. The compatibility results suggest an interaction between DLX and selected excipients (SSG, CS, CSD, MCC) evidenced by the DLX melting point dislocation on the DSC curves. |
Databáze: | OpenAIRE |
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