TY  - JOUR
AU  - Gomez, Belen
AU  - Munekata, Paulo E.S.
AU  - Gavahian, Mohsen
AU  - Barba, Francisco J.
AU  - Marti-Quijal, Francisco J.
AU  - Bolumar, Tomas
AU  - Bastianello Campagnol, Paulo Cezar
AU  - Tomašević, Igor
AU  - Lorenzo, José M.
PY  - 2019
UR  - http://aspace.agrif.bg.ac.rs/handle/123456789/4942
AB  - The market demand for new meat and fish products with enhanced physicochemical and nutritional properties attracted the interest of the food industry and academia to investigate innovative processing approaches such as pulsed electric fields (PEF). PEF is an emerging technology based on the application of electrical currents between two electrodes thus inducing electroporation phenomena and enabling a non-invasive modification of the tissues' structure. This review provides an overview of the current knowledge on the use of PEF processing in meat and fish to enhance the physicochemical and nutritional changes, as a preservation method, as well as for improving the extraction of high added-value compounds. PEF treatment had the ability to improve several processes such as preservation, tenderization, and aging. Besides, PEF treatment could be used as a useful strategy to increase water holding properties of fish products as well as for fish drying. Finally, PEF could be also used in both meat and fish foods for by-products valorization, due to its potential to enhance the extraction of high added-value compounds. However, more studies are warranted to completely define specific treatments that can be consistently applied in the industry. This review provides the directions for this purpose in the near future.
PB  - Elsevier, Amsterdam
T2  - Food Research International
T1  - Application of pulsed electric fields in meat and fish processing industries: An overview
EP  - 105
SP  - 95
VL  - 123
DO  - 10.1016/j.foodres.2019.04.047
ER  - 

@article{
author = "Gomez, Belen and Munekata, Paulo E.S. and Gavahian, Mohsen and Barba, Francisco J. and Marti-Quijal, Francisco J. and Bolumar, Tomas and Bastianello Campagnol, Paulo Cezar and Tomašević, Igor and Lorenzo, José M.",
year = "2019",
abstract = "The market demand for new meat and fish products with enhanced physicochemical and nutritional properties attracted the interest of the food industry and academia to investigate innovative processing approaches such as pulsed electric fields (PEF). PEF is an emerging technology based on the application of electrical currents between two electrodes thus inducing electroporation phenomena and enabling a non-invasive modification of the tissues' structure. This review provides an overview of the current knowledge on the use of PEF processing in meat and fish to enhance the physicochemical and nutritional changes, as a preservation method, as well as for improving the extraction of high added-value compounds. PEF treatment had the ability to improve several processes such as preservation, tenderization, and aging. Besides, PEF treatment could be used as a useful strategy to increase water holding properties of fish products as well as for fish drying. Finally, PEF could be also used in both meat and fish foods for by-products valorization, due to its potential to enhance the extraction of high added-value compounds. However, more studies are warranted to completely define specific treatments that can be consistently applied in the industry. This review provides the directions for this purpose in the near future.",
publisher = "Elsevier, Amsterdam",
journal = "Food Research International",
title = "Application of pulsed electric fields in meat and fish processing industries: An overview",
pages = "105-95",
volume = "123",
doi = "10.1016/j.foodres.2019.04.047"
}

Gomez, B., Munekata, P. E.S., Gavahian, M., Barba, F. J., Marti-Quijal, F. J., Bolumar, T., Bastianello Campagnol, P. C., Tomašević, I.,& Lorenzo, J. M.. (2019). Application of pulsed electric fields in meat and fish processing industries: An overview. in Food Research International
Elsevier, Amsterdam., 123, 95-105.
https://doi.org/10.1016/j.foodres.2019.04.047

Gomez B, Munekata PE, Gavahian M, Barba FJ, Marti-Quijal FJ, Bolumar T, Bastianello Campagnol PC, Tomašević I, Lorenzo JM. Application of pulsed electric fields in meat and fish processing industries: An overview. in Food Research International. 2019;123:95-105.
doi:10.1016/j.foodres.2019.04.047 .

