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Journal of Microencapsulation
Micro and Nano Carriers
Volume 29, 2012 - Issue 5
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Original

Effects of process variables on the encapsulation of oil in ca-alginate capsules using an inverse gelation technique

Sariah AbangDepartment of Food Process Engineering, L’Ecole Nationale Vétérinaire, Agroalimentaire et de l’Alimentation Nantes-Atlantique, 44322 Nantes, FranceCorrespondence[email protected]
,
Eng-Seng ChanSchool of Engineering, Monash University, 46150 Selangor, Malaysia
&
Denis PonceletDepartment of Food Process Engineering, L’Ecole Nationale Vétérinaire, Agroalimentaire et de l’Alimentation Nantes-Atlantique, 44322 Nantes, France
Pages 417-428 | Received 21 Jul 2011, Accepted 19 Dec 2011, Published online: 31 Jan 2012

References

  • Aliabadi HM, Elhasi S, Mahmud A, Gulamhusein R, Mahdipoor P, Lavasanifar A. Encapsulation of hydrophobic drugs in polymeric micelles through co-solvent evaporation: The effect of solvent composition on micellar properties and drug loading. Int J Pharm 2007; 329: 158–65
  • Anderson PO, Steinberg OG, Leirsund CKL, Polysaccharide capsules and methods of preparation. U.S. Patent 2005/0106233 A1
  • Aronson MP, Petko MF. Highly concentrated water-in-oil emulsions: Influence of electrolyte on their properties and stability. J Colloid and Interf Sci 1993; 159: 134–49
  • Bachtsi AR, Kiparissides C. Synthesis and release studies of oil-containing poly(vinyl alcohol) microcapsules prepared by coacervation. J Control Release 1996; 38: 49–58
  • Beristain CI, Vazquez A, Garcia HS, Vernon-Carter EJ. Encapsulation of orange peel oil by co-crystallization. Lebensm Wiss Technol 1996; 29: 645–7
  • Betigeri SS, Neau SH. Immobilization of lipase using hydrophilic polymers in the form of hydrogel beads. Biomaterials 2002; 23: 3627–36
  • Bhandari BR, D’Arcy BR, Padukka I. Encapsulation of lemon oil by paste method using beta-cyclodextrin: Encapsulation efficiency and profile of oil volatiles. J Agric Food Chem 1999; 47: 5194–7
  • Bhushan I, Parshad R, Qazi GN. Immobilization of lipase by entrapment in ca-alginate beads. J Bioact Compat Pol 2008; 23: 552–62
  • Blandino A, Macias M, Cantero D. Formation of calcium alginate gel capsules: Influence of sodium alginate and CaCl2 concentration on gelation kinetics. J Biosci Bioeng 1999; 88: 686–9
  • Bouchemal K, Briancon S, Fessi H, Chevallier Y, Bonnet I, Perrier E. Simultaneous emulsification and interfacial polycondensation for the preparation of colloidal suspensions of nanocapsules. Mat Sci Eng C – Bio S 2006; 26: 472–80
  • Bring J. How to standardize regression coefficients. J Am Stat Assoc 1994; 48: 209–13
  • Byun Y, Kim YT, Desai KGH, Park HJ. Microencapsulation techniques for food flavour. The chemistry and biology of volatiles, A Herrmann. John Wiley & Sons Ltd, Chichester 2010; 307–32
  • Chai Y, Mei LH, Wu GL, Lin DQ, Yao SJ. Gelation conditions and transport properties of hollow calcium alginate capsules. Biotechnol Bioeng 2004; 87: 228–33
  • Chan AWJ, Mazeaud I, Becker T, Neufeld RJ. Granulation of subtilisin by internal gelation of alginate microspheres for application in detergent formulation. Enzyme Microb Tech 2006; 38: 265–72
  • Chan ES. Preparation of ca-alginate beads containing high oil content: Influence of process variables on encapsulation efficiency and bead properties. Carboh Polym 2011; 84: 1267–75
  • 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
  • Chrastil J. Determination of the first order consecutive reaction rate constants from final product. Comput Chem 1988; 12: 289–92
  • Chrastil J. Gelation of calcium alginate. Influence of rice starch or rice flour on the gelation kinetics and on the final gel structure. J Agr Food Chem 1991; 39: 874–6
