Ahmed E. Yousef

Analytical Food Microbiology


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in Figure 3.6, 1 ml of the 10–2, 10–3, and 10–4 dilutions were used to inoculate the MPN tubes. This inoculation would correspond to 0.01, 0.001, and 0.0001 g of sample in successive MPN tube sets. Therefore, the value from the MPN table, corresponding to the number of positive tubes, must be adjusted to accommodate the difference in amounts of the sample analyzed. Because the sample is ten times more dilute, the table values should be multiplied by ten. Alternatively, the following equation can be used:

      (3.8)StartLayout 1st Row upper M o s t p r o b a b l e n u m b e r p e r g f o o d left-parenthesis upper M upper P upper N slash g right-parenthesis equals 2nd Row StartLayout 1st Row upper T a b l e r e a d i n g f o r p o s i t i v e t u b e s i n t h e 3 d i l u t i o n s e t 2nd Row times StartFraction normal upper T a b l e prime s f o o d w e i g h t i n f i r s t d i l u t i o n t u b e Over upper A c t u a l f o o d w e i g h t i n f i r s t d i l u t i o n t u b e EndFraction EndLayout EndLayout

      This pattern continues if higher dilutions are used to inoculate MPN tubes. MPN results should be reported in scientific notation with the units of MPN/g. For the example in Figure 3.6, the result after correction would be reported as 2.1×102 MPN/g.

      In a situation where all incubated tubes were negative (MPN score: 0, 0, 0), the result would be reported as < 3.0×101 MPN/g (assuming no adjustment for dilution scheme). Analysts should not report 0 MPN/g. Similarly, if all incubated tubes were positive (MPN score: 3, 3, 3) the result would be > 1.1×104 MPN/g. These values do not require the “est.” designation due to the presence of the greater than (>) or the less than (<) signs.

      1 Blodgett, R. (2010). Most Probable Number from Serial Dilutions: Bacteriological Analytical Manual Appendix 2. Washington, DC: U.S. Food and Drug Administration.

      2 Harrigan, W.F. (1988). Laboratory Methods in Food Microbiology, 2e. San Diego: Academic Press.

      3 Sutton, S. (2006). Counting colonies. Pharma Microbiology Forum Newsletter, 12(9): 2–5.

      1 An analytical facility received a laboratory sample containing ground meat. The product weighed 1000 g and the requested microbiological analysis included determining the product’s aerobic mesophilic count. The vendor did not provide information about the microbiological quality or safety of product but according to laboratory’s records, a similar product from the same vendor was analyzed in the previous month and its aerobic mesophilic count was 5.4×104 CFU/g.Develop a sample preparation plan that includes withdrawing analytical sample(s). Hint: Review information provided in Chapter 2.Prepare a dilution scheme that shows the dilutions to be prepared and dilutions to be plated. Consider that the spread‐plating method is to be used.How different would the dilution scheme be if pour‐plating was used instead of spread‐plating?How different would the dilution scheme be if no information or record about this sample was available?

      2 Develop a mathematical formula (or formulae) that the analyst can use to design dilution‐plating scheme if the approximate concentration of the targeted population (CFU/g) is known.

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