Advanced search
Publication Cover
Journal of Microencapsulation
Micro and Nano Carriers
Volume 21, 2004 - Issue 3
Submit an article Journal homepage
177
Views
23
CrossRef citations to date
0
Altmetric
Research Article

Calcium-alginate coated, whey protein-based microspheres: preparation, some properties and opportunities

M. Rosenberg Department of Food Science and Technology, University of California, Davis, CA 95616, USACorrespondence[email protected]
&
S. J. Lee Department of Food Science and Technology, University of California, Davis, CA 95616, USA
Pages 263-281 | Received 05 Aug 2003, Accepted 10 Oct 2003, Published online: 03 Oct 2008

References

  • ACARTÜRK, F., and TAKKA, S., 1999, Calcium alginate microparticles for oral administration: II effect of formulation factors on drug release and drug entrapment efficiency. Journal of Microencapsulation, 16, 291–301.
  • AGUILERA, J. M., and KESSLER, H. G., 1989, Properties of mixed and filled-type dairy gels. Journal of Food Science, 54, 1217–1231.
  • AGUILERA, J. M., and KINSELLA, J. E., 1991, Compression strength of dairy gels and microstructural interpretation. Journal of Food Science, 56, 1224–1228.
  • AGUILERA, J. M., KINSELLA, J. E., and LIBOF, M., 1993, Structure-compressive stress relationships in mixed dairy gels. Food Structure, 12, 469–474.
  • ARSHADY, A., 1990, Albumin microspheres and microcapsules: methodology of manufacturing techniques. Journal of Controlled Release, 14, 111–131.
  • BEAULIEU, L., SAVOIE, L., PAQUIN, P., and SUBIRADE, M., 2002, Elaboration and characterization of whey protein beads by an emulsification/cold gelation process: application for the protection of retinal. Biomacromolecules, 3, 239–248.
  • BOYE, J. I., MA, C.-Y., and HARWALKAR, V. R., 1997, Thermal denaturation and coagu-lation of proteins. In Food Proteins and Their Applications, edited by S. Damodaran and A. Paraf (New York: Marcel Dekker, Inc.), pp. 25–56.
  • CHASIN, M., LANGER, R., and SWARBRICK, J., 1990, Biodegradable Polymers as Delivery Systems (New York: Marcel Dekker).
  • CHEN, J., and DICKINSON, E., 1999, Interfacial aging effect on the rheology of a heat-set protein emulsion gel. Food Hydrocolloids, 13, 363–369.
  • CHEN, Y., WILLMOTT, N., ANDERSON, J., and FLORENCE, A. T., 1987, Comparison of albumin and casein microspheres as carrier for doxorubicin. Journal of Pharmacy and Pharmacology, 39, 978–985.
  • CHOW, K. S., and KHOR, E., 2000, Novel fabrication of open-pore chitin matrixes. Biomacromolecules, 1, 61–67.
  • ESPELETA, I., IRACHE, J. M., GUEGUEN, J., and ORECCHIONI, A. M., 1997, Properties of glutaraldehyde cross-linked vicilin nano- and microparticles. Journal of Microencapsulation, 14, 557–565.
  • GUPTA, P. K., and HUNG, C. T., 1989, Review. Albumin microspheres II: applications in drug delivery. Journal of Microencapsulation, 6, 463–472.
  • HAYASHI, T., 1993, Polymer microspheres as carriers of the immobilized enzymes. Macromolecular Symposia, 70/71, 137–145.
  • HEELAN, B. A., and CORRIGAN, 0. I., 1997, In-vitro analysis of the release of incorporated agents from sodium caseinate microspheres. Journal of Microencapsulation, 14, 63–78.
  • HEELAN, B. A., and CORRIGAN, 0. I., 1998, Preparation and evaluation of microspheres prepared from whey protein isolate. Journal of Microencapsulation, 15, 93–105. HUDAK, S. F., 1983, Methods for producing atomized microporous substances. US Patent number 4,389,422.
  • IAMETTI, S., CAIROLI, S., DE GREGORI, B., and BONOMI, F., 1995, Modifications of high-order structures upon heating of 13-lactoglobulin: dependence on the protein concentration. Journal of Agriculture and Food Chemistry, 43, 53–58.
  • IRACHE, J. M., BERGOUGNOUX, L., ESPELETA, I., GUEGUEN, J., and ORECHIONI, A. M., 1995, Optimization and in-vitro stability of legumin nanoparticles obtained by a coacervation method. International Journal of Pharmaceutics, 126, 103-109. JUST, R., DANNENBERG, F., and RUSSET, J., 1989, Heat-set gels based on oil/water emulsions: an application of whey protein functionality. Food Microstructure, 8, 23–28.
