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Research Article

Preparation of monodisperse aqueous microspheres containing high concentration of l-ascorbic acid by microchannel emulsification

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Pages 570-577 | Received 18 Nov 2014, Accepted 01 Jun 2015, Published online: 20 Jul 2015

References

  • Abbas S, Da Wei C, Hayat K, Xiaoming Z. Ascorbic acid: Microencapsulation techniques and trends—A review. Food Rev Int, 2012;28:343–74
  • Anal AK, Bhopatkar D, Tokura S, Tamura H, Stevens WF. Chitosan-alginate multilayer beads for gastric passage and controlled intestinal release of protein. Drug Dev Ind Pharm, 2003;29:713–24
  • Aslani P, Kennedy RA. Studies on diffusion in alginate gels. I. Effect of cross-linking with calcium or zinc ions on diffusion of acetaminophen. J Contr Release, 1996;42:75–82
  • Binks BP, Murakami R, Armes SP, Fujii S. Effects of pH and salt concentration on oil-in-water emulsions stabilized solely by nanocomposite microgel particles. Langmuir, 2006;22:2050–7
  • Binks BP, Rodrigues JA. Inversion of emulsions stabilized solely by ionizable nanoparticles. Angew Chem Int Ed, 2005;44:441–4
  • Caballero F, Foradada M, Miñarro M, Pérez-Lozano P, García-Montoya E, Ticó JR, Suñé-Negre JM. Characterization of alginate beads loaded with ibuprofen lysine salt and optimization of the preparation method. Int J Pharmaceut, 2014;460:181--8
  • Capone SH, Dufresne M, Rechel M, Fleury MJ, Salsac AV, Paullier P, Daujat-Chavanieu M, Legallais C. Impact of alginate composition: From bead mechanical properties to encapsulated HepG2/C3A cell activities for in vivo implantation. PLoS ONE, 2013;8:e62032
  • Cheng CJ, Chu LY, Xie R. Preparation of highly monodisperse W/O emulsions with hydrophobically modified SPG membranes. J Colloid Interface Sci, 2006;300:375–82
  • Chuah AM, Kuroiwa T, Kobayashi I, Zhang X, Nakajima M. Preparation of uniformly sized alginate microspheres using the novel combined methods of microchannel emulsification and external gelation. Colloid Surf A, 2009;351:9–17
  • Desai KG, Liu C, Park HJ. Characteristics of vitamin C encapsulated tripolyphosphate-chitosan microspheres as affected by chitosan molecular weight. J Microencapsul, 2006;23:79–90
  • Desai KG, Park HJ. Encapsulation of vitamin C in tripolyphosphate cross-linked chitosan microspheres by spray drying. J Microencapsul, 2005;22:179–92
  • Feczkó T, Tóth J, Gyenis J. Comparison of the preparation of PLGA–BSA nano- and microparticles by PVA, poloxamer and PVP. Colloid Surf A, 2008;319:188–95
  • Gallarate M, Carlotti M, Trotta M, Bovo S. On the stability of ascorbic acid in emulsified systems for topical and cosmetic use. Int J Pharmaceut, 1999;188:233–41
  • Herrera M. 2012. Nano and micro food emulsions. In: Analytical techniques for studying the physical properties of lipid emulsions. New York: Springer US, pp. 7–14
  • Jiang T, Kim YK, Singh B, Kang SK, Choi YJ, Chol CS. Effect of microencapsulation of Lactobacillus plantarum 25 into alginate/chitosan/alginate microcapsules on viability and cytokine induction. J Nanosci Nanotechnol, 2013;13:5291–5
  • Kawakatsu T, Kikuchi Y, Nakajima M. Regular-sized cell creation in microchannel emulsification by visual microprocessing method. J Am Oil Chem Soc, 1997;74:317–21
  • Kawakatsu T, Tragardh G, Tragardh C. Production of W/O/W emulsions and S/O/W pectin microcapsules by microchannel emulsification. Colloid Surf A, 2001a;189:257–64
  • Kawakatsu T, Tragardh G, Tragardh C, Nakajima M, Oda N, Yonemoto T. The effect of the hydrophobicity of microchannels and components in water and oil phases on droplet formation in microchannel water-in-oil emulsification. Colloid Surf A, 2001b;179:29–37
  • Khalid N, Kobayashi I, Neves MA, Uemura K, Nakajima M. Preparation and characterization of water-in-oil-in-water emulsions containing a high concentration of L-ascorbic acid. Biosci Biotechnol Biochem, 2013a;77:1171–8
  • Khalid N, Kobayashi I, Neves MA, Uemura K, Nakajima M. Preparation and characterization of water-in-oil emulsions loaded with high concentration of l-ascorbic acid. LWT – Food Sci Technol, 2013b;51:448–54
  • Khalid N, Kobayashi I, Neves MA, Uemura K, Nakajima M, Nabetani H. Monodisperse W/O/W emulsions encapsulating l-ascorbic acid: Insights on their formulation using microchannel emulsification and stability studies. Colloid Surf A, 2014;458:69–77
  • Khalid N, Kobayashi I, Neves MA, Uemura K, Nakajima M. Monodisperse aqeuous microspheres encapsulating high concentration of L-ascorbic acid: Insights of preparation and stability evaluation from straight-through microchannel emulsification. Biosci Biotechnol Biochem, 2015 . [Epub ahead of print]. doi: 10.1080/09168451.2015.1050988
  • Kim K, Vincent B. pH and temperature-sensitive behaviour of poly(4-vinylpyridine-co-N-isopropylacrylamide) microgels. Korean Polymer J, 2005;37:565–70
