Altamirano-Fortoul,R., Moreno-Terrazas,R., Quezada-Gallo,A. andRosell,C.M. 2012. Viability of some probiotic coatings in bread and its effect on the crust mechanical properties. Food Hydrocolloids. 29(1):166–174.
Anal,A.K. andSingh,H.2007. Recent advances in microencapsulation of probiotics for industrial applications and targeted delivery. Trends in Food Science andTechnology. 18(5):240–251.
Burgain,J., Gaiani,C., Linder,M. andScher,J .2011. Encapsulation of probiotic living cells: From laboratory scale to industrial applications. Journal of Food Engineering. 104(4):467–483.
Capela,P., Hay,T.K.C. andShah,N.P.2006. Effect of cryoprotectants, prebiotics and microencapsulation on survival of probiotic organisms in yoghurt and freeze-dried yoghurt. Food Research International. 39(2):203–211.
Corcoran,B.M., Ross,R.P., Fitzgerald,G.F.andStanton,C.2004. Comparative survival of probiotic lactobacilli spray‐dried in the presence of prebiotic substances. Journal of Applied Microbiology. 96(5): 1024–1039.
Dadfar,S.M.M. and Kavoosi,G.2015. Mechanical and water binding properties of carboxymethyl cellulose/multiwalled carbon nanotube nanocomposites. PolymerComposed.36,145–152.(in persian)
Dashipour,A., Razavilar,V., Hosseini,H., Shojaee-Aliabadi,S., German,J., Ghanati,K., Khakpour,M. andKhaksar, R.2015. Antioxidant and antimicrobial carboxymethyl cellulose films containing Zataria multiflora essential oil. International Journal of BiologicalMacromolecules. 72,606–613.
Ferdousi,R., Rouhi,M., Mohammadi,R., Mortazavian,A.M., Khosravi-Darani,K. andHomayouni Rad,A.2013. Evaluation of probiotic survivability in yogurt exposed to cold chain interruption. Iranian Journal of Pharmaceutical Research. 12(Suppl):139.
Fu,N.andChen,X.D.2011. Towards a maximal cell survival in convective thermal drying processes. Food Research International.44(5): 1127–1149.
Gialamas,H., Zinoviadou,K.G., Biliaderis,C.G.andKoutsoumanis,K.P.2010. Development of a novel bioactive packaging based on the incorporation of Lactobacillus sakei into sodium-caseinate films for controlling Listeria monocytogenes in foods. Food Research International. 43(10): 2402–2408.
Gurr,M.I.1987.Nutritional aspects of fermented milk products. FEMS Microbiology Letters. 46(3): 337–342.
Kanmani,P. andLim,S.T.2013. Development and characterization of novel probiotic-residing pullulan/starch edible films. Food Chemistry. 141(2): 1041–1049.
Nobakhti,A.R., Ehsani,M.R., Mousavi,S.M. andMortazavian,A.M.2009. Influence of lactulose and Hi-maize addition on viability of probiotic microorganisms in freshly made synbiotic fermented milk drink. Milchwissenschaft.64(2): 191–193.
Saad,N., Delattre,C., Urdaci,M., Schmitte,r J.M. andBressollier,P.2013. An overview of the last advances in probiotic and prebiotic field. LWT-Food Science and Technology. 50(1):1–16.
Soccol,C.R., de Souza Vandenberghe,L.P., Spier,M.R., Pedroni Medeiros,A.B., Yamaguishi,C.T., De Dea Lindner,J., Pandey,A. andThomaz-Soccol,V.2010. The potential of probiotics: a review. Food Technology and Biotechnology. 48(4): 413–434.
Soukoulis,C., Behboudi-Jobbehdar,S., Yonekura,L., Parmenter,C. andFisk,I. 2014a. Stability of Lactobacillus rhamnosus GG in prebiotic edible films. Food Chemistry. 159,302–308.
Soukoulis,C., Yonekura,L., Gan,H.H., Behboudi-Jobbehdar,S., Parmenter,C. andFisk,I.2014b. Probiotic edible films as a new strategy for developing functional bakery products: The case of pan bread. Food Hydrocolloids. 39,231–242.
Tapia,M.S., RojasGraü,M.A., Rodríguez,F.J., Ramírez,J., Carmona,A. andMartin-Belloso,O.2007.Alginateand GellanBased Edible Films for Probiotic Coatings on FreshCut Fruits. Journal of Food Science.72(4):E190-E196.
Taverniti,V. andGuglielmetti,S.2011. The immunomodulatory properties of probiotic microorganisms beyond their viability (ghost probiotics: proposal of paraprobiotic concept). Genes andNutrition.6(3): 261.
Yadollahi,M., Namazi,H., Barkhordari,S.2014. Preparation and properties of carboxymethyl cellulose/layered double hydroxide bionanocomposite films. Carbohydrate Polymers. 108,83–90.