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Research Article

Oil encapsulation in core–shell alginate capsules by inverse gelation II: comparison between dripping techniques using W/O or O/W emulsions

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Pages 522-534 | Received 05 Apr 2017, Accepted 26 Jul 2017, Published online: 23 Aug 2017

References

  • Abang S. 2011. Immobilisation of porcine pancreatic lipase in liquid-core capsules, PhD Thesis, Ecole Nationale Vétérinaire Agroalimentaire et de l’Alimentation, ONIRIS-Université de Nantes, France.
  • Abang S, Chan ES, Poncelet D. Effects of process variables on the encapsulation of oil in Ca-alginate capsules using an inverse gelation technique. J Microencapsul, 2012;29(5):417–28.
  • Andersen PO, Gaserod O, Larsen C. 2005. Polysaccharide capsules and methods of preparation. US Patent 2005/0106233 A1.
  • Banerjee A, Arha M, Choudhary S, Ashton RS, Bhatias SR, Schaffer DV, Kane RS. The influence of hydrogel modulus on the proliferation and differentiation of encapsulated neural stem cells. Biomaterials, 2009;30(27):4695–9.
  • Beirão-da-Costa S, Duarte C, Bourbon AI, Pinheiro AC, Januário MIN, Vicente AA, Beirão-da-Costa ML, Delgadillo I. Inulin potential for encapsulation and controlled delivery of Oregano essential oil. Food Hydrocoll, 2013;33:199–206.
  • Bosio VE, Basu S, Abdullha F, Villalba MEC, Güida JA, Mukherjee A, Castro GR. Encapsulation of Congo Red in carboxymethyl guar gum–alginate gel microspheres. React Funct Polym, 2014;82:103–10.
  • Bouchama F, Aken GA, Autin AJE, Koper GJM. On the mechanism of catastrophic phase inversion in emulsions. Colloids Surf A Physicochem Eng Asp, 2003;231:11–17.
  • Cárdenas A, Castro E. Breaking of multiple emulsions under osmotic pressure and the effect of W1/O relation. Interciencia, 2003;9:534–8.
  • Cárdenas-Bailón F, Osorio-Revilla G, Gallardo-Velázquez T. Microencapsulation techniques to develop formulations of insulin for oral delivery: A review. J Microencapsul, 2014;30(5):409–24.
  • Carneiro HCF, Tonon RV, Grosso CRF, Hubinger MD. Encapsulation efficiency and oxidative stability of flaxseed oil microencapsulated by spray drying using different combinations of wall materials. J Food Eng, 2013;115:443–51.
  • Chan ES, Lee BB, Ravindra P, Poncelet D. Prediction models for shape and size of Ca-alginate macrobeads produced through extrusion-dripping method. J Colloid Interf Sci, 2009;338:63–72.
  • Degen P, Zwar E, Schulz I, Rehage H. Magneto-responsive alginate capsules. J Phys Condens Matter, 2015;27:194105.
  • Fu H, Liu Y, Adriaà F, Shao X, Cai W, Chipot C. From material science to avant-garde cuisine. The art of shaping liquids into spheres. J Phys Chem B, 2014;118:11747–56.
  • Griffin WC. Classification of surface-active agents by HLB. J Soc Cosmet Chem, 1949;1:311–26.
  • ICI Americas Inc. 1980. The HLB system a time-saving guide to emulsifier selection. Available at: http://www.firp.ula.ve/archivos/historicos/76_Book_HLB_ICI.pdf. Accessed 2 October 2014.
  • Jerobin J, Sureshkumar RS, Anjali CH, Mukherjee A, Chandrasekaran N. Biodegradable polymer based encapsulation of neem oil nanoemulsion for controlled release of Aza-A. Carbohydr Polym, 2012;90:1750–6.
  • Li J, He J, Huang Y, Li D, Chen X. Improving surface and mechanical properties of alginate films by using ethanol as a co-solvent during external gelation. Carbohydr Polym, 2015;123:208–16.
  • Martins E, Renard D, Davy J, Marquis M, Poncelet D. Oil core microcapsules by inverse gelation technique. J Microencapsul, 2015;32(1):86–95.
  • Martins E, Renard D, Adiwijaya Z, Karaoglan E, Poncelet D. Oil encapsulation in core-shell alginate capsules by inverse gelation. I: Dripping methodology. J Microencapsul, 2017a;34(1):82–90.
  • Martins E, Poncelet D, Marquis M, Davy J, Renard D. Monodisperse core-shell alginate (micro)-capsules with oil core generated from droplets millifluidic. Food Hydrocoll, 2017b;63:447–56.
  • Martins E, Poncelet D, Renard D. A novel method of oil encapsulation in core-shell alginate microcapsules by dispersion-inverse gelation technique. React Funct Polym, 2017c;114:49–57.
  • Moura MR, Fauze AA, Favaro SL, Radovanovic E, Rubira AF, Muniz EC. Release of BSA from porous matrices constituted of alginate–Ca2+ and PNIPAAm-interpenetrated networks. Mater Sci Eng C, 2009;8:2319–25.
  • de Oliveira EF, Paula HC, de Paula RC. Alginate/cashew gum nanoparticles for essential oil encapsulation. Colloids Surf B Biointerfaces, 2014;113:146–51.
  • Paques JP, Linden E, Rijn CJM, Sagis LMC. Alginate submicron beads prepared through w/o emulsification and gelation with CaCl2 nanoparticles. Food Hydrocoll, 2013;31:428–34.
  • Peniche C, Howland I, Carrillo O, Zaldı´var C, Argüelles-Monal W. Formation and stability of shark liver oil loaded chitosan/calcium alginate capsules. Food Hydrocoll, 2004;18(5):865–71.
  • Polk A, Amsden B, De Yao K, Peng T, Goosen MFA. Controlled release of albumin from chitosan-alginate microcapsules. J Pharm Sci, 1994;83:178–85.
  • Rachik M, Barthes-Biesel D, Carin M, Edwards-Levy F. Identification of the elastic properties of an artificial capsule membrane with the compression test: Effect of thickness. J Colloid Interface Sci, 2006;301:217–26.
  • Radha KV, Regupathi I, Arunagiri A, Murugesan T. Decolorization studies of synthetic dyes using Phanerochaete chrysosporium and their kinetics. Process Biochem, 2005;40:3337–45.
  • Rolland L. 2013. Propriétés physico-chimiques de capsules d’hydrogel à coeur liquide. Material chemistry, PhD Thesis, Université Pierre et Marie Currie- Paris VI.
  • Sahin S, Sumnu SG. 2006. Physical properties of food. New York: Springer Science, Business Media, LLC.
  • Sawhney R, Kumar A. Congo Red (Azo dye) decolourization by local isolate VTII inhabiting dye effluent exposed soil. Int J Environ Sci, 2011;6:1261–7.
  • Steensma DP. “Congo” red: Out of Africa? Arch Pathol Lab Med, 2001;125:250–2.
  • West ER, Xu M, Woodruff TK, Shea LD. Physical properties of alginate hydrogels and their effects on in vitro follicle development. Biomaterials, 2007;28(30):4439–48.
  • Whelehan M, Marison IW. Microencapsulation using vibrating technology. J Microencapsul, 2011;28(8):669–88.
  • Züge LCB, Haminiuk CWI, Maciel GM, Silveira JLM, Scheer ADP. Catastrophic inversion and rheological behavior in soy lecithin and Tween 80 based food emulsions. J Food Eng, 2013;116(1):72–7.

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