Potato snacks added with active components: effects of the vacuum impregnation and drying processes

Potato snacks can be used as an ideal strategy for nutrient delivery, since they are one of the most widely consumed products in the world. Due to fried snacks are known to be a significant source of fat intake, consumption is changing towards healthier alternatives. The aim of this research is to e...

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Published inJournal of food science and technology Vol. 57; no. 4; pp. 1523 - 1534
Main Authors Duarte-Correa, Yudy, Granda-Restrepo, Diana, Cortés, Misael, Vega-Castro, Oscar
Format Journal Article
LanguageEnglish
Published New Delhi Springer India 01.04.2020
Springer Nature B.V
Subjects
Air drying
Ascorbic acid
Calcium
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Dehydration
Dependent variables
Design of experiments
Effective porosity
Experimental design
Food Science
Freeze drying
Impregnation
Independent variables
Nutrition
Original
Original Article
Porosity
Potatoes
Response surface methodology
Sensory evaluation
Snack foods
Vacuum
Vacuum drying
Vegetables
Vitamin E
Vitamins
Matrix engineering
Potato chips
Functional foods
Fortification
Solanum tuberosum
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Abstract Potato snacks can be used as an ideal strategy for nutrient delivery, since they are one of the most widely consumed products in the world. Due to fried snacks are known to be a significant source of fat intake, consumption is changing towards healthier alternatives. The aim of this research is to evaluate the effect of vacuum impregnation and three dehydration techniques: heated air drying, freeze drying, and microwave vacuum drying of the potato snack that has been fortified with active components: calcium and vitamins C and E. Vacuum impregnation was evaluated using the response surface methodology that had a central composite experimental design with the following independent variables: vacuum pressure, vacuum stage time, and atmospheric stage time. The following were the dependent variables: fraction and volumetric deformation in the vacuum stage and at the end of the process and effective porosity. Finally, a sensorial analysis was carried out on the dehydrated potatoes. The results of the optimal vacuum impregnation process conditions were: a vacuum pressure of 77.3 kPa for 3.0 min followed by 4.0 min at atmospheric pressure. The content of calcium, vitamin C, and vitamin E in the impregnated potato were 956, 472, and 35 mg 100 g −1 dry solids, respectively. The highest retention of the active components in snacks was obtained by the combination of vacuum impregnation and the dehydration techniques in the following order: freeze drying, microwave vacuum drying, and then heated air drying. It can be concluded that the integration processes give an added value to potato snacks due to the increased content of the active components; additionally, the vacuum impregnation process together with microwave vacuum drying was the alternative that had the highest sensorial acceptability.
AbstractList Potato snacks can be used as an ideal strategy for nutrient delivery, since they are one of the most widely consumed products in the world. Due to fried snacks are known to be a significant source of fat intake, consumption is changing towards healthier alternatives. The aim of this research is to evaluate the effect of vacuum impregnation and three dehydration techniques: heated air drying, freeze drying, and microwave vacuum drying of the potato snack that has been fortified with active components: calcium and vitamins C and E. Vacuum impregnation was evaluated using the response surface methodology that had a central composite experimental design with the following independent variables: vacuum pressure, vacuum stage time, and atmospheric stage time. The following were the dependent variables: fraction and volumetric deformation in the vacuum stage and at the end of the process and effective porosity. Finally, a sensorial analysis was carried out on the dehydrated potatoes. The results of the optimal vacuum impregnation process conditions were: a vacuum pressure of 77.3 kPa for 3.0 min followed by 4.0 min at atmospheric pressure. The content of calcium, vitamin C, and vitamin E in the impregnated potato were 956, 472, and 35 mg 100 g−1 dry solids, respectively. The highest retention of the active components in snacks was obtained by the combination of vacuum impregnation and the dehydration techniques in the following order: freeze drying, microwave vacuum drying, and then heated air drying. It can be concluded that the integration processes give an added value to potato snacks due to the increased content of the active components; additionally, the vacuum impregnation process together with microwave vacuum drying was the alternative that had the highest sensorial acceptability.
