1 Jog Raj*, Hunor Farkaš, Svetlana Ćujić, Zdenka Jakovčević, and Marko Vasiljević PATENT CO, DOO., Mišićevo, Serbia *Corresponding author: jog.raj@patent-co.com A PREVENTIVE APPROACH BASED ON MYCOTOXIN ANALYSIS
follows.The
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Due to this, PATENT CO has been performing annual corn surveys as a preventative tool and the results for the 2021 harvest are shown as
Mycotoxins are produced as secondary metabolites by various fungi in almost all agricultural commodities. The main mycotoxin-producing fungi are Aspergillus,Fusarium, and Penicillium.
Mycotoxins are regulated in almost 100 countries but most of these regulations are related to aflatoxins and the maximum tolerated levels differ greatly among countries.
Mycotoxicosis can result in significant economic losses on animal farms (swine, poultry, among others) due to reduced productivity and increased disease incidence.
variations in tolerated levels of mycotoxins and the non-regulation of other mycotoxins in various countries pose a big challenge for the animal feed industry and these variations are increasing the importance of mycotoxin analysis of incoming raw materials before they enter the food/feed chain.
Aflatoxin B1 (AFB1), deoxynivalenol (DON), ochratoxin (OTA), zearalenone (ZEN), fumonisin (FB1 and FB2) and T-2 toxin are the most common mycotoxins found in food and feed samples (corn, wheat, finished feed, etc.).
The survey of mycotoxins in corn from 19 countries (Belarus, Bosnia & Herzegovina, Brazil, Croatia, Ecuador, Egypt, El Salvador, Guatemala, India, Italy, Mexico, Morocco, Philippines, Russia, Senegal, Serbia, Taiwan, Turkey, and Vietnam) showed that only 13% of all samples were not contaminated with mycotoxins.
In contrast, 10% of the samples were contaminated with one mycotoxin and 77% of the samples contained more than one mycotoxin (Figure 1).
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Figure 1. Percentage of mycotoxins in corn harvested in 2021 from 19 countries. LOQ 1 mycotoxin mycotoxin
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77 13 10
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Global 2021 survey of mycotoxins in corn
Our preventive approach is based on:
1. Sample collection by our partners globally.
2. Mycotoxin analysis using LC-MS/MS at PATENT CO
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This approach limits or reduces the carryover of mycotoxins from animals to humans.
MINAZEL PLUS® is based on unique technology for the adsorption of mycotoxins.
MYCORAID is based on hepatoprotection, immunoprotection, and biodegradation as the mode of action.
READ 2021 Global Mycotoxin Survey of corn harvested in19 countries
FB1 was the most predominant mycotoxin as it was detected in 80% of the tested corn samples from the 2021 harvest, followed by AFB1, which was detected in 23% of the samples, and DON in 22% of the samples.
The solution is based on using MINAZEL PLUS® and MYCORAID in feed for all livestock and aquaculture species.
3. Recommending solutions for the remediation of mycotoxins.
The preventive approach at PATENT CO
PATENT CO. invests significant resources in analyzing the presence of mycotoxins in raw materials and finished feed.
This suggests that the analysis of raw materials and finished feed for mycotoxins and the use of mycotoxin remediation products is of utmost importance for reducing the carry-over of mycotoxins from animals to humans.
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STEP 1 STEP 2 STEP 3
Animal feed samples
Remedation solution based on the use of Minazel Plus® or MYCORAID in feed
Recent surveys of raw materials and nished feed have shown the co-occurrence of more than one mycotoxin.
Figure 2. The preventive approach at PATENT CO.
Mycotoxin analysis using LC-MS/MS
CONCLUSION
This co-occurrence may lead to additive or synergistic e ects when fed to sensitive animal species (swine and poultry, amongst others).