Gomez, Belen, Munekata, Paulo E.S., Gavahian, Mohsen, Barba, Francisco J., Marti-Quijal, Francisco J., Bolumar, Tomas, Bastianello Campagnol, Paulo Cezar, Tomašević, Igor, Lorenzo, José M., "Application of pulsed electric fields in meat and fish processing industries: An overview" in Food Research International, 123 (2019):95-105,
https://doi.org/10.1016/j.foodres.2019.04.047 . .

TY  - JOUR
AU  - Perez-Santaescolastica, Cristina
AU  - Fraeye, Ilse
AU  - Barba, Francisco J.
AU  - Gomez, Belen
AU  - Tomašević, Igor
AU  - Romero, Alberto
AU  - Moreno, Andres
AU  - Toldra, Fidel
AU  - Lorenzo, José M.
PY  - 2019
UR  - http://aspace.agrif.bg.ac.rs/handle/123456789/5058
AB  - BACKGROUND: Dry-cured ham is one of the most valued food products by Mediterranean consumers. In this sense, the appropriate development of its different production stages is essential to ensure the quality requirements. For this reason, non-invasive technologies have gained popularity and have been reported as useful not only to ensure the food safety of different products, but also to monitor fundamental stages in the production process, such as the salting stage, to analyze the content of different compounds without sample losses, and to correct possible defects in the final product. Scope and approach: This work has been focused on summarizing the studies that describe and have successfully applied these techniques, as well as on mentioning other technologies with potential use in dry-cured ham manufacture which have not been studied enough. Finally, the potential next steps to improve and optimize the process, as well as the suitability of creating new products with added value based on the new quality standards, have also been evaluated. Key findings and conclusions: Innovative non-invasive technologies such as high pressure (HP), ultrasound (US), pulsed electric fields (PEF), microwaves, irradiation, etc. can be used as promising tools to effectively control salting and curing stages as well as for checking defects of the final product and/or ensuring food safety. HP and US are useful tools for the determination of salt and fat content, and for monitoring the salting process. Moreover, HP enhances salty taste perception, which makes it a useful tool to reduce salt addition. Both, HP and US, can correct texture defects. In addition, NIBS allows predicting the state of the meat to remove those pieces that could result in defective products. Moreover, RAMAN or MRI are able to detect anomalous textures at the end of the process. Microwaves could be useful for the online estimation of salt, water and fat contents easily with portable equipment. Finally, data mining, that allows to make predictions based on an immense data file, is the most promising discovery in recent years for detecting defects or classifying products according to sensory attributes.
PB  - Elsevier Science London, London
T2  - Trends in Food Science & Technology
T1  - Application of non-invasive technologies in dry-cured ham: An overview
EP  - 374
SP  - 360
VL  - 86
DO  - 10.1016/j.tifs.2019.02.011
ER  - 

