2022
DOI: 10.2478/jvetres-2022-0060
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Potential risk of botulinum neurotoxin -producing clostridia occurrence in canned fish

Abstract: Introduction Heat treatment is indispensable in fish canning to provide an acceptable shelf life. Its optimisation reduces the risk of the presence of Clostridium botulinum spores, which could potentially cause botulism cases. This study evaluated canned fish samples for botulism neurotoxin (BoNT)-producing clostridia contamination and can bulging through microbiological contaminant growth. A new analytical approach was developed for detection of such clostridia and phenotypically similar spe… Show more

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“…Managing the proliferation of C. botulinum in fish and seafood entails measures such as lowering the pH to levels below 4.6, incorporating salt or sodium nitrite, reducing moisture content, and maintaining lower temperatures (Inanoglu et al., 2022). C. botulinum exists ubiquitously in the environment, inhabiting soils, dust particles, and the sedimentary layers of both marine and freshwater ecosystems, including wetlands, rivers, and lakes (Jarosz et al., 2022). The dispersion of its spores can occur through mechanisms such as heavy rainfall mobilizing soil‐bound spores or wind carrying dust particles.…”
Section: Microbiological Safety In Seafood Productsmentioning
confidence: 99%
“…Managing the proliferation of C. botulinum in fish and seafood entails measures such as lowering the pH to levels below 4.6, incorporating salt or sodium nitrite, reducing moisture content, and maintaining lower temperatures (Inanoglu et al., 2022). C. botulinum exists ubiquitously in the environment, inhabiting soils, dust particles, and the sedimentary layers of both marine and freshwater ecosystems, including wetlands, rivers, and lakes (Jarosz et al., 2022). The dispersion of its spores can occur through mechanisms such as heavy rainfall mobilizing soil‐bound spores or wind carrying dust particles.…”
Section: Microbiological Safety In Seafood Productsmentioning
confidence: 99%