Prerigor deboning and marination of broiler breast fillets are growing trends in the poultry industry. Marination can often enhance product attributes such as flavor, juiciness, and texture. The purpose of this study was to evaluate consumer acceptance of marinated broiler breast fillets deboned pre- (<4 h postmortem) and postrigor (>or= 4 h postmortem). A total of 400 broiler carcasses were processed using an inline system and deboned at various times: 0.25, 1.25, 2, 2.5, 3, 3.5, 4, 6, and 24 h postmortem. A 2-stage chilling system was used for all treatments with the exception of the 0.25 h treatment, which was deboned before chilling. After chilling, carcasses or fillets, or both, were aged on ice. Breast fillets were marinated with a 1% salt and 0.45% phosphate final concentration. Consumer sensory evaluations for moistness, tenderness, saltiness, flavor, and overall impression were obtained on all treatments using hedonic and just-about-right (JAR) scales. Although there were slight differences in hedonic ratings for overall impression, texture, and flavor of marinated breast fillets, all treatments could be categorized as "like slightly" to "like moderately." Using a JAR scale, only a small percentage of consumers (<18%) considered any of the treatments as "too tough." The scores for overall flavor or moistness were not affected by the deboning times because the majority of the people considered them to be JAR. Most the consumers reported the potential for purchase of the product as "probably would buy" to "may or may not buy." The results of this study indicate that marination of prerigor deboned meat (with 1% salt) is effective in producing product similar to marinated postrigor deboned meat, suggesting its effectiveness in improving meat quality attributes of early deboned meat.
Contamination of poultry with pathogenic bacteria contributes to human foodborne disease, causes damage to industry brand names, and has a significant economic impact on the food industry in the form of both damage to industry brand names and losses associated with recalls. Irradiation is a safe and effective means of decontaminating poultry products, but the maximum dose strengths allowed negatively impact poultry sensory quality characteristics. The 1st objective of this study was to investigate the potential interactive inhibitory effects of natural antimicrobials as components of a vacuum-marination in addition to various dose levels of irradiation. Tartaric acid (TA) at 2 levels and grape seed (GS) and green tea (GT) extracts were combined, vacuum-infused into chicken breast fillets, and irradiated at 1, 2, and 3 kGy by electron beam irradiation. The 2nd objective was to use a consumer test group to evaluate TA and plant extract infusion into chicken breast fillets with and without irradiation at 2 kGy on overall impression, flavor, texture, appearance, and tenderness. The results showed that samples vacuum-infused with TA at 37.5 and 75.0 mM and irradiated at 1 kGy significantly reduced Listeria monocytogenes (L.m.) levels by 2 and 3 log CFU/g compared to the control after 12 d of refrigerated storage. Vacuum-infusion of TA at 37.5 and 75.0 mM at 2 and 3 kGy irradiation, reduced L.m. to near nondetectable levels. The addition of TA and GS and GT to chicken breast fillets with and without irradiation did not significantly impact consumer preference, tenderness, appearance, or flavor. The addition of tartaric acid and natural plant extracts to chicken marinades could contribute to the prevention of L.m. contamination.
Effect of potassium lactate (PL) and sodium diacetate (SD) combinations at varying levels were evaluated in low (5%) and high (20%) fat chicken and turkey hotdog model systems. All the samples were surface inoculated with Listeria monocytogenes (approximately 4.6 log cfu/g), vacuum packed and stored at 4 o C for 28 days to determine the effective combination of PL and SD and the effect of fat content on the growth inhibition of L. monocytogenes. In chicken hotdog samples, maximum growth inhibitions (3.4 log cfu/g) were observed in low fat samples formulated with 3.0% PL and 0.15% SD. In turkey hotdog samples, maximum growth inhibitions (3.3 log cfu/g) were observed in low fat samples formulated with 3.0% PL and 0.2% SD. Effective combination levels determined in low and high fat chicken were 3.0% PL and 0.15% SD, whereas in low and high fat turkey, the effective levels were 3.0% PL and 0.20% SD. Overall, fat content had significant effect (P < 0.05) on growth inhibition as indicated by higher inhibitions in low fat chicken and turkey hotdogs than high fat samples. These results demonstrate that commercial usage levels of PL (2.0%) and SD (0.15%) alone are not sufficient to control L. monocytogenes in case of pathogen contamination.
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