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Original Articles

In vitro survival of Bifidobacterium bifidum microencapsulated in zein-coated alginate hydrogel microbeads

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Pages 192-203 | Received 05 Jan 2019, Accepted 09 May 2019, Published online: 28 May 2019

References

  • Andriantsoanirina, V., et al., 2013. Tolerance of Bifidobacterium human isolates to bile, acid and oxygen. Anaerobe, 21, 39–42.
  • Arslan, S., et al., 2015. Microencapsulation of probiotic Saccharomyces cerevisiae var. boulardii with different wall materials by spray drying. LWT – Food science and technology, 63 (1), 685–690.
  • Arslan-Tontul, S. and Erbas, M., 2017. Single and double layered microencapsulation of probiotics by spray drying and spray chilling. LWT – Food science and technology, 81, 160–169.
  • Atia, A., et al., 2018. Study and understanding behavior of alginate-inulin synbiotics beads for protection and delivery of antimicrobial-producing probiotics in colonic simulated conditions. Probiotics and antimicrobial proteins, 10 (2), 157–167.
  • Aumelas, A., et al., 2007. Nanoparticles of hydrophobically modified dextrans as potential drug carrier systems. Colloids and surfaces B: Biointerfaces, 59 (1), 74–80.
  • Borgogna, M., et al., 2010. Food microencapsulation of bioactive compounds: Rheological and thermal characterisation of non-conventional gelling system. Food chemistry, 122 (2), 416–423.
  • Brinques, G.B., and Ayub, M., 2011. Effect of microencapsulation on survival of Lactobacillus plantarum in simulated gastrointestinal conditions, refrigeration, and yogurt. Journal of food engineering, 103 (2), 123–128.
  • Burns, P., et al., 2012. Technological and probiotic role of adjunct cultures of non-starter lactobacilli in soft cheeses. Food microbiology, 30 (1), 45–50.
  • Chang, C., et al., 2017. Caseinate-zein-polysaccharide complex nanoparticles as potential oral delivery vehicles for curcumin: Effect of polysaccharide type and chemical cross-linking. Food hydrocolloids, 72, 254–262.
  • Chávarri, M., et al., 2010. Microencapsulation of a probiotic and prebiotic in alginate-chitosan capsules improves survival in simulated gastro-intestinal conditions. International journal of food microbiology, 142 (1–2), 185–189.
  • Chen, Y., et al., 2018. Effect of zein-based microencapsules on the release and oxidation of loaded limonene. Food hydrocolloids, 84, 330–336.
  • Chen, H. and Zhong, Q., 2015. A novel method of preparing stable zein nanoparticle dispersions for encapsulation of peppermint oil. Food hydrocolloids, 43, 593–602.
  • Cho, S.Y., Lee, S.Y., and Rhee, C., 2010. Edible oxygen barrier bilayer film pouches from corn zein and soy protein isolate for olive oil packaging. LWT - Food science and technology, 43 (8), 1234–1239.
  • Chuacharoen, T. and Sabliov, C.M., 2016a. The potential of zein nanoparticles to protect entrapped β-carotene in the presence of milk under simulated gastrointestinal (GI) conditions. LWT - Food science and technology, 72, 302–309.
  • Chuacharoen, T. and Sabliov, C.M., 2016b. Stability and controlled release of lutein loaded in zein nanoparticles with and without lecithin and pluronic F127 surfactants. Colloids and surfaces A: Physicochemical and engineering aspects, 503, 11–18.
  • Cook, M.T., et al., 2012. Microencapsulation of probiotics for gastrointestinal delivery. Journal of controlled release, 162 (1), 56–67.
  • Dai, L., et al., 2017. Structural characterization, formation mechanism and stability of curcumin in zein-lecithin composite nanoparticles fabricated by antisolvent co-precipitation. Food chemistry, 237, 1163–1171.
  • Di Pierro, P., et al., 2011. Chitosan/whey protein film as active coating to extend Ricotta cheese shelf-life. LWT - Food science and technology, 44 (10), 2324–2327.,
