Effect of heat treatment and spray drying on lactobacilli viability and resistance to simulated gastrointestinal digestion

Effect of heat treatment and spray drying on lactobacilli viability and resistance to simulated gastrointestinal digestion

Commercial probiotic bacteria are delivered mainly as frozen or freeze-dried cultures. However, spray drying is a lower cost technology that could be used for the production of probiotic cultures. In this work we aimed at screening among lactobacilli strains for candidates able to survive to spray drying and to study the effects of a preliminary mild heat treatment and different food matrices on post-drying survival and simulated gastric acid resistance. Heat resistance (survival to exposure at 60 °C for 5 min) in MRS broth or in 10% (wt/vol) skim milk was assessed in 22 strains of Lactobacillus casei, Lactobacillus paracasei, Lactobacillus acidophilus and Lactobacillus plantarum. Five strains (L. casei Nad, L. plantarum com, L. paracasei A13, L. plantarum 8329 and L. acidophilus A9) were selected for spray drying in 20% (wt/vol) skim milk and storage at 5, 25 or 37 °C for 75 days. For L.p. A13, L.p. com and L.a. A9 no differences in cell viability were observed due to spray drying. However, for L.c. Nad and L.p. 8329 cell death due to spray drying was 0.16 and 0.49 log orders CFU ml− 1 when a mild heat treatment (52 °C for 15 min) was applied and 0.85 and 0.95 log cycles, respectively, without preliminary mild heat treatment, showing that heat treatment enhanced survival to spray drying. The application of a heat treatment was effective for enhancing survival during storage of L.p. 8329, irrespective of the storage temperature and period. No significant cell loss at 5 and 25 °C was observed for L.c. Nad. For this strain, at 37 °C no cell counts of lactobacilli were observed after 30 days of storage. For L.a. A9, L.p. com and L.p. A13 a reduction in cell viability was observed along storage as temperature increased. Resistance to simulated gastrointestinal digestion was enhanced by spray drying. The application of a mild heat treatment before spray drying may enhance cell survival during storage and the resistance to gastrointestinal digestion. Spray drying might be used for enhancing cell functionality in a strain-dependant way.

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Bibliographic Details
Main Authors: Paez, Roxana Beatriz, Lavari, Luisina, Vinderola, Celso Gabriel, Audero, Gabriela Maria, Cuatrin, Alejandra, Zaritzky, Noemi Elisabet, Reinheimer, Jorge Alberto
Format: info:ar-repo/semantics/artículo biblioteca
Language:eng
Published: Elsevier 2012-10
Subjects:Lactobacillus, Probióticos, Secado por Pulverización, Tratamiento Térmico, Digestión, Probiotics, Spray Drying, Heat Treatment, Digestion,
Online Access:https://www.sciencedirect.com/science/article/pii/S0963996912002104
http://hdl.handle.net/20.500.12123/4242
https://doi.org/10.1016/j.foodres.2012.06.018
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record_format koha
institution INTA AR
collection DSpace
country Argentina
countrycode AR
component Bibliográfico
access En linea
databasecode dig-inta-ar
tag biblioteca
region America del Sur
libraryname Biblioteca Central del INTA Argentina
language eng
topic Lactobacillus
Probióticos
Secado por Pulverización
Tratamiento Térmico
Digestión
Probiotics
Spray Drying
Heat Treatment
Digestion
Lactobacillus
Probióticos
Secado por Pulverización
Tratamiento Térmico
Digestión
Probiotics
Spray Drying
Heat Treatment
Digestion
spellingShingle Lactobacillus
Probióticos
Secado por Pulverización
Tratamiento Térmico
Digestión
Probiotics
Spray Drying
Heat Treatment
Digestion
Lactobacillus
Probióticos
Secado por Pulverización
Tratamiento Térmico
Digestión
Probiotics
Spray Drying
Heat Treatment
Digestion
Paez, Roxana Beatriz
Lavari, Luisina
Vinderola, Celso Gabriel
Audero, Gabriela Maria
Cuatrin, Alejandra
Zaritzky, Noemi Elisabet
Reinheimer, Jorge Alberto
Effect of heat treatment and spray drying on lactobacilli viability and resistance to simulated gastrointestinal digestion
