TY  - JOUR
AU  - Bočarov-Stančić, Aleksandra
AU  - Lopičić, Zorica
AU  - Krstović, Saša
AU  - Krulj, Jelena
AU  - Milojković, Jelena
AU  - Maslovarić, Marijana
AU  - Bodroža-Solarov, Marija
PY  - 2023
UR  - https://ritnms.itnms.ac.rs/handle/123456789/1217
AB  - Toxic secondary metabolites of some fungi (mainly representatives of Alternaria, Aspergillus,Fusarium and Penicillium genera) may contaminate agricultural products, representing serioushealth hazards both to humans and animals. Along with this, the economic losses due to themycotoxins’ presence in feed production, including crop and animal feedstuff processing anddistribution, motivated the plentiful research of detoxification strategies. Feed supplementationwith mineral adsorbents (zeolites, hydrated sodium calcium aluminosilicate (HSCAS),bentonites, etc.) is the most prominent approach widely applied. Besides these, other productsfor mycotoxin level reduction based on the constituents of the yeast cell wall or Lactobacilliare often used. Recently, many investigations are directed toward plant-derived products thatcan efficiently adsorb mycotoxins in their native (biosorbents) or modified forms (e.g. activatedcarbon, biochar etc.). These renewable, easily accessible and readily prepared sorbents areeconomically viable and safe alternatives for mycotoxin decontamination of feed resources.Organic polymers (chitosan, cellulose, etc.) as well as synthetic polymers, such as polyvinylpyrrolidine, also might reduce mycotoxins’ level in feed. Besides these conventional methods,new research trends are nanotechnologies, the promising, effective, low-cost way formycotoxins’ removal. This overview systematically summarizes information on binding agentsof different origins for the reduction of mycotoxins’ levels in feed. Furthermore, the knowledgeof potential applications of binding agents in the feed industry is also reviewed and discussed.
PB  - Sciendo
T2  - Annals of Animal Science
T1  - Agents of different origins for reduction of mycotoxins’ level in feed
DO  - 10.2478/aoas-2023-0087
ER  - 

@article{
author = "Bočarov-Stančić, Aleksandra and Lopičić, Zorica and Krstović, Saša and Krulj, Jelena and Milojković, Jelena and Maslovarić, Marijana and Bodroža-Solarov, Marija",
year = "2023",
abstract = "Toxic secondary metabolites of some fungi (mainly representatives of Alternaria, Aspergillus,Fusarium and Penicillium genera) may contaminate agricultural products, representing serioushealth hazards both to humans and animals. Along with this, the economic losses due to themycotoxins’ presence in feed production, including crop and animal feedstuff processing anddistribution, motivated the plentiful research of detoxification strategies. Feed supplementationwith mineral adsorbents (zeolites, hydrated sodium calcium aluminosilicate (HSCAS),bentonites, etc.) is the most prominent approach widely applied. Besides these, other productsfor mycotoxin level reduction based on the constituents of the yeast cell wall or Lactobacilliare often used. Recently, many investigations are directed toward plant-derived products thatcan efficiently adsorb mycotoxins in their native (biosorbents) or modified forms (e.g. activatedcarbon, biochar etc.). These renewable, easily accessible and readily prepared sorbents areeconomically viable and safe alternatives for mycotoxin decontamination of feed resources.Organic polymers (chitosan, cellulose, etc.) as well as synthetic polymers, such as polyvinylpyrrolidine, also might reduce mycotoxins’ level in feed. Besides these conventional methods,new research trends are nanotechnologies, the promising, effective, low-cost way formycotoxins’ removal. This overview systematically summarizes information on binding agentsof different origins for the reduction of mycotoxins’ levels in feed. Furthermore, the knowledgeof potential applications of binding agents in the feed industry is also reviewed and discussed.",
publisher = "Sciendo",
journal = "Annals of Animal Science",
title = "Agents of different origins for reduction of mycotoxins’ level in feed",
doi = "10.2478/aoas-2023-0087"
}

Bočarov-Stančić, A., Lopičić, Z., Krstović, S., Krulj, J., Milojković, J., Maslovarić, M.,& Bodroža-Solarov, M.. (2023). Agents of different origins for reduction of mycotoxins’ level in feed. in Annals of Animal Science
Sciendo..
https://doi.org/10.2478/aoas-2023-0087

Bočarov-Stančić A, Lopičić Z, Krstović S, Krulj J, Milojković J, Maslovarić M, Bodroža-Solarov M. Agents of different origins for reduction of mycotoxins’ level in feed. in Annals of Animal Science. 2023;.
doi:10.2478/aoas-2023-0087 .

Bočarov-Stančić, Aleksandra, Lopičić, Zorica, Krstović, Saša, Krulj, Jelena, Milojković, Jelena, Maslovarić, Marijana, Bodroža-Solarov, Marija, "Agents of different origins for reduction of mycotoxins’ level in feed" in Annals of Animal Science (2023),
https://doi.org/10.2478/aoas-2023-0087 . .