  • Clanet C, Beguin C, Richard D, Quere D. Maximal deformation of an impacting drop. J Fluid Mech 2004; 517: 199–208
  • Das MK, Senapati PC. Furosemide-loaded alginate microspheres prepared by ionic cross-linking technique: Morphology and release characteristics. Indian J Pharmaceut Sci 2008; 70: 77–84
  • Dautzenberg H, Hartmann J, Grunewald S, Brand F. Stoichiometry and structure of polyelectrolyte complex particles in diluted solutions. Ber Bunsenges Phys Chem 1996; 100: 1024–32
  • Dowding PJ, Atkin R, Vincent B, Bouillot P. Oil core-polymer shell microcapsules prepared by internal phase separation from emulsion droplets. I. Characterization and release rates for microcapsules with polystyrene shells. Langmuir 2004; 20: 11374–9
  • Dzondo-Gaget M, Nzikou JM, Etoumongo A, Linder M, Desobry S. Encapsulation and storage of safou oil in 6DE maltodextrins. Process Biochem 2005; 40: 265–71
  • Fingas M, Fieldhouse B. Studies of the formation process of water-in-oil emulsions. Mar Pollut Bull 2003; 47: 369–96
  • Fraser JE, Bickerstaff GF. Methods in biotechnology: Immobilization of enzymes and cells. Humana Press Inc, Totowa 1997
  • Griffin WC. Classification of surface-active agents by HLB. J Soc Cosmet Chem 1949; 1: 311–26
  • Jafari SM, Assadpoor E, Bhandari B, He Y. Nano-particle encapsulation of fish oil by spray drying. Food Res Int 2008; 41: 172–83
  • Junter GA, Vinet F. Compressive properties of yeast cell-loaded ca-alginate hydrogel layers: Comparison with alginate-CaCO3 microparticle composite gel structures. Chem Eng J 2009; 145: 514–21
  • Katona JM, Sovilj VJ, Petrovic LB. Microencapsulation of oil by polymer mixture-ionic surfactant interaction induced coacervation. Carbohyd Polym 2010; 79: 563–70
  • Kolanowski W, Ziolkowski M, Weißbrodt J, Kunz B, Laufenberg G. Microencapsulation of fish oil by spray drying – Impact on oxidative stability: Part 1. Eur Food Res Technol 2006; 222: 336–42
  • Kovalchuk K, Masalova I, Ya. Malkin A. Influence of electrolyte on interfacial and rheology properties and shear stability of highly concentrated W/O emulsions. Colloid J 2010; 72: 806–14
  • Koyama K, Seki M. Evaluation of mass-transfer characteristics in alginate-membrane liquid-core capsules prepared using polyethylene glycol. J Biosci Bioeng 2004; 98: 114–21
  • Leick S, Henning S, Degen P, Suter D, Rehage H. Deformation of liquid-filled calcium alginate capsules in a spinning drop apparatus. Physi Chem Ch Ph 2010; 12: 2950–8
  • Marquez AL, Medrano A, Panizzolo LA, Wagner JR. Effect of calcium salts and surfactant concentration on the stability of water-in-oil (w/o) emulsions prepared with polyglycerol polyricinoleate. J Colloid Interf Sci 2010; 341: 101–8
  • Martinez I, Riscardo MA, Franco JM. Effect of salt content on the rheological properties of salad dressing-type emulsions stabilized by emulsifier blends. J Food Eng 2007; 80: 1272–81
  • Mathiowitz E, Kreitz MR, Brannon-Peppas L. Microencapsulation. Encyclopedia of controlled drug delivery, E Mathiowitz. John Wiley & Sons, New York 1999; 493–546
  • Miyazawa K, Yajima I, Kaneda I, Yanaki T. Preparation of a new soft capsule for cosmetics. Int J Cosmetic Sci 2000; 51: 239–52
  • Mondal K, Mehta P, Mehta BR, Varandani D, Gupta MN. A bioconjugate of Pseudomonas cepacia lipase with alginate with enhanced catalytic efficiency. Biochim Biophys Acta 2006; 1764: 1080–6
  • Neumann MG, Schmitt CC, Iamazaki ET. A fluorescence study of the interactions between sodium alginate and surfactants. Carbohyd Res 2003; 338: 1109–13
  • Ouwerx C, Velings N, Mestdagh MM, Axelos MAV. Physico-chemical properties and rheology of alginate gel beads formed with various divalent cations. Polym Gels Netw 1998; 6: 393–408