description Commercial probiotic bacteria are delivered mainly as frozen or freeze-dried cultures. However, spray drying is a lower cost technology that could be used for the production of probiotic cultures. In this work we aimed at screening among lactobacilli strains for candidates able to survive to spray drying and to study the effects of a preliminary mild heat treatment and different food matrices on post-drying survival and simulated gastric acid resistance. Heat resistance (survival to exposure at 60 °C for 5 min) in MRS broth or in 10% (wt/vol) skim milk was assessed in 22 strains of Lactobacillus casei, Lactobacillus paracasei, Lactobacillus acidophilus and Lactobacillus plantarum. Five strains (L. casei Nad, L. plantarum com, L. paracasei A13, L. plantarum 8329 and L. acidophilus A9) were selected for spray drying in 20% (wt/vol) skim milk and storage at 5, 25 or 37 °C for 75 days. For L.p. A13, L.p. com and L.a. A9 no differences in cell viability were observed due to spray drying. However, for L.c. Nad and L.p. 8329 cell death due to spray drying was 0.16 and 0.49 log orders CFU ml− 1 when a mild heat treatment (52 °C for 15 min) was applied and 0.85 and 0.95 log cycles, respectively, without preliminary mild heat treatment, showing that heat treatment enhanced survival to spray drying. The application of a heat treatment was effective for enhancing survival during storage of L.p. 8329, irrespective of the storage temperature and period. No significant cell loss at 5 and 25 °C was observed for L.c. Nad. For this strain, at 37 °C no cell counts of lactobacilli were observed after 30 days of storage. For L.a. A9, L.p. com and L.p. A13 a reduction in cell viability was observed along storage as temperature increased. Resistance to simulated gastrointestinal digestion was enhanced by spray drying. The application of a mild heat treatment before spray drying may enhance cell survival during storage and the resistance to gastrointestinal digestion. Spray drying might be used for enhancing cell functionality in a strain-dependant way.
format info:ar-repo/semantics/artículo
topic_facet Lactobacillus
Probióticos
Secado por Pulverización
Tratamiento Térmico
Digestión
Probiotics
Spray Drying
Heat Treatment
Digestion
author Paez, Roxana Beatriz
Lavari, Luisina
Vinderola, Celso Gabriel
Audero, Gabriela Maria
Cuatrin, Alejandra
Zaritzky, Noemi Elisabet
Reinheimer, Jorge Alberto
author_facet Paez, Roxana Beatriz
Lavari, Luisina
Vinderola, Celso Gabriel
Audero, Gabriela Maria
Cuatrin, Alejandra
Zaritzky, Noemi Elisabet
Reinheimer, Jorge Alberto
author_sort Paez, Roxana Beatriz
title Effect of heat treatment and spray drying on lactobacilli viability and resistance to simulated gastrointestinal digestion
title_short Effect of heat treatment and spray drying on lactobacilli viability and resistance to simulated gastrointestinal digestion
title_full Effect of heat treatment and spray drying on lactobacilli viability and resistance to simulated gastrointestinal digestion
title_fullStr Effect of heat treatment and spray drying on lactobacilli viability and resistance to simulated gastrointestinal digestion
title_full_unstemmed Effect of heat treatment and spray drying on lactobacilli viability and resistance to simulated gastrointestinal digestion
title_sort effect of heat treatment and spray drying on lactobacilli viability and resistance to simulated gastrointestinal digestion
publisher Elsevier
publishDate 2012-10
url https://www.sciencedirect.com/science/article/pii/S0963996912002104
http://hdl.handle.net/20.500.12123/4242
https://doi.org/10.1016/j.foodres.2012.06.018
