Development of Tofacitinib Loaded pH-Responsive Chitosan/Mucin Based Hydrogel Microparticles: In-Vitro Characterization and Toxicological Screening

Tofacitinib is an antirheumatic drug characterized by a short half-life and poor permeability, which necessitates the development of sustained release formulation with enhanced permeability potential. To achieve this goal, the free radical polymerization technique was employed to develop mucin/chito...

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Veröffentlicht in:Gels 2023-02, Vol.9 (3), p.187
Hauptverfasser: Malatani, Rania T, Bilal, Sana, Mahmood, Asif, Sarfraz, Rai Muhammad, Zafar, Nadiah, Ijaz, Hira, Rehman, Umaira, Akbar, Shehla, Alkhalidi, Hala M, Gad, Heba A
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Sprache:eng
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Zusammenfassung:Tofacitinib is an antirheumatic drug characterized by a short half-life and poor permeability, which necessitates the development of sustained release formulation with enhanced permeability potential. To achieve this goal, the free radical polymerization technique was employed to develop mucin/chitosan copolymer methacrylic acid (MU-CHI-Co-Poly (MAA))-based hydrogel microparticles. The developed hydrogel microparticles were characterized for EDX, FTIR, DSC, TGA, X-ray diffraction, SEM, drug loading; equilibrium swelling (%), in vitro drug release, sol-gel (%) studies, size and zeta potential, permeation, anti-arthritic activities, and acute oral toxicity studies. FTIR studies revealed the incorporation of the ingredients into the polymeric network, while EDX studies depicted the successful loading of tofacitinib into the network. The thermal analysis confirmed the heat stability of the system. SEM analysis displayed the porous structure of the hydrogels. Gel fraction showed an increasing tendency (74-98%) upon increasing the concentrations of the formulation ingredients. Formulations coated with Eudragit (2% / ) and sodium lauryl sulfate (1% / ) showed increased permeability. The formulations equilibrium swelling (%) increased (78-93%) at pH 7.4. Maximum drug loading and release (%) of (55.62-80.52%) and (78.02-90.56%), respectively, were noticed at pH 7.4, where the developed microparticles followed zero-order kinetics with case II transport. Anti-inflammatory studies revealed a significant dose-dependent decrease in paw edema in the rats. Oral toxicity studies confirmed the biocompatibility and non-toxicity of the formulated network. Thus, the developed pH-responsive hydrogel microparticles seem to have the potential to enhance permeability and control the delivery of tofacitinib for the management of rheumatoid arthritis.
ISSN:2310-2861
2310-2861
DOI:10.3390/gels9030187