@article{
author = "Perez-Santaescolastica, Cristina and Fraeye, Ilse and Barba, Francisco J. and Gomez, Belen and Tomašević, Igor and Romero, Alberto and Moreno, Andres and Toldra, Fidel and Lorenzo, José M.",
year = "2019",
abstract = "BACKGROUND: Dry-cured ham is one of the most valued food products by Mediterranean consumers. In this sense, the appropriate development of its different production stages is essential to ensure the quality requirements. For this reason, non-invasive technologies have gained popularity and have been reported as useful not only to ensure the food safety of different products, but also to monitor fundamental stages in the production process, such as the salting stage, to analyze the content of different compounds without sample losses, and to correct possible defects in the final product. Scope and approach: This work has been focused on summarizing the studies that describe and have successfully applied these techniques, as well as on mentioning other technologies with potential use in dry-cured ham manufacture which have not been studied enough. Finally, the potential next steps to improve and optimize the process, as well as the suitability of creating new products with added value based on the new quality standards, have also been evaluated. Key findings and conclusions: Innovative non-invasive technologies such as high pressure (HP), ultrasound (US), pulsed electric fields (PEF), microwaves, irradiation, etc. can be used as promising tools to effectively control salting and curing stages as well as for checking defects of the final product and/or ensuring food safety. HP and US are useful tools for the determination of salt and fat content, and for monitoring the salting process. Moreover, HP enhances salty taste perception, which makes it a useful tool to reduce salt addition. Both, HP and US, can correct texture defects. In addition, NIBS allows predicting the state of the meat to remove those pieces that could result in defective products. Moreover, RAMAN or MRI are able to detect anomalous textures at the end of the process. Microwaves could be useful for the online estimation of salt, water and fat contents easily with portable equipment. Finally, data mining, that allows to make predictions based on an immense data file, is the most promising discovery in recent years for detecting defects or classifying products according to sensory attributes.",
publisher = "Elsevier Science London, London",
journal = "Trends in Food Science & Technology",
title = "Application of non-invasive technologies in dry-cured ham: An overview",
pages = "374-360",
volume = "86",
doi = "10.1016/j.tifs.2019.02.011"
}

Perez-Santaescolastica, C., Fraeye, I., Barba, F. J., Gomez, B., Tomašević, I., Romero, A., Moreno, A., Toldra, F.,& Lorenzo, J. M.. (2019). Application of non-invasive technologies in dry-cured ham: An overview. in Trends in Food Science & Technology
Elsevier Science London, London., 86, 360-374.
https://doi.org/10.1016/j.tifs.2019.02.011

Perez-Santaescolastica C, Fraeye I, Barba FJ, Gomez B, Tomašević I, Romero A, Moreno A, Toldra F, Lorenzo JM. Application of non-invasive technologies in dry-cured ham: An overview. in Trends in Food Science & Technology. 2019;86:360-374.
doi:10.1016/j.tifs.2019.02.011 .

Perez-Santaescolastica, Cristina, Fraeye, Ilse, Barba, Francisco J., Gomez, Belen, Tomašević, Igor, Romero, Alberto, Moreno, Andres, Toldra, Fidel, Lorenzo, José M., "Application of non-invasive technologies in dry-cured ham: An overview" in Trends in Food Science & Technology, 86 (2019):360-374,
https://doi.org/10.1016/j.tifs.2019.02.011 . .

TY  - JOUR
AU  - Marti-Quijal, Francisco J.
AU  - Zamuz, Sol
AU  - Tomašević, Igor
AU  - Gomez, Belen
AU  - Rocchetti, Gabriele
AU  - Lucini, Luigi
AU  - Remize, Fabienne
AU  - Barba, Francisco J.
AU  - Lorenzo, José M.
PY  - 2019
UR  - http://aspace.agrif.bg.ac.rs/handle/123456789/5101
AB  - The purpose of this study was to evaluate changes in the physicochemical properties and amino acid profiles of pork sausages prepared by including vegetable protein sources (beans, peas, and lentils), microalgae (Chiorella and Spirulina) or whey, as compared with a control (soy protein). Significant differences were found for all the studied parameters. The protein content was significantly lower in sausages made with pea protein compared with the control. Colour parameters changed significantly after the incorporation of microalgae proteins. Moreover, significant differences among treatments were observed in the amino acid profile. The inclusion of spirulina proteins resulted in an increase in the total amino acid content and the ratio of essential/non-essential amino acids. Orthogonal Projections to Latent Structures Discriminant Analysis (OPLS-DA) allowed pork sausages to be classified according to the protein source, in comparison with soy (control). Textural parameters (chewiness, gumminess and hardness) followed by colour and pH were the most discriminant parameters. Considering texture traits, physicochemical parameters and amino acid profiles across treatments, proteins from legumes and whey provided profiles closer to that of soy. However, although microalgae-derived proteins altered the colour and texture, they provided nutritionally favourable profiles, thus suggesting that seaweeds could also be used to enrich pork sausages, as an alternative to soy protein.
PB  - Elsevier Science Bv, Amsterdam
T2  - LWT-Food Science and Technology
T1  - Influence of different sources of vegetable, whey and microalgae proteins on the physicochemical properties and amino acid profile of fresh pork sausages
EP  - 323
SP  - 316
VL  - 110
DO  - 10.1016/j.lwt.2019.04.097
ER  - 