  • KNEPP, W. A., JAYAKRISHNAN, A., QUIGG, J. M., BITREN, H. S., BAGNALL, J. J., and GOLDBERG, E. P., 1993, Synthesis, properties and intratumoral evaluation of mitoxantrone-loaded casein microspheres in Lewis lung carcinoma. Journal of Pharmacy and Pharmacology, 45, 887–891.
  • KUMAR, M. N. V. R., 2000, Nano and microparticles as controlled drug delivery. Journal of Pharmacology and Pharmaceutical Science, 3, 234–258.
  • LANGTON, M., and HERMANSSON, A.-M., 1992, Fine-stranded and particulate gels of b-lactoglobulin and whey protein at varying pH. Food Hydrocolloids, 5, 523–539.
  • LATHA, M. S., and JAYAKRISHNAN, A., 1994, Glutaraldehyde cross-linked bovine case in microspheres as a matrix for the controlled release of theophylline: in-vitro studies. Journal of Pharmacy and Pharmacology, 46, 8–13.
  • LATHA, M. S., JAYAKRISHNAN, A., RATHIMAN, K., and MOHANTY, M., 1994, Casein as a carrier matrix for 5-fluorouracil: drug release from microspheres, drug-protein conjugates and in-vivo degradation of microspheres in rat muscle. Journal of Pharmacy and Pharmacology, 46, 858–862.
  • LATHA, M. S., RATHINAM, K., MOHANAN, P. V., and JAYAKRISHNAN, A., 1995, Bioavailability of theophylline from glutaraldehyde cross-linked microspheres in rabbits following oral administration. Journal of Controlled Release, 34, 1–7.
  • LE BON, C., NICOLAI, T., and DURAND, D., 1999, Kinetics of aggregation and gelation of globular proteins after heat-induced denaturation. Macromolecules, 32, 6120–6127.
  • LEE, S. J., and ROSENBERG, M., 1999, Preparation and properties of glutaraldehyde cross-linked whey protein-based microcapsules containing theophylline. Journal of Controlled Release, 61, 123–136.
  • LEE, S. L., and ROSENBERG, M., 2000a, Whey protein-based microcapsules prepared by double emulsification and heat gelation. Food Science and Technology, LWT, 33, 80–88.
  • LEE, S. L., and ROSENBERG, M., 2000b, Preparation and some properties of water-insoluble, whey protein-based microcapsules. Journal of Microencapsulation, 17, 29–44.
  • LEE, S. J., and ROSENBERG, M., 2000c, Microencapsulation of theophylline in whey proteins: effects of core-to-wall ratio. International Journal of Pharmaceutics, 205, 147–158.
  • LEE, S. J., and ROSENBERG, M., 2001, Microencapsulation of theophylline in composite wall system consisting of whey proteins and lipids. Journal of Microencapsulation, 18, 309–321.
  • LEVY, M. C., and ANDRY, M. C., 1990, An evaluation of gelatin microcapsules prepared using interfacial cross-linking process. Life Science Advances, 19, 219–227.
  • LIN, W., COMBES, A. G. A., DAVIES, M. C., DAVIS, S. S., and ILLum, L., 1993, Preparation of sub-100 nm human serun albumin nanospheres using a pH-coacervation method. Journal of Drug Targeting, 1, 237–243.
  • Liu, L. S., FROIX, M., HELLER, J., and NG, S. Y., 2001, Bioerodible porous compositions. US Patent number 6,238,705B1.
  • LONGO, E. W., IWATA, H., LINDHEIMER, A., and GOLDBERG, E. P., 1982, Preparation of hydrophilic albumin microspheres using polymeric dispersing agents. Journal of Pharmaceutical Sciences, 71, 1323–1328.
  • MARANGONI, A. G., BARBUT, S., MCGAULEY, S. E., MARCONE, M., and NARINE, S. S., 2000, On the structure of particulate gels-the case of salt-induced cold gelation of heat-denatured whey protein isolate. Food Hydrocolloids, 14, 61–74.
  • MCCLEMENTS, D. J., MONAHAN, F. J., and KINSELLA, J. E., 1993, Effect of emulsion droplets on the rheology of whey protein isolate gels. Journal of Texture Studies, 24, 411–422.
  • MOR, Y., SHOEMAKER, C. F., and ROSENBERG, M., 1999, Compressive properties of whey protein composite gels containing fractionated milkfat. Journal of Food Science, 64, 1078–1083.
  • MOR-ROSENBERG, Y. SHOEMAKER, C. F., and ROSENBERG, M., 2004, Mechanical properties of composite gels consisting of fractionated whey proteins and fractionated milk fat. Food Hydrocolloids, 18, 153–166.
  • Moils, C. V., and HA, E. W. Y., 1993, Whey protein concentrates and isolates: processing and functional properties. Critical Reviews in Food Science and Nutrition, 33, 431–476.
