Effect of absorbent pads containing oregano essential oil on the shelf life extension of overwrap packed chicken drumsticks stored at four degrees Celsius.

The addition of sachets or pads containing volatile antimicrobial agents into packages has been the most successful commercial application of antimicrobials to packaging. In this study, the effect of oregano (Origanum onites) essential oil on the extension of shelf life of overwrap packed fresh chicken drumsticks was investigated. Meat exudate absorbent pads were sprayed with 5 mL of oregano essential oil at a concentration of 1.5% in distillate water. Sampling was carried out at 0, 3, 5, and 7 d of the refrigerated storage. Total viable count, psychrotrophs, pseudomonads, members of the family Enterobacteriaceae, yeasts, and lactic acid bacteria were enumerated. Physicochemical analysis and sensorial evaluation were also conducted. The shelf life of fresh chicken drumsticks was approximately 3 d. Oregano essential oil extended product shelf life by approximately 2 d. Thus, incorporation of essential oils to absorbent pads may have supplementary applications in food packaging.

The effect of water extract of sumac (Rhus coriaria L.) and lactic acid on decontamination and shelf life of raw broiler wings.

In an attempt to improve the bacteriological quality and refrigerated shelf life of broiler meat, 10-min surface wash treatments with sterile distilled water (DW), 8% (wt/vol) water extract of sumac (Rhus coriaria L.) fruits (WES), and 2% (vol/vol) lactic acid (LA) were compared by using a broiler wing model. The aerobic plate counts (log10 cfu/g) of psychrotrophs, mesophilic aerobes, Enterobacteriaceae, coliforms and presumptive fecal coliforms on the samples were determined. Immediately after a 10-min decontaminaton, the mean count of all the bacterial groups was determined to be 3.9, 2.6, and 1.7 (log10 cfu/g) for DW, WES, and LA, respectively. Because the postdecontamination population level of psychrotrophs, mesophiles, and Enterobacteriaceae were low in the LA-treated group compared to the WES group, an equity between the 2 groups in the point of view of the 3 bacterial groups existed at d 10 of cold storage (3 +/- 1 degrees C). Shelf life was 7 and 14 d for wings treated with DW and WES, respectively, whereas the LA-treated wings did not spoil after 14 d of cold storage (3 +/- 1 degrees C). Nevertheless, an undesirable pale color and an acidulous odor occurred in the LA-treated wings. In contrast, a good color appeared on the WES-treated wings, which was also superior to the color of the DW-treated wings. Such advantages of WES may be important for poultry processors and for consumers. However, the immediate decontamination and refrigerated shelf life extension potential of WES should be intensively studied in antimicrobial interventions in poultry processing plants.