Efficacy of cold plasma technology on the constituents of plant-based food products: Principles, current applications, and future potentials

Publikation: Beitrag in FachzeitschriftÜbersichtsarbeitForschungPeer-Review

Autoren

Externe Organisationen

  • Alanya Alaaddin Keykubat Üniversitesi (ALKU)
  • Chalmers University of Technology
  • Technische Universität Istanbul
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Aufsatznummer113079
FachzeitschriftFood Research International
Jahrgang172
Frühes Online-Datum2 Juni 2023
PublikationsstatusVeröffentlicht - Okt. 2023

Abstract

Cold plasma (CP) is one of the novel non-thermal food processing technologies, which has the potential to extend the shelf-life of plant-based food products without adversely affecting the nutritional value and sensory characteristics. Besides microbial inactivation, this technology has been explored for food functionality, pesticide control, and allergen removals. Cold plasma technology presents positive results in applications related to food processing at a laboratory scale. This review discusses applications of CP technology and its effect on the constituents of plant-based food products including proteins, lipids, carbohydrates, and polar and non-polar secondary plant metabolites. As proven by the publications in the food field, the influence of CP on the food constituents and sensory quality of various food materials are mainly based on CP-related factors such as processing time, voltage level, power, frequency, type of gas, gas flow rate as well as the amount of sample, type, and content of food constituents. In addition to these, changes in the secondary plant metabolites depend on the action of CP on both cell membrane breakdown and increase/decrease in the scavenging compounds. This technology offers a good alternative to conventional methods by inactivating enzymes and increasing antioxidant levels. With a waterless and chemical-free property, this sustainable and energy-efficient technology presents several advantages in food applications. However, scaling up CP by ensuring uniform plasma treatment is a major challenge. Further investigation is required to provide information regarding the toxicity of plasma-treated food products.

ASJC Scopus Sachgebiete

Zitieren

Efficacy of cold plasma technology on the constituents of plant-based food products: Principles, current applications, and future potentials. / Oner, Manolya Eser; Gultekin Subasi, Busra; Ozkan, Gulay et al.
in: Food Research International, Jahrgang 172, 113079, 10.2023.

Publikation: Beitrag in FachzeitschriftÜbersichtsarbeitForschungPeer-Review

Oner ME, Gultekin Subasi B, Ozkan G, Esatbeyoglu T, Capanoglu E. Efficacy of cold plasma technology on the constituents of plant-based food products: Principles, current applications, and future potentials. Food Research International. 2023 Okt;172:113079. Epub 2023 Jun 2. doi: 10.1016/j.foodres.2023.113079
Download
@article{2a42c225e985423789e00e482ed99b8f,
title = "Efficacy of cold plasma technology on the constituents of plant-based food products: Principles, current applications, and future potentials",
abstract = "Cold plasma (CP) is one of the novel non-thermal food processing technologies, which has the potential to extend the shelf-life of plant-based food products without adversely affecting the nutritional value and sensory characteristics. Besides microbial inactivation, this technology has been explored for food functionality, pesticide control, and allergen removals. Cold plasma technology presents positive results in applications related to food processing at a laboratory scale. This review discusses applications of CP technology and its effect on the constituents of plant-based food products including proteins, lipids, carbohydrates, and polar and non-polar secondary plant metabolites. As proven by the publications in the food field, the influence of CP on the food constituents and sensory quality of various food materials are mainly based on CP-related factors such as processing time, voltage level, power, frequency, type of gas, gas flow rate as well as the amount of sample, type, and content of food constituents. In addition to these, changes in the secondary plant metabolites depend on the action of CP on both cell membrane breakdown and increase/decrease in the scavenging compounds. This technology offers a good alternative to conventional methods by inactivating enzymes and increasing antioxidant levels. With a waterless and chemical-free property, this sustainable and energy-efficient technology presents several advantages in food applications. However, scaling up CP by ensuring uniform plasma treatment is a major challenge. Further investigation is required to provide information regarding the toxicity of plasma-treated food products.",
keywords = "Allergen, Carbohydrate, Lipid, Non-thermal, Protein, Secondary plant metabolite, Sensory, Sustainability",
author = "Oner, {Manolya Eser} and {Gultekin Subasi}, Busra and Gulay Ozkan and Tuba Esatbeyoglu and Esra Capanoglu",
year = "2023",
month = oct,
doi = "10.1016/j.foodres.2023.113079",
language = "English",
volume = "172",
journal = "Food Research International",
issn = "0963-9969",
publisher = "Elsevier Ltd.",

