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Abstract:

New eating habits and diversification of tastes of consumers have led to the scientific community and the food industry to expand the range of probiotic foods and novel probiotic ingredients. Scant information is available about the viability and functionality of probiotics during shelf life and its effect on the nutritional characteristics of dairy-free products. The aim of the study was to formulate a fermented dairy-free dessert using a novel food ingredient based on a pumpkin by-product and containing Lactobacillus casei (ATCC®393™) (NFI). The effect of NFI and the soluble solids (SS) of soy milk on the probiotic viability, physical stability, colour, and firmness of dairy-free dessert was studied using a response surface methodology. The different levels of SS and NFI significantly (p < 0.05) affected the response variables. Thereafter, two formulations were selected and the physico-chemical, nutritional and organoleptic characterization were evaluated. The L. casei count reached the desired therapeutic level (>107 UFC mL-1) after gastrointestinal digestion at 21 days of storage. In general, both the fermentation process and storage reduced (p < 0.05) the content of phytic acid, raffinose and stachyose, which implies a nutritional improvement of the final product. Scores above 5.0 on a 9-point scale were obtained for colour, odour, texture and overall acceptability in the consumer acceptance test. Therefore, a dairy-free dessert with good physical properties, suitable nutritional characteristics, and sensorial acceptability could be successfully formulated with the NFI. © 2018 The Royal Society of Chemistry.

Registro:

Documento: Artículo
Título:The functional and organoleptic characterization of a dairy-free dessert containing a novel probiotic food ingredient
Autor:Genevois, C.E.; Castellanos Fuentes, A.P.; Flores, S.K.; De Escalada Pla, M.F.
Filiación:Universidad de Buenos Aires (UBA), Facultad de Ciencias Exactas y Naturales (FCEN), Departamento de Industrias, Intendente Güiraldes 2160, Ciudad Autónoma de Buenos Aires, C1428EGA, Argentina
CONICET - Universidad de Buenos Aires, Instituto de Tecnología de Alimentos y Procesos Químicos (ITAPROQ), Buenos Aires, Argentina
Palabras clave:Acceptance tests; Dairies; Food additives; Consumer acceptance; Fermentation process; Gastrointestinal digestion; Nutritional characteristics; Nutritional improvement; Overall acceptability; Response surface methodology; Scientific community; Food microbiology
Año:2018
Volumen:9
Número:11
Página de inicio:5697
Página de fin:5706
DOI: http://dx.doi.org/10.1039/c8fo00805a
Título revista:Food and Function
Título revista abreviado:Food. Funct.
ISSN:20426496
Registro:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_20426496_v9_n11_p5697_Genevois

Referencias:

  • Choi, S.S., Kim, Y., Han, K.S., You, S., Oh, S., Kim, S.H., (2006) Lett. Appl. Microbiol., 42, pp. 452-458
  • Abd El Helim, M., Hashem, S., Essam, T., Mohamed, O., (2016) Clin. Microbiol.: Open Access, 5, pp. 3-6
  • Lye, H.-S., Rusul, G., Liong, M.-T., (2010) J. Dairy Sci., 93, pp. 1383-1392
  • Saxami, G., Ypsilantis, P., Sidira, M., Simopoulos, C., Kourkoutas, Y., Galanis, A., (2012) Anaerobe, 18, pp. 417-420
  • Sidira, M., Galanis, A., Ypsilantis, P., Karapetsas, A., Progaki, Z., Simopoulos, C., Kourkoutas, Y., (2010) J. Mol. Microbiol. Biotechnol., 19, pp. 224-230
  • Tiptiri Kourpeti, A., Aindelis, G., Spyridopoulou, K., Santarmaki, V., Tompoulidou, E., Saxami, G., Simopoulos, C., Chlichlia, K., (2015) J. Biotechnol., 208, p. S83
  • (2006) Probiotics in Food: Health and Nutritional Properties and Guidelines for Evaluation, , WHO/FAO, Rome
  • Senaka Ranadheera, C., Evans, C.A., Adams, M.C., Baines, S.K., (2012) FRIN, 49, pp. 619-625
  • Reale, A., Di Renzo, T., Rossi, F., Zotta, T., Iacumin, L., Preziuso, M., Parente, E., Coppola, R., (2015) LWT-Food Sci. Technol., 60, pp. 721-728
  • Tripathi, M.K., Giri, S.K., (2014) J. Funct. Foods, 9, pp. 225-241
  • Mishra Pandey, S., Mishra, H.N., (2015) LWT-Food Sci. Technol., 62, pp. 458-467
  • Martins, E.M.F., Ramos, A.M., Vanzela, E.S.L., Stringheta, P.C., De Oliveira Pinto, C.L., Martins, J.M., (2013) Food Res. Int., 51, pp. 764-770
  • Genevois, C.E., Flores, S., De Escalada Pla, M., (2016) J. Funct. Foods, 23, pp. 210-219
  • Guergoletto, K.B., Magnani, M., Martin, J.S., Tardeli De Jesus Andrade, C.G., Garcia, S., (2010) Innovative Food Sci. Emerging Technol., 11, pp. 415-421
  • Soukoulis, C., Yonekura, L., Gan, H.H., Behboudi-Jobbehdar, S., Parmenter, C., Fisk, I., (2014) Food Hydrocolloids, 39, pp. 231-242
  • Donkor, O.N., Henriksson, A., Vasiljevic, T., Shah, N.P., (2007) Agric. Food Chem., 55, pp. 9868-9876
  • Içier, F., Günduz, G.T., Yilmaz, B., Memeli, Z., (2015) LWT-Food Sci. Technol., 63, pp. 57-64
  • Li, C., Li, W., Chen, X., Feng, M., Rui, X., Jiang, M., Dong, M., (2014) LWT-Food Sci. Technol., 57, pp. 477-485
  • Shilpi, A., Kumar, P., (2013) J. Food Process. Technol., 4, pp. 4-11
  • Battistini, C., Gullón, B., Ichimura, E.S., Gomes, A.M.P., Ribeiro, E.P., Kunigk, L., Moreira, J.U.V., Jurkiewicz, C., (2017) Braz. J. Microbiol., pp. 8-14
  • Schlemmer, U., Frølich, W., Prieto, R.M., Grases, F., (2009) Mol. Nutr. Food Res., 53, pp. 330-375
  • Wang, Y.C., Yu, R.C., Yang, H.Y., Chou, C.C., (2003) Food Microbiol., 20, pp. 333-338
  • Amaral, T.N., Junqueira, L.A., Torres Prado, M.E., Cirillo, M.A., Ronaldo De Abreu, L., Costa, F.F., Vilela De Resende, J., (2017) Food Hydrocolloids, 79, pp. 331-342
  • Granato, D., Branco, G.F., Nazzaro, F., Cruz, A.G., Faria, J.A., (2010) Compr. Rev. Food Sci. Food Saf., 9, pp. 292-302
  • De Escalada Pla, M.F., Ponce, N.M., Stortz, C.A., Gerschenson, L.N., Rojas, A.M., (2007) LWT-Food Sci. Technol., 40, pp. 1176-1185
  • Genevois, C.E., (2017), PhD thesis, Universidad de Buenos Aires; Guggisberg, D., Cuthbert-Steven, J., Piccinali, P., Bütikofer, U., Eberhard, P., (2009) Int. Dairy J., 19, pp. 107-115
  • Granato, D., Bigaski Ribeiro, J.C., Castro, I.A., Masson, M.L., (2010) Food Chem., 121, pp. 899-906
  • Horwitz, W., Latimer, G.W., (2006) Official Methods of Analysis of AOAC International, , AOAC International, USA
  • (2003) Food Energy-methods of Analysis and Conversion Factors, , FAO, Italy
  • Gao, Y., Shang, C., Saghai Maroof, M.A., Biyashev, R.M., Grabau, E.A., Kwanyuen, P., Burton, J.W., Buss, G.R., (2007) Crop Sci., 47, pp. 1797-1803
  • Lai, L.-R., Hsieh, S.-C., Huang, H.-Y., Chou, C.-C., (2013) J. Biosci. Bioeng., 115, pp. 552-556
  • Kim, S.L., Lee, J.-E., Kwon, Y.-U., Kim, W.-H., Jung, G.-H., Kim, D.-W., Lee, C.-K., Chung, I.-M., (2013) Food Chem., 136, pp. 491-500
  • Lawless, H.T., Heymann, H., (2010) Sensory Evaluation of Food. Principles and Practices, , Springer Science Business Media, LLC, New York, USA, 2nd edn
  • Meilgaard, M.C., Civille, G.V., Carr, B.T., (2007) Sensory Evaluation Techniques, , CRC Press Taylor & Francis Group, Florida, USA
  • Montgomery, D.C., (2008) Design and Analysis of Experiments, , John Wiley & Sons, Inc., New Jersey, USA
  • Nieto Calvache, J.E., Fissore, E.N., Latorre, M.E., Soria, M., De Escalada Pla, M.F., Gerschenson, L.N., (2015) LWT-Food Sci. Technol., 62, pp. 1169-1176
  • (2011) Resolución Conjunta 261/2011 y 22/2011, , ANMAT, Argentina
  • Genevois, C., De Escalada Pla, M., Flores, S., (2017) LWT-Food Sci. Technol., 79, pp. 34-41
  • Ferragut, V., Cruz, N.S., Trujillo, A., Guamis, B., Capellas, M., (2009) J. Food Eng., 92, pp. 63-69
  • De Escalada Pla, M., Eim, V., Roselló, C., Gerschenson, L.N., Femenia, A., (2015) Dietary Fiber: Production Challenges, Food Sources and Health Benefits, pp. 93-113. , ed. M. Clemens, Nova Science Publishers, Inc., Hauppauge, NY, USA
  • Pathare, P.B., Opara, U.L., Al-Said, F.A.J., (2013) Food Bioprocess Technol., 6, pp. 36-60
  • Sengupta, S., Goswami, R., Basu, S., Bhowal, J., (2016) Mater. Today, 3, pp. 3222-3237
  • Damodaran, S., Parkin, K., Fennema, O., (2008) Fennema's Food Chemistry, , CRC Press Taylor & Francis Group, Florida, USA
  • Tang, A.L., Wilcox, G., Walker, K.Z., Shah, N.P., Ashton, J.F., Stojanovska, L., (2010) J. Food Sci., 75, pp. 373-376
  • Tang, A.L., Wilcox, G., Walker, K.Z., Shah, N.P., Ashton, J.F., Stojanovska, L., (2010) J. Food Sci., 75, pp. 373-376
  • Al-Wahsh, I.A., Horner, H.T., Palmer, R.G., Reddy, M.B., Massey, L.K., (2005) J. Agric. Food Chem., 53, pp. 5670-5674
  • LeBlanc, J.G., Silvestroni, A., Connes, C., Juillard, V., Savoy De Giori, G., Piard, J.-C., (2004) GMR, Genet. Mol. Res., 3, pp. 432-440
  • Gänzle, M.G., Follador, R., (2012) Front. Microbiol., 3, pp. 1-15
  • Rivera-Espinoza, Y., Gallardo-Navarro, Y., (2010) Food Microbiol., 27, pp. 1-11
  • Yoon, M.Y., Hwang, H.J., (2008) Food Microbiol., 25, pp. 815-823
  • Blagden, T.D., Gilliland, S.E., (2005) JFS-M: Food Microbiol. Saf., 70, pp. 2-5