  • Donsì, F., et al., 2017. Zein-based colloidal particles for encapsulation and delivery of epigallocatechin gallate. Food hydrocolloids, 63, 508–517.
  • Filippidi, E., et al., 2014. All-natural oil-filled microcapsules from water-insoluble proteins. Advanced functional materials, 24 (38), 5962–5968.
  • Fu, D., et al., 2019. Encapsulation of β-carotene in wheat gluten nanoparticle-xanthan gum-stabilized Pickering emulsions: Enhancement of carotenoid stability and bioaccessibility. Food hydrocolloids, 89, 80–89.
  • Gadaleta, R.M., Garcia-Irigoyen, O., and Moschetta, A., 2017. Bile acids and colon cancer: Is FXR the solution of the conundrum? Molecular aspects of medicine, 56, 66–74.
  • Galus, S. and Kadzińska, J., 2016. Whey protein edible films modified with almond and walnut oils. Food hydrocolloids, 52, 78–86.
  • Han, Y.-L., et al., 2014. Preparation of transparent zein films for cell culture applications. Colloids and surfaces. B, biointerfaces, 120, 55–62.
  • Hu, D., et al., 2012. Preparation, characterization, and in vitro release investigation of lutein/zein nanoparticles via solution enhanced dispersion by supercritical fluids. Journal of food engineering, 109 (3), 545–552.
  • Huang, S., et al., 2017a. Spray drying of probiotics and other food-grade bacteria: A review. Trends in food science and technology, 63, 1–17.
  • Huang, X., et al., 2017b. Resveratrol encapsulation in core-shell biopolymer nanoparticles: impact on antioxidant and anticancer activities. Food hydrocolloids, 64, 157–165.
  • Jena, R., et al., 2017. Isolation and species delineation of genus Bifidobacterium using PCR-RFLP of partial hsp60 gene fragment. LWT, 80, 286–293.
  • Klemmer, K.J., et al., 2011. Pea protein‐based capsules for probiotic and prebiotic delivery. International journal of food science and technology, 46, 2248–2256.
  • Krasaekoopt, W., Bhandari, B., and Deeth, H., 2003. Evaluation of encapsulation techniques of probiotics for yoghurt. International dairy journal, 13 (1), 3–13.
  • Li, M.-F., et al., 2018. The formation of zein-chitosan complex coacervated particles: relationship to encapsulation and controlled release properties. International journal of biological macromolecules, 116, 1232–1239.
  • Liang, J., et al., 2017. Encapsulation of epigallocatechin gallate in zein/chitosan nanoparticles for controlled applications in food systems. Food chemistry, 231, 19–24.
  • Liao, L.-K., et al., 2017. Microencapsulation of Lactobacillus casei LK-1 by spray drying related to its stability and in vitro digestion. LWT – Food science and technology, 82, 82–89.
  • Li, M., Cai, S. Y., and Boyer, J.L., 2017. Mechanisms of bile acid mediated inflammation in the liver. Molecular aspects of medicine, 56, 45–53.
  • Liu, L., et al., 2016. Effect of microencapsulation with Maillard reaction products of whey proteins and isomaltooligosaccharide on the survival of Lactobacillus rhamnosus. LWT, 73, 37–43.
  • Liu, Q., et al., 2019. Encapsulation of curcumin in zein/caseinate/sodium alginate nanoparticles with improved physicochemical and controlled release properties. Food hydrocolloids, 93, 432–442.
  • Liu, X., et al., 2005. Microspheres of corn protein, zein, for an ivermectin drug delivery system. Biomaterials, 26 (1), 109–115.,
  • Long, S.L., Gahan, C.G.M., and Joyce, S.A., 2017. Interactions between gut bacteria and bile in health and disease. Molecular aspects of medicine, 56, 54–65.
  • Luo, J.Z., et al., 2017. Experimental investigations of liquid-liquid dispersion in a novel helical tube reactor. Chemical engineering and processing: Process intensification, 117, 162–170.
  • Luo, Y., et al., 2013. Encapsulation of indole-3-carbinol and 3,3′-diindolylmethane in zein/carboxymethyl chitosan nanoparticles with controlled release property and improved stability. Food chemistry, 139 (1–4), 224–230.