}

Download

TY - JOUR

T1 - Efficacy of cold plasma technology on the constituents of plant-based food products: Principles, current applications, and future potentials

AU - Oner, Manolya Eser

AU - Gultekin Subasi, Busra

AU - Ozkan, Gulay

AU - Esatbeyoglu, Tuba

AU - Capanoglu, Esra

PY - 2023/10

Y1 - 2023/10

N2 - Cold plasma (CP) is one of the novel non-thermal food processing technologies, which has the potential to extend the shelf-life of plant-based food products without adversely affecting the nutritional value and sensory characteristics. Besides microbial inactivation, this technology has been explored for food functionality, pesticide control, and allergen removals. Cold plasma technology presents positive results in applications related to food processing at a laboratory scale. This review discusses applications of CP technology and its effect on the constituents of plant-based food products including proteins, lipids, carbohydrates, and polar and non-polar secondary plant metabolites. As proven by the publications in the food field, the influence of CP on the food constituents and sensory quality of various food materials are mainly based on CP-related factors such as processing time, voltage level, power, frequency, type of gas, gas flow rate as well as the amount of sample, type, and content of food constituents. In addition to these, changes in the secondary plant metabolites depend on the action of CP on both cell membrane breakdown and increase/decrease in the scavenging compounds. This technology offers a good alternative to conventional methods by inactivating enzymes and increasing antioxidant levels. With a waterless and chemical-free property, this sustainable and energy-efficient technology presents several advantages in food applications. However, scaling up CP by ensuring uniform plasma treatment is a major challenge. Further investigation is required to provide information regarding the toxicity of plasma-treated food products.

AB - Cold plasma (CP) is one of the novel non-thermal food processing technologies, which has the potential to extend the shelf-life of plant-based food products without adversely affecting the nutritional value and sensory characteristics. Besides microbial inactivation, this technology has been explored for food functionality, pesticide control, and allergen removals. Cold plasma technology presents positive results in applications related to food processing at a laboratory scale. This review discusses applications of CP technology and its effect on the constituents of plant-based food products including proteins, lipids, carbohydrates, and polar and non-polar secondary plant metabolites. As proven by the publications in the food field, the influence of CP on the food constituents and sensory quality of various food materials are mainly based on CP-related factors such as processing time, voltage level, power, frequency, type of gas, gas flow rate as well as the amount of sample, type, and content of food constituents. In addition to these, changes in the secondary plant metabolites depend on the action of CP on both cell membrane breakdown and increase/decrease in the scavenging compounds. This technology offers a good alternative to conventional methods by inactivating enzymes and increasing antioxidant levels. With a waterless and chemical-free property, this sustainable and energy-efficient technology presents several advantages in food applications. However, scaling up CP by ensuring uniform plasma treatment is a major challenge. Further investigation is required to provide information regarding the toxicity of plasma-treated food products.

KW - Allergen

KW - Carbohydrate

KW - Lipid

KW - Non-thermal

KW - Protein

KW - Secondary plant metabolite

KW - Sensory

KW - Sustainability

UR - http://www.scopus.com/inward/record.url?scp=85162974596&partnerID=8YFLogxK

U2 - 10.1016/j.foodres.2023.113079

DO - 10.1016/j.foodres.2023.113079

M3 - Review article

AN - SCOPUS:85162974596

VL - 172

JO - Food Research International

JF - Food Research International

SN - 0963-9969

M1 - 113079

ER -