Spray Freeze Drying to Solidify Nanosuspension of Cefixime Into Inhalable Microparticles

Spray Freeze Drying to Solidify Nanosuspension of Cefixime Into Inhalable Microparticles Publisher Pubmed

Haghighi DM¹ ; Faghihi H² ; Darabi M¹ ; Mirmoeini MS¹ ; Vatanara A¹

Show Affiliations

1. Department of Pharmaceutics, Faculty of Pharmacy, Tehran University of Medical Sciences, Tehran, Iran
2. Department of Pharmaceutics, School of Pharmacy, Iran University of Medical Sciences, Tehran, Iran

Source: DARU# Journal of Pharmaceutical Sciences Published:2022

Abstract

Purpose: Spray-freeze drying (SFD) incorporating diverse carbohydrates and leucine was employed to obtain dried nanosuspension of cefixime with improved dissolution profile, good dispersibility, and excellent inhalation performance. Methods: Nanoprecipitation was utilized to prepare nanoparticles (NPs). Nanosuspensions of cefixime were solidified via SFD to access inhalable microparticles. The aerosolization efficiencies were evaluated through twin stage impinger (TSI). Laser light scattering and scanning electron microscopy (SEM) provided assistance to determine the particle size/size distribution and morphology, respectively. Amorphous/ crystalline states of materials were examined via differential scanning calorimetry (DSC) and X-ray diffraction (XRD). Release profiles of candidate preparations were evaluated. Results: The fine particle fraction (FPF) ranged from 18.96 ± 0.76 to 79.28 ± 0.45%. The highest value resulted from trehalose with NP/carrier ratio of 1:1 and leucine 20%. The particle size varied from 5.24 ± 0.97 to 10.17 ± 1.01 μm. The most and the least size distribution were achieved in mannitol and trehalose containing formulations, respectively. The majority of samples demonstrated ideally spherical morphology with diverse degrees of porosity and without needle-shaped structure. Percentages of release in F7 and F8 were 89.33 ± 0.88% and 93.54 ± 1.02%, respectively, via first 10 min. Conclusion: SFD of nanosuspensions can be established as a platform for the pulmonary delivery of poorly water-soluble molecules of cefixime. Trehalose and raffinose with a lower ratio of NP to the carrier and higher level of leucine could be introduced as favorable formulations for further respiratory delivery of cefixime. Graphical abstract: [Figure not available: see fulltext.] © 2021, Springer Nature Switzerland AG.

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Alireza Vatanara (12)

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Style	Citing Format
MLA	Haghighi DM, et al.. "Spray Freeze Drying to Solidify Nanosuspension of Cefixime Into Inhalable Microparticles." DARU# Journal of Pharmaceutical Sciences, vol. 30, no. 1, 2022, pp. 17-27.
APA	Haghighi DM, Faghihi H, Darabi M, Mirmoeini MS, Vatanara A (2022). Spray Freeze Drying to Solidify Nanosuspension of Cefixime Into Inhalable Microparticles. DARU# Journal of Pharmaceutical Sciences, 30(1), 17-27.
Chicago	Haghighi DM, Faghihi H, Darabi M, Mirmoeini MS, Vatanara A. "Spray Freeze Drying to Solidify Nanosuspension of Cefixime Into Inhalable Microparticles." DARU# Journal of Pharmaceutical Sciences 30, no. 1 (2022): 17-27.
Harvard	Haghighi DM et al. (2022) 'Spray Freeze Drying to Solidify Nanosuspension of Cefixime Into Inhalable Microparticles', DARU# Journal of Pharmaceutical Sciences, 30(1), pp. 17-27.
Vancouver	Haghighi DM, Faghihi H, Darabi M, Mirmoeini MS, Vatanara A. Spray Freeze Drying to Solidify Nanosuspension of Cefixime Into Inhalable Microparticles. DARU# Journal of Pharmaceutical Sciences. 2022;30(1):17-27.
BibTex	@article{ author = {Haghighi DM and Faghihi H and Darabi M and Mirmoeini MS and Vatanara A}, title = {Spray Freeze Drying to Solidify Nanosuspension of Cefixime Into Inhalable Microparticles}, journal = {DARU# Journal of Pharmaceutical Sciences}, volume = {30}, number = {1}, pages = {17-27}, year = {2022} }
RIS	TY - JOUR AU - Haghighi DM AU - Faghihi H AU - Darabi M AU - Mirmoeini MS AU - Vatanara A TI - Spray Freeze Drying to Solidify Nanosuspension of Cefixime Into Inhalable Microparticles JO - DARU# Journal of Pharmaceutical Sciences VL - 30 IS - 1 SP - 17 EP - 27 PY - 2022 ER -

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