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Pharm Sci. 2015;21(3): 136-144. doi: 10.15171/PS.2015.28

Original Research

Optimization of Cefixime Nanosuspension to Improve Drug Dissolution

Elham Ghasemian 1, Behnaz Rezaeian 1, Samaneh Alaei 1, Alireza Vatanara 1 * , Vahid Ramezani 1,2

Cited by CrossRef: 4


1- S, Kaushik R, Verma K, Parveen R. Herbal Nanoformulations for Diabetes: Mechanisms, Formulations, and Clinical Impact. CDR. 2025;21(3) [Crossref]
2- Akhavan S, Mohammadi F, Tavakoli F, Ramezani V. Optimized Amorphous Nanoparticles: An Approach to Boost Solubility and Skin Permeability of Mometasone Furoate. BioNanoSci. 2025;15(1) [Crossref]
3- Saraf A, Sharma S, Sachar S. Incorporation of the poorly soluble drug cefixime inside the micellar core of conventional and gemini surfactants. New J Chem. 2022;46(8):3697 [Crossref]
4- Wang L, Li X, Liu Y, Han D, Liu S, Zhang T, Yu B, Gong J. Insight into the degradation mechanism of cefixime under crystallization condition. Chinese Journal of Chemical Engineering. 2018;26(7):1458 [Crossref]
5- Haghighi D, Faghihi H, Darabi M, Mirmoeini M, Vatanara A. Spray freeze drying to solidify Nanosuspension of Cefixime into inhalable microparticles. DARU J Pharm Sci. 2022;30(1):17 [Crossref]
6- Sankaran S, Shivdas A, Asha J, Srinivasa M, Thiruvengadam R, Kadaikunnan S, Alharbi N, Arcot R, Thiruvengadam M. Synthesis of Cefixime–Gelatin Chemical Conjugated Microparticles and Their Antibacterial Activity Against Escherichia coli. Korean J Chem Eng. 2025; [Crossref]
7- Kiaee G, Dimitrakakis N, Sharifzadeh S, Kim H, Avery R, Moghaddam K, Haghniaz R, Yalcintas E, Barros N, Karamikamkar S, Libanori A, Khademhosseini A, Khoshakhlagh P. Laponite‐Based Nanomaterials for Drug Delivery. Adv Healthcare Materials. 2022;11(7) [Crossref]

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