| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1243627 | Talanta | 2014 | 8 Pages |
•Pseudomonas spp. was an SSO of chilled skinless chicken breast during storage.•The growth of Pseudomonas spp. was linearly correlated with CO2 metabolite.•Mixed-dye–based indicator could enhance an expansion of the range of color change.•Color change of freshness indicator could show clearly when exposed to CO2 levels.•It allows a dynamic freshness to be monitored visually alongside best-before date.
A colorimetric mixed-pH dye-based indicator with potential for the development of intelligent packaging, as a “chemical barcode” for real-time monitoring of skinless chicken breast spoilage, is described. Also investigated was the relationship between the numbers of microorganisms and the amount of volatile compounds. This on-package indicator contains two groups of pH-sensitive dyes, one of which is a mixture of bromothymol blue and methyl red, while the other is a mixture of bromothymol blue, bromocresol green and phenol red. Carbon dioxide (CO2) was used as a spoilage metabolite because the degree of spoilage was related to the amount of increased CO2, and which was more than the level of total volatile basic nitrogen (TVB-N) during the storage period. Characteristics of the two groups of indicator solutions were studied, as well as their response to CO2. A kinetic approach was used to correlate the response of the indicator label to the changes in skinless chicken breast spoilage. Color changes, in terms of total color difference of a mixed-pH dye-based indicator, correlated well with CO2 levels of skinless chicken breast. Trials on skinless chicken breast samples have verified that the indicator response correlates with microbial growth patterns, thus enabling real-time monitoring of spoilage either at various constant temperatures or with temperature fluctuation.
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