19 research outputs found

    Properties of Natural and Organic \u27Naturally Cured\u27 Meats

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    A somewhat unusual aspect to cured natural and organic processed meats is that nitrate and nitrite cannot be added as ingredients, because preservatives are not permitted in natural and organic foods. This has resulted in alternative meat-curing processes that utilize natural sources of nitrate, typically celery juice concentrate or powder

    Addition of Red Wine on the Physicochemical Properties and Sensory Characteristics of Uncured Frankfurter-type Sausage

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    The aim of this work was to evaluate the quality and sensory characteristics of ready-to-eat (RTE) frankfurter-type sausage cured with celery juice powder and including red wine. Four frankfurter treatments including a conventionally cured treatment without red wine (control) and three treatments cured with pre-converted vegetable juice powder and 0%, 5% or 10 % (v/w) red wine were prepared. Adding 5% red wine increased the a*-value, and the textural resilience, cohesiveness and springiness of the frankfurters, as well as decreased lipid/protein oxidation of the final products. Added wine also introduced new volatiles (alcohol and ester compounds) to the frankfurters. The effects of red wine might be advantageous in natural and organic processed meats where nitrite concentrations are typically less than in conventionally cured products. However, the addition of excess amounts of red wine (10%) to the meat batter may have negative effects on the meat quality

    Effect of Citrus Fiber Addition on Quality Attributes of Fully Cooked Deli-Style Turkey Breast

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    The effects of citrus fiber on the color, texture, lipid oxidation, and sensory characteristics of fully cooked deli-style turkey breast during storage (3°C) were studied. Four treatments were evaluated: control, 0.25% citrus fiber, 0.50% citrus fiber, and 0.105% sodium tripolyphosphate. The study was independently replicated 3 times. Proximate analysis and pH were measured once, and color (Hunter L, a, b), lipid oxidation (thiobarbituric acid-reactive substances), texture (Texture Profile Analysis hardness, resilience, cohesiveness, springiness, and chewiness), and sensory parameters (turkey aroma, texture, moistness, turkey flavor, off-flavor, and color) were measured at regular intervals on vacuum-packaged samples throughout an 84-d storage period. Aside from Texture Profile Analysis resiliency and sensory moistness lower in the 0.105% sodium tripolyphosphate group, all experimental treatments resulted in product with equivalent quality attributes to the control. At the levels tested in this specific application (high moisture, low fat), the citrus fiber evaluated did not affect the product’s quality attributes in a measurable way

    Compositional Differences Among Types of Mechanically Separated Chicken and Their Influence on Physicochemical Attributes of Frankfurter-Type Sausages

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    Mechanically separated chicken (MSC) from 2 different separation methods (MSC1, Beehive separator, aged bones [Provisur Technologies, Mokena, IL]; MSC2, Poss separator, fresh bones [Poss Design Limited, Oakville, Ontario, Canada]) and chicken breast trim (CBT) were used as raw materials in frankfurters. Texture, color, and lipid oxidation were measured over a refrigerated storage period of 98 d. Both MSC were higher in fat and lower in moisture than CBT. MSC frankfurters had lower L* and higher a* values than CBT frankfurters, with MSC2 frankfurters having the lowest L* and highest a* (P < 0.05). Thiobarbituric acid-reactive substances values were higher in MSC1 frankfurters (P < 0.05) than in CBT and MSC2 frankfurters. Texture Profile Analysis hardness, cohesiveness, resilience, and chewiness were highest in MSC2 frankfurters. Differences among MSC resulted in detectable differences in finished product attributes, with MSC2 frankfurters being darker and redder and having lower levels of lipid oxidation than MSC1 frankfurters, underscoring the importance of understanding the specific functional attributes of MSC obtained by different processes prior to product formulation and manufacturing

    Nitrosylation of Myoglobin and Nitrosation of Cysteine by Nitrite in a Model System Simulating Meat Curing

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    Demand is growing for meat products cured without the addition of sodium nitrite. Instead of the direct addition of nitrite to meat in formulation, nitrite is supplied by bacterial reduction of natural nitrate often added as vegetable juice/powder. However, the rate of nitrite formation in this process is relatively slow, and the total ingoing nitrite is typically less than in conventional curing processes. The objective of this study was to determine the impact of the rate of addition of nitrite and the amount of nitrite added on nitrosylation/nitrosation reactions in a model meat curing system. Myoglobin was preferentially nitrosylated as no decrease in sulfhydryl groups was found until maximum nitrosylmyoglobin color was achieved. The cysteine–myoglobin model retained more sulfhydryl groups than the cysteine-only model (p \u3c 0.05). The rate of nitrite addition did not alter nitrosylation/nitrosation reactions (p \u3e 0.05). These data suggest that the amount of nitrite but not the rate of addition impacts the nitrosylation/nitrosation reactions this syste
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