@article{
author = "Marti-Quijal, Francisco J. and Zamuz, Sol and Tomašević, Igor and Gomez, Belen and Rocchetti, Gabriele and Lucini, Luigi and Remize, Fabienne and Barba, Francisco J. and Lorenzo, José M.",
year = "2019",
abstract = "The purpose of this study was to evaluate changes in the physicochemical properties and amino acid profiles of pork sausages prepared by including vegetable protein sources (beans, peas, and lentils), microalgae (Chiorella and Spirulina) or whey, as compared with a control (soy protein). Significant differences were found for all the studied parameters. The protein content was significantly lower in sausages made with pea protein compared with the control. Colour parameters changed significantly after the incorporation of microalgae proteins. Moreover, significant differences among treatments were observed in the amino acid profile. The inclusion of spirulina proteins resulted in an increase in the total amino acid content and the ratio of essential/non-essential amino acids. Orthogonal Projections to Latent Structures Discriminant Analysis (OPLS-DA) allowed pork sausages to be classified according to the protein source, in comparison with soy (control). Textural parameters (chewiness, gumminess and hardness) followed by colour and pH were the most discriminant parameters. Considering texture traits, physicochemical parameters and amino acid profiles across treatments, proteins from legumes and whey provided profiles closer to that of soy. However, although microalgae-derived proteins altered the colour and texture, they provided nutritionally favourable profiles, thus suggesting that seaweeds could also be used to enrich pork sausages, as an alternative to soy protein.",
publisher = "Elsevier Science Bv, Amsterdam",
journal = "LWT-Food Science and Technology",
title = "Influence of different sources of vegetable, whey and microalgae proteins on the physicochemical properties and amino acid profile of fresh pork sausages",
pages = "323-316",
volume = "110",
doi = "10.1016/j.lwt.2019.04.097"
}

Marti-Quijal, F. J., Zamuz, S., Tomašević, I., Gomez, B., Rocchetti, G., Lucini, L., Remize, F., Barba, F. J.,& Lorenzo, J. M.. (2019). Influence of different sources of vegetable, whey and microalgae proteins on the physicochemical properties and amino acid profile of fresh pork sausages. in LWT-Food Science and Technology
Elsevier Science Bv, Amsterdam., 110, 316-323.
https://doi.org/10.1016/j.lwt.2019.04.097

Marti-Quijal FJ, Zamuz S, Tomašević I, Gomez B, Rocchetti G, Lucini L, Remize F, Barba FJ, Lorenzo JM. Influence of different sources of vegetable, whey and microalgae proteins on the physicochemical properties and amino acid profile of fresh pork sausages. in LWT-Food Science and Technology. 2019;110:316-323.
doi:10.1016/j.lwt.2019.04.097 .

Marti-Quijal, Francisco J., Zamuz, Sol, Tomašević, Igor, Gomez, Belen, Rocchetti, Gabriele, Lucini, Luigi, Remize, Fabienne, Barba, Francisco J., Lorenzo, José M., "Influence of different sources of vegetable, whey and microalgae proteins on the physicochemical properties and amino acid profile of fresh pork sausages" in LWT-Food Science and Technology, 110 (2019):316-323,
https://doi.org/10.1016/j.lwt.2019.04.097 . .