Abstract
The enumeration of bacteria using plate-based counts is a core technique used by food and water microbiology testing laboratories. However, manual counting of bacterial colonies is both time and labour intensive, can vary between operators and also requires manual entry of results into laboratory information management systems, which can be a source of data entry error. An alternative is to use automated digital colony counters, but there is a lack of peer-reviewed validation data to allow incorporation into standards. We compared the performance of digital counting technology (ProtoCOL3) against manual counting using criteria defined in internationally recognized standard methods. Digital colony counting provided a robust, standardized system suitable for adoption in a commercial testing environment. The digital technology has several advantages:•Improved measurement of uncertainty by using a standard and consistent counting methodology with less operator error.•Efficiency for labour and time (reduced cost).•Elimination of manual entry of data onto LIMS.•Faster result reporting to customers.
Highlights
The enumeration of bacteria using plate-based counts is a core technique used by food and water microbiology testing laboratories
We compare the use of digital counting technology (ProtoCOL3) against manual counting using criteria defined in internationally recognized standard methods [11,12,13,14]
The recovery data in cfu per 1 mL for the heterotrophic plate count and cfu per 100 mL for chromogenic Membrane filtration using chromogenic agar (MI agar) were tested for normality by using the Shapiro–Wilk test including the confidence interval (CI) expressing a range likely to contain the true value of a population statistic and the standard error (SE) measuring the variability from the mean
Summary
The enumeration of bacteria using plate-based counts is a core technique used by food and water microbiology testing laboratories. ARTICLE INFO Method name: Automated colony counter protocol validation Keywords: Digital, Heterotrophic plate count, Water, cfu, Membrane filtration, Chromogenic agar Article history: Received 24 August 2015; Accepted 10 October 2015; Available online 22 October 2015
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