TY  - JOUR
AU  - Bočarov-Stančić, Aleksandra
AU  - Lopičić, Zorica
AU  - Bodroža-Solarov, Marija I.
AU  - Stanković, Slavica Ž.
AU  - Janković, Snežana M.
AU  - Milojković, Jelena
AU  - Krulj, Jelena A.
PY  - 2018
UR  - https://ritnms.itnms.ac.rs/handle/123456789/480
AB  - Aflatoksin B1 (AFB1), ohratoksin A (OTA), zearalenon (ZON), dezoksinivalenol (DON) i T-2 toksin su najviše izučavani toksični metaboliti gljiva. Kada mikotoksini uđu u proizvodni lanac za hranu/hranu za životinje, zadržavajući svoje toksične karakteristike, teško ih je ukloniti ili eliminisati. Jedna od obećavajućih metoda za smanjenje nivoa mikotoksina u kontaminiranoj hrani/hrani za životinje je korišćenje mikotoksinskih veziva. Ovaj rad predstavlja rezultate in vitro istraživanja mineralnih mikotoksinskih veziva (bentonit - BEN, diatomit - DIA i zeolit - ZEO) i organskih veziva mikotoksina - poljoprivrednog otpadnog materijala (Myriophillium spicatum, koštice breskve i višnje). Hemijski sastavi adsorbenata pokazali su da ne sadrže elemente toksične za životinje. Neorganski adsorbenti (BEN, DIA i ZEO) testirani in vitro bolje su vezivali AFB1 (94,97% - 96,90%), dok su biosorbenti bili efikasniji u adsorpciji OTA (19,98% - 66,66%), ZON-a (33,33% - 75,00% ) i T-2 toksina (16,67% - 50,00%). Neorganski adsorbenti i organski otpadni materijali su pokazali sličan kapacitet in vitro vezivanja DON-a, sa izuzetkom M. spicatum koji uopšte nije adsorbovao ovaj trihotecen tipa B. Naši rezultati koji su prikazani ovde pokazuju da zagađivanje hrane i hrane za životinje različitim vrstama mikotoksina može biti smanjeno dodavanjem preparata dobijenog kombinacijom različitih neorganskih i organskih adsorbenata koji poseduju različite karakteristike vezivanja mikotoksina.
AB  - Aflatoxin B1 (AFB1), ochratoxin A (OTA), zearalenone (ZON), deoxynivalenol (DON) and T-2 toxin are the most extensively studied toxic fungal metabolites. Once mycotoxins enter the food/feed production chain keeping their toxic characteristics, it is very difficult to remove or eliminate them. One of promising methods to reduce mycotoxins in contaminated food/feedstuffs is the use of mycotoxin binders. This paper presents the results of in vitro investigations of mineral mycotoxin binders (bentonite - BEN, diatomite - DIA and zeolite - ZEO), and organic mycotoxin binders - agricultural waste materials (Myriophillium spicatum, peach and sour cherry pits). Chemical compositions of the adsorbents have showed that they do not consist of elements toxic to the animals. Inorganic adsorbents (BEN, DIA and ZEO) tested in vitro were better binders of AFB1 (94.97% - 96.90%), while the biosorbents were more efficient in adsorption of OTA (19.98% - 66.66%), ZON (33.33% - 75.00%) and T-2 toxin (16.67% - 50.00%). Inorganic adsorbents and organic waste materials expressed similar binding capacity for DON in vitro, with the exception of M. spicatum that did not at all adsorb this type B trichothecene. Our results indicate that feed contamination with different types of mycotoxins might be diminished by a product that combines different inorganic and organic adsorbents with diverse mycotoxin binding properties.
PB  - Univerzitet u Novom Sadu - Naučni institut za prehrambene tehnologije, Novi Sad
T2  - Food and Feed Research
T1  - In vitro uklanjanje mikotoksina korišćenjem različitih neorganskih adsorbenata i organskih otpadnih materijala iz Srbije
T1  - In vitro removing of mycotoxins by using different inorganic adsorbents and organic waste materials from Serbia
EP  - 96
IS  - 2
SP  - 87
VL  - 45
DO  - 10.5937/FFR1802087B
UR  - conv_408
ER  - 