Citas:

---------- APA ----------
Genevois, C.E., Castellanos Fuentes, A.P., Flores, S.K. & De Escalada Pla, M.F. (2018) . The functional and organoleptic characterization of a dairy-free dessert containing a novel probiotic food ingredient. Food and Function, 9(11), 5697-5706.
http://dx.doi.org/10.1039/c8fo00805a
---------- CHICAGO ----------
Genevois, C.E., Castellanos Fuentes, A.P., Flores, S.K., De Escalada Pla, M.F. "The functional and organoleptic characterization of a dairy-free dessert containing a novel probiotic food ingredient" . Food and Function 9, no. 11 (2018) : 5697-5706.
http://dx.doi.org/10.1039/c8fo00805a
---------- MLA ----------
Genevois, C.E., Castellanos Fuentes, A.P., Flores, S.K., De Escalada Pla, M.F. "The functional and organoleptic characterization of a dairy-free dessert containing a novel probiotic food ingredient" . Food and Function, vol. 9, no. 11, 2018, pp. 5697-5706.
http://dx.doi.org/10.1039/c8fo00805a
---------- VANCOUVER ----------
Genevois, C.E., Castellanos Fuentes, A.P., Flores, S.K., De Escalada Pla, M.F. The functional and organoleptic characterization of a dairy-free dessert containing a novel probiotic food ingredient. Food. Funct. 2018;9(11):5697-5706.
http://dx.doi.org/10.1039/c8fo00805a