  • Poncelet D, Lencki R, Beaulieu C, Halle JP, Neufeld RJ, Fournier A. Production of alginate beads by emulsification/internal gelation. I. Methodology. Appl Microbiol Biot 1992; 38: 39–45
  • Pregent S, Adams S, Butler MF, Waigh TA. The impact and deformation of a viscoelastic drop at the air–liquid interface. J Colloid Interf Sci 2009; 331: 163–73
  • Rachik M, Barthes-Biesel D, Carin M, Edward-Levy F. Identification of the elastic properties of an artificial capsule membrane with the compression test: Effect of thickness. J Colloid Interf Sci 2006; 301: 217–26
  • Rehor A, Canaple L, Zhang Z, Hunkeler D. The compressive deformation of multicomponent microcapsules: Influence of size, membrane thickness, and compression speed. J Biomat Sci – Polym E 2001; 12: 157–70
  • Ren PW, Ju XJ, Chu LY. Monodisperse alginate microcapsules with oil core generated from a microfluidic device. J Colloid Interf Sci 2010; 343: 392–5
  • Ribeiro AJ, Neufeld RJ, Arnaud P, Chaumeil JC. Microencapsulation of lipophilic drugs in chitosan-coated alginate microspheres. Int J Pharm 1999; 187: 115–23
  • Richardson JF, Coulson JM, Backhurst JR, Harker JH. Chemical engineering: Fluid flow, heat transfer and mass transfer. Elsevier Butterworth Heinemann, Oxford 1999
  • Rinaudo M. Main properties and current applications of some polysaccharides as biomaterials. Polym Int 2008; 57: 397–430
  • Sahin S, Sumnu SG. Physical properties of food. Springer Science+Business Media, LLC, New York 2006
  • Sasaki E, Kurayama F, Ida J, Matsuyama T, Yamamoto H. Preparation of microcapsules by electrostatic atomization. J Electrostat 2008; 66: 312–18
  • Silva CM, Ribeiro AJ, Figueiredo M, Ferreira D, Veiga F. Microencapsulation of hemoglobin in chitosan-coated alginate microspheres prepared by emulsification/internal gelation. AAPS J 2006a; 7: 903–13
  • Silva CM, Ribeiro AJ, Figueiredo IV, Goncalves AR, Veiga F. Alginate microspheres prepared by internal gelation: Development and effect on insulin stability. Int J Pharm 2006b; 311: 1–10
  • Smrdel P, Bogataj M, Mrhar A. The influence of selected parameters on the size and shape of alginate beads prepared by ionotropic gelation. Sci Pharm 2008; 76: 77–89
  • Soo HC, Joong KP, Beom SK, Ho NC. Microencapsulation of yeast cells in the calcium alginate membrane. Biotechnol Tech 1993; 7: 879–84
  • Voo WP, Pogaku R, Tey BT, Chan ES. Comparison of alginate and pectin based beads for production of poultry probiotic cells. J Biosci Bioeng 2011; 111: 294–9
  • Wyss A, von Stockar U, Marison I. Production and characterization of liquid-core capsules made from cross-linked acrylamide copolymers for biotechnological applications. Biotechnol Bioeng 2004; 86: 563–72
  • Yang J, Chen S, Fang Y. Viscosity study of interactions between sodium alginate and CTAB in dilute solutions at different pH values. Carbohyd Polym 2009; 75: 333–7
  • Yang J, Zhao J, Fang Y. Calorimetric studies of the interaction between sodium alginate and sodium dodecyl sulfate in dilute solutions at different pH values. Carbohyd Res 2008; 343: 719–25
  • Yeo Y, Baek N, Park K. Microencapsulation methods for delivery of protein drugs. Biotechnol Bioproc E 2001; 6: 213–30
  • Yilmaz G, Jongboom ROJ, Feil H, Hennink WE. Encapsulation of sunflower oil in starch matrices via extrusion: Effect of the interfacial properties and processing conditions on the formation of dispersed phased morphologies. Carbohyd Polym 2001; 45: 403–10
  • You JO, Park SB, Park HY, Haam S, Chung CH, Kim WS. Preparation of regular sized ca-alginate microspheres using membrane emulsification method. J Microencapsul 2001; 18: 521–32
  • Zhang X, Basaran OA. An experimental study of dynamics of drop formation. Phys Fluids 1995; 7: 1184–203

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