References
- H. E. Jin, J. H. Kim, and I. Y. Paik, Transdermal drug delivery system, J. Korean Ind. Eng. Chem., 16(1), 15 (2005).
- S. K. Dubey, A. Dey, G. Singhvi, M. M. Pandey, V. Singh, and P. Kesharwani, Emerging trends of nanotechnology in advanced cosmetics, Colloids Surf. B, Biointerfaces, 214, 1 (2022).
- S. Chen, S. Hanning, J. Falconer, M. Locke, and J. Wen, Recent advances in non-ionic surfactant vesicles (niosomes): Fabrication, characterization, pharmaceutical and cosmetic applications, Eur. J. Pharm. Biopharm., 144(12), 18 (2019).
- P. Bhardwaj, P. Tripathi, R. Gupta, and S. Pandey, Niosomes: A review on niosomal research in the last decade, J. Drug Deliv. Sci. Technoi., 56, 1 (2020).
- X. Jin, D. A. Streett, C. A. Dunlap, and M. E. Lyn, Application of hydrophilic-lipophilic balance (HLB) number to optimize a compatible non-ionic surfactant for dried aerial conidia of Beauveria bassiana, Biol. Control, 46(2), 226 (2008).
- C. Marianecci, L. D. Marzio, F. Rinaldi, C. Celia, D. Paolino, F. Alhaique, S. Esposito, and M. Carafa, Niosomes from 80s to present: The state of the art, Adv. Colloid Interface Sci., 205, 187 (2014).
- I. F. Uchegbu and A. T. Florence, Non-ionic surfactant vesicles (Niosome): Physical and pharmaceutical chemistry, Adv. Colloid Interface Sci., 58, 1 (1955).
- H. Jousma, J. G. H. Joosten, G. S. Gooris, and H. E. Junginger, Changes of mesophase structure of BRIJ 96/water mixtures on addition of liquid paraffin, Colloid Polym. Sci., 267(4), 353 (1989).
- H. Jousma, J. G. H. Joosten, and H. E. Junginger, Mesophases in mixtures of water and polyoxyethylene surfactant: Variations of repeat spacing with temperature and composition, Colloid Polym. Sci., 266(7), 640 (1988).
- L. Tavano, P. Alfano, R. Muzzalupo, and B. de Cindio, Niosomes vs microemulsions: New carriers for topical delivery of capsaicin, Colloids Surf. B, Biointerfaces, 87(2), 333 (2011).
- L. Basiri, G. Rajabzadeh, and A. Bostan, α-Tocopherol-loaded niosome prepared by heating method and its release behavior, Food Chem., 221, 620 (2017).
- P. Garcia-Manrique, N. D. Machado, M. A. Fernandez, M. C. Blanco-Lopeza, M. Matos, and G. Gutierrez, Effect of drug molecular weight on niosomes size and encapsulation efficiency, Colloids Surf. B, Biointerfaces, 186, 1 (2020).
- N. B. Mahale, P. D. Thakkar, R. G. Mali, D. R. Walunj, and S. R. Chaudhari, Niosomes: Novel sustained release nonionic stable vesicular systems-An overview, Adv. Colloid Interface Sci., 183-184(15), 46 (2012).
- E. Mayhew, R. Lazo, W. J. Vail, J. King, and A. M. Green, Characterization of liposomes prepared using a microemulsifier, Biochim. Biophys. Acta., 775(2), 169 (1984).
- M. S. Park, J. K. Park, G. W. Lee, M. K. Baek, and U. K. Jee, Preparation and evaluation of aclarubicin liposome using microfluidizer, Yakhak Hoeji, 42(3), 265 (1998).
- A. Laouini, C. Jaafar-Maalej, I. Limayem-Blouza, S. Sfar, C. Charcosset, and H. Fessi, Preparation, characterization and applications of liposome: state of the art, J. Colloid Sci. Biotechnol., 1(2), 147 (2012).
- M. Rajabi and S. A. Mousa, Lipid Nanoparticles and their application in nanomedicine, Curr. Pharm. Biotechnol., 17(8), 662 (2016).
- A. G. Messenger and J. Rundergren, Minoxidil: mechanisms of action on hair growth, Br. J. Dermatol., 150(2), 186 (2004).
- P. Balakrishnan, S. Shanmugam, W. S. Lee, W. M. Lee, J. O. Kim, D. H. Oh, D. D. Kim, J. S. Kim, B. K. Yoo, H. G. Choi, J. S. Woo, and C. S. Yong, Formulation and in vitro assessment of minoxidil noisomes for enhanced skin delivery, Int. J. Pharm., 377(1-2), 1 (2009).
- A. Goren and T. Naccarato, Minoxidil in the treatment of androgenetic alopecia, Dermatol. Therapy, 31(5), 1 (2018).
- I. Rizwana, K. V. Prakash, and G. K. Mohan, Simultaneous estimation of minoxidil and aminexil in bulk and pharmaceutical formulations by RP-HPLC method, Orient. J. Chem., 31(1), 277 (2015).
- M. Masjedi and T. Montahaei, An illustrated review on nonionic surfactant vesicles (niosomes) as an approach in modern drug delivery: Fabrication, characterization, pharmaceutical, and cosmetic applications, J. Drug Deliv. Sci. and Technol., 61, 1 (2021).
- S. J. Yang, T. Y. Kim, C. M. Lee, K. S. Lee, and K. S. Yoon, Study on the stability of biotin-containing nano-liposome, J. Soc. Cosmet. Sci. Korea, 46(2), 133 (2020).
- Y. P. Patil and S. Jadhav, Novel methods for liposome preparation, Chem. Phys. Lipids., 177, 8 (2013).
- H. S. Jeon, E. S. Jo, M. S. Kim, M. H. Kang, D. H. Oh, and S. K. Lee, A retinyl palmitate-loaded solid lipid nanoparticle system: Effect of surface modification with dicetyl phosphate on skin permeation in vitro and anti-wrinkle effect in vivo, Int. J. Pharm., 452(1-2), 311 (2013).
- S. Uprit, R. K. Sahu, A. Roy, and A. Pare, Preparation and characterization of minoxidil loaded nanostructured lipid carrier gel for effective treatment of alopecia, Saudi Pharm. J., 21(4), 379 (2013).
- M. Aranya, W. Paveena, M. Jiradej, S. Hideki, S. Fumio, Y. Makoto, and A. Masahiko, Characterization of vesicles preparred with various non-ionic surfactants mixed with cholesterol, Colloids Surf. B, Biointerfaces, 30(1-2), 129 (2003).
- B. K. Kim, Master's Thesis Dissertation, Jeju National Univ., Jeju, Korea (2022).
- N. Mali, S. Darandale, and P. Vavia, Niosomes as a vesicular carrier for topicaladministration of minoxidil: formulation and in vitroassessment, Drug Deliv. Transl. Res., 3(6), 587 (2013).
- Y. Morteza, H. Azadeh, B. Noushin, S. Soraya, and D. Simin, The Impact of surfactant composition and surface charge of niosomes on the oral absorption of repaglinide as a BCS II model drug, Int. J. Nanomedicine, 15, 8767 (2020).