Potato snacks can be used as an ideal strategy for nutrient delivery, since they are one of the most widely consumed products in the world. Due to fried snacks are known to be a significant source of fat intake, consumption is changing towards healthier alternatives. The aim of this research is to evaluate the effect of vacuum impregnation and three dehydration techniques: heated air drying, freeze drying, and microwave vacuum drying of the potato snack that has been fortified with active components: calcium and vitamins C and E. Vacuum impregnation was evaluated using the response surface methodology that had a central composite experimental design with the following independent variables: vacuum pressure, vacuum stage time, and atmospheric stage time. The following were the dependent variables: fraction and volumetric deformation in the vacuum stage and at the end of the process and effective porosity. Finally, a sensorial analysis was carried out on the dehydrated potatoes. The results of the optimal vacuum impregnation process conditions were: a vacuum pressure of 77.3 kPa for 3.0 min followed by 4.0 min at atmospheric pressure. The content of calcium, vitamin C, and vitamin E in the impregnated potato were 956, 472, and 35 mg 100 g −1 dry solids, respectively. The highest retention of the active components in snacks was obtained by the combination of vacuum impregnation and the dehydration techniques in the following order: freeze drying, microwave vacuum drying, and then heated air drying. It can be concluded that the integration processes give an added value to potato snacks due to the increased content of the active components; additionally, the vacuum impregnation process together with microwave vacuum drying was the alternative that had the highest sensorial acceptability.
Potato snacks can be used as an ideal strategy for nutrient delivery, since they are one of the most widely consumed products in the world. Due to fried snacks are known to be a significant source of fat intake, consumption is changing towards healthier alternatives. The aim of this research is to evaluate the effect of vacuum impregnation and three dehydration techniques: heated air drying, freeze drying, and microwave vacuum drying of the potato snack that has been fortified with active components: calcium and vitamins C and E. Vacuum impregnation was evaluated using the response surface methodology that had a central composite experimental design with the following independent variables: vacuum pressure, vacuum stage time, and atmospheric stage time. The following were the dependent variables: fraction and volumetric deformation in the vacuum stage and at the end of the process and effective porosity. Finally, a sensorial analysis was carried out on the dehydrated potatoes. The results of the optimal vacuum impregnation process conditions were: a vacuum pressure of 77.3 kPa for 3.0 min followed by 4.0 min at atmospheric pressure. The content of calcium, vitamin C, and vitamin E in the impregnated potato were 956, 472, and 35 mg 100 g dry solids, respectively. The highest retention of the active components in snacks was obtained by the combination of vacuum impregnation and the dehydration techniques in the following order: freeze drying, microwave vacuum drying, and then heated air drying. It can be concluded that the integration processes give an added value to potato snacks due to the increased content of the active components; additionally, the vacuum impregnation process together with microwave vacuum drying was the alternative that had the highest sensorial acceptability.
Author Vega-Castro, Oscar
Granda-Restrepo, Diana
Cortés, Misael
Duarte-Correa, Yudy
Author_xml – sequence: 1
  givenname: Yudy
  surname: Duarte-Correa
  fullname: Duarte-Correa, Yudy
  organization: BIOALI Research Group, Food Department, Faculty of Pharmaceutical and Food Sciences, Universidad de Antioquia
– sequence: 2
  givenname: Diana
  surname: Granda-Restrepo
  fullname: Granda-Restrepo, Diana
  organization: BIOALI Research Group, Food Department, Faculty of Pharmaceutical and Food Sciences, Universidad de Antioquia
– sequence: 3
  givenname: Misael
  surname: Cortés
  fullname: Cortés, Misael
  organization: Faculty of Agricultural Sciences, Universidad Nacional de Colombia
– sequence: 4
  givenname: Oscar
  orcidid: 0000-0003-3517-9760
  surname: Vega-Castro
  fullname: Vega-Castro, Oscar
  email: oavega@americana.edu.co
  organization: BIOALI Research Group, Food Department, Faculty of Pharmaceutical and Food Sciences, Universidad de Antioquia, Faculty of Industrial Engineering, Corporación Universitaria Americana
BackLink https://www.ncbi.nlm.nih.gov/pubmed/32180649$$D View this record in MEDLINE/PubMed
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Copyright Association of Food Scientists & Technologists (India) 2019
Association of Food Scientists & Technologists (India) 2019.
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Keywords Matrix engineering
Potato chips
Functional foods
Fortification
Solanum tuberosum
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Snippet Potato snacks can be used as an ideal strategy for nutrient delivery, since they are one of the most widely consumed products in the world. Due to fried snacks...
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SubjectTerms Air drying
Ascorbic acid
Calcium
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Dehydration
Dependent variables
Design of experiments
Effective porosity
Experimental design
Food Science
Freeze drying
Impregnation
Independent variables
Nutrition
Original
Original Article
Porosity
Potatoes
Response surface methodology
Sensory evaluation
Snack foods
Vacuum
Vacuum drying
Vegetables
Vitamin E
Vitamins
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Title Potato snacks added with active components: effects of the vacuum impregnation and drying processes
URI https://link.springer.com/article/10.1007/s13197-019-04188-5
https://www.ncbi.nlm.nih.gov/pubmed/32180649
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https://search.proquest.com/docview/2377992956
https://pubmed.ncbi.nlm.nih.gov/PMC7054560
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