Saudi Pharmaceutical Journal (Mar 2024)

Response Surface Methodology (RSM) approach to formulate and optimize the bilayer combination tablet of Tamsulosin and Finasteride

  • Muneeba Akhtar,
  • Muhammad Zaman,
  • Ahsan Zamir Siddiqi,
  • Hasan Ali,
  • Rahima Khan,
  • Muhammad Nadeem Alvi,
  • Muhammad Hammad Butt,
  • Fatma M. El-Demerdash,
  • Dalal Nasser Binjawhar,
  • Amany A. Sayed,
  • Ahmed E. Altyar,
  • Mohamed M. Abdel-Daim

Journal volume & issue
Vol. 32, no. 3
p. 101957

Abstract

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An orally administered bilayer tablet with Tamsulosin (TAM) as the sustained release (SR) and Finasteride (FIN) as immediate release (IR) was manufactured. A response surface methodology was employed to formulate bilayer tablets with individual release layers, i.e., sustained and immediate release (SR and IR). Independent variables selected in both cases comprise hydroxypropyl methylcellulose (HPMC) as SR polymer, and avicel PH102 in the inner layer while Triacetin and talc in the outer layer, respectively. Tablets were prepared by direct compression, a total of 11 formulations were prepared for inner layer TAM, and 9 formulations for outer layer FIN were designed; these formulations were evaluated for hardness, friability, thickness, %drug content, and %drug release. A central composite design was employed in response surface methodology to design and optimize the formulation. The percentage of drug released was evaluated by in-vitro USP dissolution method of optimized formulation for 0.5, 2, and 6 hrs, and results were 24.63, 52.96, and 97.68 %, respectively. Drug release data was plotted in various kinetic models using a D.D solver, where drug release was first order that is concentration dependent and was best explained by Korsmeyer–Peppa kinetics, as the highest linearity was observed (R2 = 0.9693). However, a very close relationship was also noted with Higuchi kinetics (R2 = 0.9358). The mechanism of drug release was determined through the Korsmeyer model, and exponent “n” was found to be 0.4, indicative of an anomalous diffusion mechanism or diffusion coupled with erosion.

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