  • King Alan H. 1988. Flavor encapsulation with alginates. In: Flavor encapsulation. Washington, DC: American Chemical Society; pp. 122–5
  • Kobayashi I, Mukataka S, Nakajima M. Novel asymmetric through-hole array microfabricated on a silicon plate for formulating monodisperse emulsions. Langmuir, 2005a;21:7629–32
  • Kobayashi I, Mukataka S, Nakajima M. Production of monodisperse oil-in-water emulsions using a large silicon straight-through microchannel plate. Ind Eng Chem Res, 2005b;44:5852–6
  • Kobayashi I, Murayama Y, Kuroiwa T, Uemura K, Nakajima M. Production of monodisperse water-in-oil emulsions consisting of highly uniform droplets using asymmetric straight-through microchannel arrays. Microfluid Nanofluid, 2009;7:107–19
  • Kobayashi I, Uemura K, Nakajima M. Formulation of monodisperse emulsions using submicron-channel arrays. Colloid Surf A, 2007;296:285–9
  • Kobayashi I, Wada Y, Hori Y, Neves MA, Uemura K, Nakajima M. Microchannel emulsification using stainless-steel chips: Oil droplet generation characteristics. Chem Eng Technol, 2012;35:1865–71
  • Kratz K, Hellweg T, Eimer W. Influence of charge density on the swelling of colloidal poly(N-isopropylacrylamide-co-acrylic acid) microgels. Colloid Surf A, 2000;170:137–49
  • Kuo CK, Ma PX. Ionically crosslinked alginate hydrogels as scaffolds for tissue engineering: Part 1. Structure, gelation rate and mechanical properties. Biomaterials, 2001;22:511–21
  • Liu XD, Bao DC, Xue WM, et al. Preparation of uniform calcium alginate gel beads by membrane emulsification coupled with internal gelation. J Appl Poly Sci, 2003;87:848–52
  • McClements D, ed. Food emulsions: Principles, practice and techniques. Boca Raton, FL: CRC Press; 2004
  • Neves MA, Ribeiro HS, Fujiu KB, Kobayashi I, Nakajima M. Formulation of controlled size PUFA-loaded oil-in-water emulsions by microchannel emulsification using beta-carotene-rich palm oil. Ind Eng Chem Res, 2008a;47:6405–11
  • Neves MA, Ribeiro HS, Kobayashi I, Nakajima M. Encapsulation of lipophilic bioactive molecules by microchannel emulsification. Food Biophys, 2008b;3:126–31
  • Opawale FO, Burgess DJ. Influence of interfacial properties of lipophilic surfactants on water-in-oil emulsion stability. J Colloid Interface Sci, 1998;197:142–50
  • Poncelet D, Lencki R, Beaulieu C, Halle JP, Neufeld RJ, Fournier A. Production of alginate beads by emulsification/internal gelation. I. Methodology. Appl Microbiol Biotechnol, 1992;38:39–45
  • Pothakamury UR, Barbosa-Cánovas GV. Fundamental aspects of controlled release in foods. Trends Food Sci Technol, 1995;6:397–406
  • Reis CP, Neufeld RJ, Vilela S, Ribeiro AJ, Veiga F. Review and current status of emulsion/dispersion technology using an internal gelation process for the design of alginate particles. J Microencapsul, 2006;23:245–57
  • Saito M, Yin LJ, Kobayashi I, Nakajima M. Preparation characteristics of monodispersed oil-in-water emulsions with large particles stabilized by proteins in straight-through microchannel emulsification. Food Hydrocolloid, 2005;19:745–51
  • Shimizu M, Nakashima T, Kukizaki M. Preparation of W/O emulsion by membrane emulsification and optimum conditions for its monodispersity. Kagaku Kogaku Ronbunshu, 2002;28:310–16
  • Souilem S, Kobayahi I, Neves MA, Sayadi S, Ichikawa S, Nakajima M. Preparation of monodisperse food grade oleuropein-loaded W/O/W emulsions using microchannel emuslification and evaluation of their storage stability. Food Bioprocess Technol, 2014;7:2014--27
  • Stevanović M, Savic J, Jordovic B, Uskokovic D. Fabrication, in vitro degradation and the release behaviours of poly(dl-lactide-co-glycolide) nanospheres containing ascorbic acid. Colloid Surf B, 2007a;59:215–23
  • Stevanović M, Uskokovic D. Poly(lactide-co-glycolide)-based micro and nanoparticles for the controlled drug delivery of vitamins. Curr Nanosci, 2009;5:1–14
  • Stevanović MM, Jordović B, Uskoković DP. Preparation and characterization of poly (d,l-lactide-co-glycolide) nanoparticles containing ascorbic acid. BioMed Res Int, 2007b;2007:84965
  • Strathmann H. 1989. Membrane processes -- A short review. In: Rautenbach R, Albrecht R, eds. Membrane processes. Chicester, NY: John Wiley & Sons
  • Sugiura S, Kuroiwa T, Kagota T, et al. Novel method for obtaining homogeneous giant vesicles from a monodisperse water-in-oil emulsion prepared with a microfluidic device. Langmuir, 2008;24:4581–8
  • Sugiura S, Nakajima M, Iwamoto S, Seki M. Interfacial tension driven monodispersed droplet formation from microfabricated channel array. Langmuir, 2001;17:5562–6
  • Tong JH, Nakajima M, Nabetani H, Kikuchi Y. Surfactant effect on production of monodispersed microspheres by microchannel emulsification method. J Surf Deterg, 2000;3:285–93
  • Vladisavljević GT, Kobayashi I, Nakajima M. Production of uniform droplets using membrane, microchannel and microfluidic emulsification devices. Microfluid Nanofluid, 2012;13:151–78

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