Formulation, Optimization, and Evaluation of Transferosomes Co-Loaded with Methotrexate and Sorafenib for Anti-Arthritic Activity.

Purpose: This study was designed to develop a nanoparticle-based methotrexate (MTX) and sorafenib (SRF)-loaded transferosome (MTX-SRF-TFS) for effective management of arthritis through the transdermal route. Methods: For the preparation of MTX-SRF-TFS, the thin-film hydration technique was selected and optimized using Box-Behnken Design. The particle size of the nanoparticles was determined using a Malvern Zeta sizer and electron microscopy. An in vivo skin retention and penetration study was also conducted to evaluate the designed delivery system. Furthermore, the therapeutic response of MTX-SRF-TFS was determined using the CFA-induced mouse model. Results: The optimized MTX-SRF-TFS formulation (F4), having an average particle size (PS) of 162.20 ± 2.89 nm and percent entrapment efficiency (%EE) of MTX and SRF of 92.16 ± 4.95 and 81.54 ± 3.23, respectively, was selected for further assessment. Due to the deformable nature of MTX-SRF-TFS, MTX and SRF penetrate more deeply into the cutaneous layers, exhibiting an enhanced transdermal effect, as shown by the results of ex vivo skin permeation and retention studies. Furthermore, in vivo anti-arthritic studies have shown the superior pharmacodynamic response of MTX and SRF when incorporated into transferosomes, as it caused a marked reduction in arthritic score and paw diameter in CFA-induced arthritis in BALB/c mice. Histopathology analysis and X-ray radiography also confirmed the findings that MTX-SRF-TFS has improved anti-arthritic response in contrast to plain MTX-SRF gel. Conclusions: The MTX-SRF-TFS is highly effective in managing CFA-induced arthritis, and the designed delivery system should be further evaluated on pharmacokinetic grounds to progress towards clinical studies.