  • Marques Da Silva, T., et al., 2018. Development and characterization of microcapsules containing Bifidobacterium Bb-12 produced by complex coacervation followed by freeze drying. LWT, 90, 412–417.
  • Martinot, E., et al., 2017. Bile acids and their receptors. Molecular aspects of medicine, 56, 2–9.
  • Mcfarland, L.V. and Dublin, S., 2008. Meta-analysis of probiotics for the treatment of irritable bowel syndrome. World journal of gastroenterology, 14 (17), 2650–2661.
  • Nazzaro, F., et al., 2012. Microencapsulation in food science and biotechnology. Current opinion in biotechnology, 23 (2), 182–186.
  • Nualkaekul, S., et al., 2012. Chitosan coated alginate beads for the survival of microencapsulated Lactobacillus plantarum in pomegranate juice. Carbohydrate polymers, 90 (3), 1281–1287.
  • Nunes, G.L., et al., 2018. Inulin, hi-maize, and trehalose as thermal protectants for increasing viability of Lactobacillus acidophilus encapsulated by spray drying. LWT, 89, 128–133.
  • Pauluk, D., et al., 2019. Chitosan-coated zein nanoparticles for oral delivery of resveratrol: Formation, characterization, stability, mucoadhesive properties and antioxidant activity. Food hydrocolloids, 94, 411–417.
  • Peredo, A.G., et al., 2016. The effect of prebiotics on the viability of encapsulated probiotic bacteria. LWT, 73, 191–196.
  • Pinto, S.S., et al., 2015. Influence of microencapsulation with sweet whey and prebiotics on the survival of Bifidobacterium-BB-12 under simulated gastrointestinal conditions and heat treatments. LWT – Food science and technology, 64 (2), 1004–1009.
  • Ruiz, L., et al., 2007. Cell envelope changes in Bifidobacterium animalis ssp. lactis as a response to bile. FEMS microbiology letters, 274 (2), 316–322.
  • Ruiz, L., et al., 2011. Evaluation of the ability of Bifidobacterium longum to metabolize human intestinal mucus. FEMS microbiology letters, 314 (2), 125–130.
  • Shi, L.-E., et al., 2013. Encapsulation of probiotic Lactobacillus bulgaricus in alginate–milk microspheres and evaluation of the survival in simulated gastrointestinal conditions. Journal of food engineering, 117 (1), 99–104.
  • Siciliano, R.A. and Mazzeo, M.F., 2012. Molecular mechanisms of probiotic action: a proteomic perspective. Current opinion in microbiology, 15 (3), 390–396.
  • Valero-Cases, E. and Frutos, M.J., 2015. Effect of different types of encapsulation on the survival of Lactobacillus plantarum during storage with inulin and in vitro digestion. LWT - Food science and technology, 64 (2), 824–828.
  • Volle, D.H., 2017. Bile acids, roles in integrative physiology and pathophysiology. Molecular aspects of medicine, 56, 1.
  • Voo, W.-P., et al., 2011. Comparison of alginate and pectin based beads for production of poultry probiotic cells. Journal of bioscience and bioengineering, 111 (3), 294–299.,
  • Xu, M., et al., 2016. Encapsulation of Lactobacillus casei ATCC 393 cells and evaluation of their survival after freeze-drying, storage and under gastrointestinal conditions. Journal of food engineering, 168, 52–59.
  • Yao, M., et al., 2017. Microencapsulation of Lactobacillus salivarious Li01 for enhanced storage viability and targeted delivery to gut microbiota. Food hydrocolloids, 72, 228–236.
  • Yasmin, I., et al., 2018., Development of whey protein concentrate-pectin-alginate based delivery system to improve survival of B. longum BL-05 in simulated gastrointestinal conditions. Probiotics and antimicrobial proteins. DOI:10.1007/s12602-018-9407-x.
  • Zhang, Y., et al., 2015. Zein-based films and their usage for controlled delivery: origin, classes and current landscape. Journal of controlled release, 206, 206–219.
  • Zhang, Y., et al., 2016. Design, fabrication and biomedical applications of zein-based nano/micro-carrier systems. International journal of pharmaceutics, 513 (1–2), 191–210.

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