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spelling oai:localhost:20.500.12123-42422019-01-10T13:01:06Z Effect of heat treatment and spray drying on lactobacilli viability and resistance to simulated gastrointestinal digestion Paez, Roxana Beatriz Lavari, Luisina Vinderola, Celso Gabriel Audero, Gabriela Maria Cuatrin, Alejandra Zaritzky, Noemi Elisabet Reinheimer, Jorge Alberto Lactobacillus Probióticos Secado por Pulverización Tratamiento Térmico Digestión Probiotics Spray Drying Heat Treatment Digestion Commercial probiotic bacteria are delivered mainly as frozen or freeze-dried cultures. However, spray drying is a lower cost technology that could be used for the production of probiotic cultures. In this work we aimed at screening among lactobacilli strains for candidates able to survive to spray drying and to study the effects of a preliminary mild heat treatment and different food matrices on post-drying survival and simulated gastric acid resistance. Heat resistance (survival to exposure at 60 °C for 5 min) in MRS broth or in 10% (wt/vol) skim milk was assessed in 22 strains of Lactobacillus casei, Lactobacillus paracasei, Lactobacillus acidophilus and Lactobacillus plantarum. Five strains (L. casei Nad, L. plantarum com, L. paracasei A13, L. plantarum 8329 and L. acidophilus A9) were selected for spray drying in 20% (wt/vol) skim milk and storage at 5, 25 or 37 °C for 75 days. For L.p. A13, L.p. com and L.a. A9 no differences in cell viability were observed due to spray drying. However, for L.c. Nad and L.p. 8329 cell death due to spray drying was 0.16 and 0.49 log orders CFU ml− 1 when a mild heat treatment (52 °C for 15 min) was applied and 0.85 and 0.95 log cycles, respectively, without preliminary mild heat treatment, showing that heat treatment enhanced survival to spray drying. The application of a heat treatment was effective for enhancing survival during storage of L.p. 8329, irrespective of the storage temperature and period. No significant cell loss at 5 and 25 °C was observed for L.c. Nad. For this strain, at 37 °C no cell counts of lactobacilli were observed after 30 days of storage. For L.a. A9, L.p. com and L.p. A13 a reduction in cell viability was observed along storage as temperature increased. Resistance to simulated gastrointestinal digestion was enhanced by spray drying. The application of a mild heat treatment before spray drying may enhance cell survival during storage and the resistance to gastrointestinal digestion. Spray drying might be used for enhancing cell functionality in a strain-dependant way. EEA Rafaela Fil: Paez, Roxana Beatriz. Instituto Nacional de Tecnología Agropecuaria (INTA). Estación Experimental Agropecuaria Rafaela; Argentina Fil: Lavari, Luisina. Instituto Nacional de Tecnología Agropecuaria (INTA). Estación Experimental Agropecuaria Rafaela; Argentina Fil: Vinderola, Celso Gabriel. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Santa Fe. Instituto de Lactologia Industrial. Universidad Nacional del Litoral. Facultad de Ingeniería Química. Instituto de Lactologia Industrial; Argentina Fil: Audero, Gabriela Maria. Instituto Nacional de Tecnología Agropecuaria (INTA). Estación Experimental Agropecuaria Rafaela; Argentina Fil: Cuatrin, Alejandra. Instituto Nacional de Tecnología Agropecuaria (INTA). Estación Experimental Agropecuaria Rafaela; Argentina Fil: Zaritzky, Noemi Elisabet. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico La Plata. Centro de Investigaciones en Criotecnología de Alimentos; Argentina. Universidad Nacional de La Plata. Facultad de Ciencias Exactas. Centro de Investigación y Desarrollo en Criotecnología de Alimentos; Argentina Fil: Reinheimer, Jorge Alberto. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Santa Fe. Instituto de Lactologia Industrial. Universidad Nacional del Litoral. Facultad de Ingeniería Química. Instituto de Lactologia Industrial; Argentina 2019-01-10T12:56:59Z 2019-01-10T12:56:59Z 2012-10 info:ar-repo/semantics/artículo info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion https://www.sciencedirect.com/science/article/pii/S0963996912002104 http://hdl.handle.net/20.500.12123/4242 0963-9969 https://doi.org/10.1016/j.foodres.2012.06.018 eng info:eu-repo/semantics/restrictedAccess application/pdf Elsevier Food Research International 48 (2) : 748-754 (October 2012)

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