Methylprednisolone 100 mg Tablet Formulation With Pea Protein: Experimental Approaches Over Intestinal Permeability and Cytotoxicity
Citation
KOÇ, Erhan, Fatih ÇİFTÇİ, Hilal ÇALIK, Seval KORKMAZ & Rabia ÇAKIR KOÇ." Methylprednisolone 100 mg Tablet Formulation With Pea Protein: Experimental Approaches Over Intestinal Permeability and Cytotoxicity." Drug Development and Industrial Pharmacy, 49.7 (2023):467-478.Abstract
Objective: This study was carried out to transform the hydrolyzed pea protein into a pharmaceutical tablet form by masking methylprednisolone.
Significance: This study provides some crucial contributions in showing how functional excipients such as
pea protein, which are generally used in food industries, can be used in pharmaceutical product formulations and their effects.
Methods: Methylprednisolone was formulated using spray drying technology. Design Expert Software
(Version 13) was used for the statistical analysis. The in vitro cytotoxic effects for NIH/3T3 mouse fibroblast
cells were investigated by XTT cell viability assay. HPLC was used to analyze the Caco-2 permeability studies and dissolution tests.
Results: The optimum formulation was evaluated against the reference product by performing cytotoxicity and cell permeability studies. According to our test results, Papp (apparent permeability) values of
Methylprednisolone were measured around 3 10-6 cm/s and Fa (fraction absorbed) values around 30%.
These data indicate that Methylprednisolone HCl has ‘moderate permeability’ and our study confirmed
that it could have belonged to BCS Class II-IV since both low solubility and moderate permeability.
Conclusion: The findings offer valuable information to guide and inform the use of pea protein in
pharmaceutical formulations.
Significant effects on methylprednisolone tablet formulation designed with the philosophy of quality by
design (QbD) of pea protein have been demonstrated by both in vitro and cell studies.