Storage Stability of Clostridium botulinum Toxin and Spores in Processed Cheese

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Growth initiated from detoxified spores of Clostridium botulinum 62A resulted in toxin production of 50 to 10,000 mouse lethal doses (MLD) per gram of processed soft surface-ripened cheese. Regular assays during subsequent storage of toxic samples at 2 to 4 C revealed a characteristic two- to fivefold increase in toxin titer during the initial 1 week to 12 months of storage. Thereafter, the toxin titer remained constant for 2 to 4 years, after which the toxicity declined rapidly. At the end of 6 years of storage at 2 to 4 C, the samples still contained 20 to 5,000 MLD of toxin per gram, with the usual toxin level at 200 to 500 MLD. Toxic culture filtrates of C. botulinum incorporated into cheese and stored at 30 C for 60 days showed no decline in toxin in processed type I cheese, but toxin decreased slightly in processed type II and type III cheese. The surface flora of these cheeses did not attack but, on the contrary, protected C. botulinum toxin during storage at 30 C. Initial difficulties in recovering C. botulinum organisms from type I cheese were traced to growth inhibitory activity which could be removed by washing with distilled water in a centrifuge. Viable spores or vegetative cells could be recovered from all samples after 4 to 5 years of storage at 2 to 4 C. After 6 years, organisms were recovered from all except three samples of type I cheese. Two other samples showed a large decrease in viable organisms. In type III cheese, spores remained remarkably stable for 6 years at the level of the initial inoculum, i.e., approximately 105 spores per gram.

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