(32c) Preparation and Characterization of Modafinil Nanofibers By Electrospinning | AIChE

(32c) Preparation and Characterization of Modafinil Nanofibers By Electrospinning

Authors 

Monbaliu, J. C., University of Liege
Vlaar, C., University of Puerto Rico
Duconge, J., University of Puerto Rico
López-Mejías, V., University of Puerto Rico Rio Piedras Campus
Stelzer, T., Crystallization Design Institute
Modafinil is an anti-narcoleptic drug used to treat excessive daytime sleepiness associated with sleep apnea and shift-work disorder.1 It has been approved by the Food and Drug Administration (FDA) and is being marketed in the form of tablets with a trade name, ‘Provigil’.1 Modafinil tablet forms suffer from disadvantages of susceptibility of reduced solid-state stability and drug loading. As nanofibers possess exceptional mechanical, physical and chemical properties, these formulations have gained tremendous attention in the scientific community.2 For the first time, in this work, we report the formulation of polymeric nanofibers loaded with modafinil at dosage recommended by FDA (100 mg) via electrospinning. The modafinil-loaded polymer nanofibers were prepared by electrospinning polymer solutions with suspended modafinil crystals at a voltage of 12 kV and a flow rate of 5 mL/h. Polymers used were Poly Vinyl Pyrrolidone (PVP), Poly Vinyl Alcohol (PVA), Poly Ethylene Glycol (PEG), and Poly L-Lactide (PLLA). The obtained electrospun nanofiber formulations were characterized for their morphological, vibrational, structural, and thermal properties by Scanning Electron Microscopy (SEM), Raman spectroscopy, Powder X-Ray Diffraction (PXRD), Differential Scanning Calorimetric (DSC) and Thermogravimetric Analysis (TGA). The modafinil loading in the nanofibers and the dissolution of the electrospun modafinil nanofibres were determined using UV-Vis spectrophotometer at 220 nm.3 The morphological analysis revealed the encapsulation of circular-shaped modafinil particles within the nanofibers further evidenced by the broader stretching of the Raman spectral region around the wave numbers ranging between 1425 cm-1 – 1225 cm-1, 1050 cm-1-1000 cm-1 and 650 cm-1 – 620 cm-1 representative for C-H stretching, presence of a polystyrene peak and a S=O stretching in modafinil. The PXRD analysis confirmed the presence of modafinil in the nanofibers and the crystalline nature of the formulation. The melting point of the modafinil-loaded nanofibers was found to be higher than the melting point of commercial modafinil indicating that the modafinil-nanofiber formulation possesses a good thermal stability characteristic than the commercial modafinil. The unoptimized loading of modafinil into the nanofibers was determined to be 65%. The modafinil-loaded nanofibers illustrate that electrospinning can serve as a less laborious and an easily adoptable continuous method for the formulation of modafinil according to the desired dosage needs. Consequently, this study might be used as a rationale for necessary further analytical and regulatory studies.

Keywords: Modafinil, electrospinning, loading.

References

(1) Minzenberg, M. J.; Carter, C. S. Modafinil: A Review of Neurochemical Actions and Effects on Cognition, Neuropsychopharmacology 2008, 33, 1477-1502.

(2) Morie, A.; Garg, T.; Goyal, A. K.; Rath, G. Nanofibers as novel drug carrier, Artificial Cells, Nanomedicine, and Biotechnology 2014, 44(1), 135-143.

(3) Adibika, K.; Selselehjonban, S.; Emami, S.; Osouli-Bostanabad, K.; Barzegar-Jalali, M. Electrosprayed polymeric nanobeads and nanofibers of modafinil: preparation, characterization, and drug release studies, Bioimpacts 2019, 9(3), 179-188.