@article{
author = "Bočarov-Stančić, Aleksandra and Lopičić, Zorica and Bodroža-Solarov, Marija I. and Stanković, Slavica Ž. and Janković, Snežana M. and Milojković, Jelena and Krulj, Jelena A.",
year = "2018",
abstract = "Aflatoksin B1 (AFB1), ohratoksin A (OTA), zearalenon (ZON), dezoksinivalenol (DON) i T-2 toksin su najviše izučavani toksični metaboliti gljiva. Kada mikotoksini uđu u proizvodni lanac za hranu/hranu za životinje, zadržavajući svoje toksične karakteristike, teško ih je ukloniti ili eliminisati. Jedna od obećavajućih metoda za smanjenje nivoa mikotoksina u kontaminiranoj hrani/hrani za životinje je korišćenje mikotoksinskih veziva. Ovaj rad predstavlja rezultate in vitro istraživanja mineralnih mikotoksinskih veziva (bentonit - BEN, diatomit - DIA i zeolit - ZEO) i organskih veziva mikotoksina - poljoprivrednog otpadnog materijala (Myriophillium spicatum, koštice breskve i višnje). Hemijski sastavi adsorbenata pokazali su da ne sadrže elemente toksične za životinje. Neorganski adsorbenti (BEN, DIA i ZEO) testirani in vitro bolje su vezivali AFB1 (94,97% - 96,90%), dok su biosorbenti bili efikasniji u adsorpciji OTA (19,98% - 66,66%), ZON-a (33,33% - 75,00% ) i T-2 toksina (16,67% - 50,00%). Neorganski adsorbenti i organski otpadni materijali su pokazali sličan kapacitet in vitro vezivanja DON-a, sa izuzetkom M. spicatum koji uopšte nije adsorbovao ovaj trihotecen tipa B. Naši rezultati koji su prikazani ovde pokazuju da zagađivanje hrane i hrane za životinje različitim vrstama mikotoksina može biti smanjeno dodavanjem preparata dobijenog kombinacijom različitih neorganskih i organskih adsorbenata koji poseduju različite karakteristike vezivanja mikotoksina., Aflatoxin B1 (AFB1), ochratoxin A (OTA), zearalenone (ZON), deoxynivalenol (DON) and T-2 toxin are the most extensively studied toxic fungal metabolites. Once mycotoxins enter the food/feed production chain keeping their toxic characteristics, it is very difficult to remove or eliminate them. One of promising methods to reduce mycotoxins in contaminated food/feedstuffs is the use of mycotoxin binders. This paper presents the results of in vitro investigations of mineral mycotoxin binders (bentonite - BEN, diatomite - DIA and zeolite - ZEO), and organic mycotoxin binders - agricultural waste materials (Myriophillium spicatum, peach and sour cherry pits). Chemical compositions of the adsorbents have showed that they do not consist of elements toxic to the animals. Inorganic adsorbents (BEN, DIA and ZEO) tested in vitro were better binders of AFB1 (94.97% - 96.90%), while the biosorbents were more efficient in adsorption of OTA (19.98% - 66.66%), ZON (33.33% - 75.00%) and T-2 toxin (16.67% - 50.00%). Inorganic adsorbents and organic waste materials expressed similar binding capacity for DON in vitro, with the exception of M. spicatum that did not at all adsorb this type B trichothecene. Our results indicate that feed contamination with different types of mycotoxins might be diminished by a product that combines different inorganic and organic adsorbents with diverse mycotoxin binding properties.",
publisher = "Univerzitet u Novom Sadu - Naučni institut za prehrambene tehnologije, Novi Sad",
journal = "Food and Feed Research",
title = "In vitro uklanjanje mikotoksina korišćenjem različitih neorganskih adsorbenata i organskih otpadnih materijala iz Srbije, In vitro removing of mycotoxins by using different inorganic adsorbents and organic waste materials from Serbia",
pages = "96-87",
number = "2",
volume = "45",
doi = "10.5937/FFR1802087B",
url = "conv_408"
}

Bočarov-Stančić, A., Lopičić, Z., Bodroža-Solarov, M. I., Stanković, S. Ž., Janković, S. M., Milojković, J.,& Krulj, J. A.. (2018). In vitro uklanjanje mikotoksina korišćenjem različitih neorganskih adsorbenata i organskih otpadnih materijala iz Srbije. in Food and Feed Research
Univerzitet u Novom Sadu - Naučni institut za prehrambene tehnologije, Novi Sad., 45(2), 87-96.
https://doi.org/10.5937/FFR1802087B
conv_408

Bočarov-Stančić A, Lopičić Z, Bodroža-Solarov MI, Stanković SŽ, Janković SM, Milojković J, Krulj JA. In vitro uklanjanje mikotoksina korišćenjem različitih neorganskih adsorbenata i organskih otpadnih materijala iz Srbije. in Food and Feed Research. 2018;45(2):87-96.
doi:10.5937/FFR1802087B
conv_408 .

Bočarov-Stančić, Aleksandra, Lopičić, Zorica, Bodroža-Solarov, Marija I., Stanković, Slavica Ž., Janković, Snežana M., Milojković, Jelena, Krulj, Jelena A., "In vitro uklanjanje mikotoksina korišćenjem različitih neorganskih adsorbenata i organskih otpadnih materijala iz Srbije" in Food and Feed Research, 45, no. 2 (2018):87-96,
https://doi.org/10.5937/FFR1802087B .,
conv_408 .