  • MORRIS, V. J., 1998, Gelation of polysaccharides. In Functional Properties of Food Macromolecules, edited by S. E. Hill, D. A. Ledward and J. R. Mitchell (Gaithersburg, MA: Aspen Publishers), pp. 143–214.
  • NUSSINOVITCH, A., 2000, Temperature-stable liquid cells. US Patent number 6,099,876. NUSSINOVITCH, A., GERSHON, Z., and NUSSINOVITCH, M., 1996, Liquid-core hydrocolloid capsules. Food Hydrocolloids, 10, 21–26.
  • NUSSINOVITCH, A., GERSHON, Z., and NUSSINOVITCH, M., 1997, Temperature stable liquid core hydrocolloid capsules. Food Hydrocollids, 11, 209–215.
  • ONER, L., and GROVES, M. J., 1993, Optimization of conditions for preparing 2-5 micron range microparticles by using chilled dehydration agents. Archives of Pharmaceuticals Research, 10, 621–626.
  • PARK, H.-Y., CHoi, C.-R., Kim, J.-H., and Kim, W.-S., 1998, Effect of pH on drug release from polysaccharide tablets. Drug Delivery, 5, 13–18.
  • RAYMOND, G., DEGENNARO, M., and MIKEAL, R., 1990, Preparation of gelatin:phenytoin sodium microspheres: an in vitro and in vivo evaluation. Drug Development and Industrial Pharmacy, 16, 1025–1051.
  • ROSENBERG, M., and LEE, S. L., 1993, Microstructure of whey protein/anhydrous milkfat emulsions. Food Structure, 12, 267–274.
  • ROSSLER, B., KREUTER, J., and SCHERER, D., 1995, Collagen microparticles: preparation and properties. Journal of Microencapsulation, 12, 49–57.
  • SALEH, A. M., EL-KORDAGUI, L. K., Ross, D. A., and FLORENCE, A. T., 1989, Effect of some drugs and additives on the cross-linking of bovine serum albumin by glutaraldehyde. International Journal of Pharmceutics, 57, 205–210.
  • SATPATHY, G., and ROSENBERG, M., 2003, Encapsulation of chlorothiazide in whey proteins: effects of wall-to-core ratio and cross-linking conditions on microcapsule properties and drug release. Journal of Microencapsulation, 20, 227–245.
  • SHAH, M. V., DE GENNARO, D. M., and SURYAKASUMA, H., 1987, An evaluation of albumin microcapsules prepared using a multiple emulsion technique. Journal of Microencapsulation, 4, 223–238.
  • UGWOKE, M. I., and KINGET, R., 1998, Influence of processing variables on the properties of gelatin microspheres prepared by the emulsification solvent extraction technique. Journal of Microencapsulation, 15, 273–281.
  • VERHEUL, M., and ROEFS, S. P. F. M., 1998a, Structure of whey protein gels studied by permeability, scanning electron microscopy and rheology. Food Hydrocolloids, 12, 17–24.
  • VERHEUL, M., and ROEFS, S. P. F. M., 1998b, Structure of particulate whey protein gels: effects of NaC1 concentration, pH, heating temperature, and protein composition. Journal of Agriculture and Food Chemistry, 46, 4909–4916.
  • WILLMOTT, Y., MAGEE, G. A., CUMMINGS, J., HALBERT, G. W., and SMITH, J. F., 1992, Doxorubicin-loaded casein microspheres: protean nature of drug incorporation. Journal of Pharmacy and Pharmacology, 44, 472–475.
  • YOTSUYANAGI, T., OHKUBA, T., OHHASHI, T., and IKEDA, K., 1987, Calcium-induced gelation of alginic acid and pH-sensitive swelling of dried gels. Chemical Pharmaceutical Bulletin, 35, 1555–1563.
  • YOTSUYANAGI, T., YOSHIOKA, I., SEGI, N., and IKEDA, K., 1991, Acid-induced and calcium-induced gelation of alginic acid: Bead formation and pH-dependent swelling. Chemical Pharmaceutical Bullitin, 39, 1072–1074.
  • ZELLER, B. L., and SALEEB, F. Z., 1996, Production of microporous sugars for adsorption of volatile flavors. Journal of Food Science, 61, 749-752, 765.
  • ZELLER, B. L., McKAY, R. P., and SALEEB, F. Z., 1987, Methods and manufacture for moisture-stable inorganic microporous saccharide salt. US Patent number 4,659,390.
  • ZELLER, B. L., SALEEB, F. Z., and LUDESCHER, R. D., 1999, Trends in development of porous carbohydrate food ingredients for use in flavor encapsulation. Trends in Food Science and Technology, 9, 389–394.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.