Development of Highly Stable Nifedipine Solid–Lipid Nanoparticles

To improve the solubility of the drug nifedipine (NI), highly stabilized solid–lipid nanoparticles (SLNs) of nifedipine (NI-SLNs) were prepared by high pressure homogenization using two phospholipids, followed by lyophilization with individual sugar moieties (four monosaccharides and four disacchari...

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Published inChemical & pharmaceutical bulletin Vol. 62; no. 5; pp. 399 - 406
Main Authors Barman, Ranjan Kumar, Iwao, Yasunori, Funakoshi, Yuka, Ranneh, Abdul-Hackam, Noguchi, Shuji, Wahed, Mir Imam Ibne, Itai, Shigeru
Format Journal Article
LanguageEnglish
Published Japan The Pharmaceutical Society of Japan 2014
Pharmaceutical Society of Japan
Japan Science and Technology Agency
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Summary:To improve the solubility of the drug nifedipine (NI), highly stabilized solid–lipid nanoparticles (SLNs) of nifedipine (NI-SLNs) were prepared by high pressure homogenization using two phospholipids, followed by lyophilization with individual sugar moieties (four monosaccharides and four disaccharides). The mean particle diameter, polydispersity index (PDI), zeta potential, drug loading, and the encapsulation efficiency of the NI-SLN suspension were determined to be 68.5 nm, 0.3, −62.1 mV, 2.7%, and 97.5%, respectively. In comparison with the NI-SLNs, the NI-SLNs lyophilized with trehalose (NI-SLN-Tre) showed a slight increase in the particle size from 68.5 to 107.7 nm, but the PDI decreased from 0.38 to 0.33, and no significant change in zeta potential was observed. Aqueous re-dispersibility study demonstrated that NI-SLNs lyophilized with trehalose had the maximum concentration (14.7 µg/mL) at 5 min, compared with lyophilized SLNs using other sugars; the use of other sugars also resulted in significant changes in the particle size, PDI, and zeta potential. A trehalose concentration of 2.5% w/v and a two-fold dilution of the SLN suspension were found to be the best conditions for lyophilization. Data from lyophilized SLNs using differential scanning calorimetry, powder X-ray diffraction, Fourier-transform infrared spectroscopy, and scanning electron microscopy indicated eventual transformation of NI-SLN-Tre from a crystalline to an amorphous state during the homogenization process. Finally, a stability study was performed with NI-SLN-Tre for up to 6 months at 30°C and 65% relative humidity, with no significant deterioration observed, suggesting that trehalose might be a useful cryoprotectant for NI-SLNs.
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ISSN:0009-2363
1347-5223
DOI:10.1248/cpb.c13-00684