Sensory Evaluation of Different Packaged Roast Beef Treatments Designed for the Extension of Its Shelf Life ()
1. Introduction
Roast beef is a cured, cooked, and smoked whole meat piece product. It is usually consumed or served cold after processing. As roast beef is a cured meat product, curing contributes to the characteristic pink color, specific texture and flavor, and provides a preservative effect especially against the growth of spores of Clostridium botulinum [1] [2] .
Nitrite is a critical component used to cure meat [3] [4] , and to reduce the growth rates of pathogens such as L. monocytogenes, E. coli O157:H7, S. aureus, and Bacillus cereus at levels used in cured meat and poultry products [5] - [9] . The antioxidant effect of nitrite is likely due to the same mechanisms responsible for cured color development involving reactions with heme proteins and metal ions, chelating of free radicals by nitric oxide, and the formation of nitroso- and nitrosyl compounds having antioxidant properties [10] .
In order to keep meat products safe through the food chain, sodium nitrite is most commonly used in meat curing to help develop a desirable flavor and attractive color. Nitrite retards the development of meat rancidity and unpleasant flavors and odors of meat during storage [3] . Many researches were carried out to investigate nitrite alternatives in a step to complete or partially substitute its use in meat and meat products [11] - [18] ; they concluded that complete nitrite replacement is not possible but partial replacement in combination with other additives which is acceptable.
Most of the added nitrite during the product manufacturing is either depleted through a series of reactions or lost during certain manufacturing steps. Typically, between 10 and 20 percent of the originally added nitrite normally remains after the manufacturing process and those levels continue to decline during storage. These levels of nitrite, referred to as residual nitrite, slowly decline over the storage life of cured meat products until they are often non-detectable [4] [19] .
Therefore, we carried out the first part of this research to investigate the effect of different nitrite concentrations and chilling temperature on the shelf life and chemical parameters of the studied roast beef [20] and we found that roast beef containing 0.026% nitrite and stored at 4˚C for 25 days had the lowest thiobarbituric acid (TBA) values, microbial growth and the lowest percentage of nitrite losses during storage.
As the sensory evaluation is one of the main shelf life parameters, therefore, the objective of this study was to:
・ Evaluate the effect of different nitrite concentrations on the sensory parameters of the studied roast beef including color, flavor, juiciness, texture and overall acceptability.
2. Materials and Methods
2.1. Roast Beef Manufacture
Frozen raw beef topside was taken out of the freezer and tempered overnight. The meat blocks were cut into pieces of 10 kg. It was then transferred to the brine injector where the injector delivers a solution of salt, sodium nitrite, potato starch, isolated soy bean protein, sodium ascorbate, sodium tri-poly phosphates, spices and water (Table 1).
The mixture was cooled to a temperature of 4˚C. After injection, the beef were transferred to the tumbler, which is also cooled down to 4˚C. The tumbling process took about one hour under vacuum pressure. Then, the meat pieces were placed into fibrous packages, and the packaging process took place under vacuum, and was controlled by computer, each bag contained 1 kg of meat. The beef, then, was held for certain time at about 6˚C - 7˚C [21] - [23] .
Table 1. Meat and brine formula used to produce roast beef.
2.2. Cooking and Storage
Roast beef batches were thermally processed in a steam oven as follows:
The beef in their special fibrous bags was dried for 40 minutes to lower the amount of water. Following drying, the beef was liquid smoked at 76˚C; smoking took 1.30 hour, then the beef was dried for 3 minutes. The roast beef was cooked to a core temperature of 74˚C for 4 hours. After cooking the beef was allowed to dry to get the roasted color. Then the beef was taken out to be cooled in the blasted chiller for four hours, to cool from 64˚C to 1˚C. After that, the roast beef was kept in refrigerator at 4˚C throughout the duration of the experiment D. B, C and A samples were taken and kept at abused temperature (12˚C).
2.3. Proximate Analysis
Moisture, fat and protein were determined directly after storage using Infratech Analyzer (Model Tecator 1265, Sweden) [24] . Ash determination was carried out according to AOAC [25] .
2.4. Sensory Evaluation
A hedonic scale test as described by [26] was used to investigate the degree of preference to the roast beef treated with different levels of nitrite and different chilling temperatures after seven days of storage. The four treatments were evaluated in one session. Thirty five panelists were chosen from the teaching staff, graduate students and technicians of the Department of Nutrition and Food Technology, University of Jordan. The panelists were from both sexes, and from different ages, they were requested to taste each sample separately without comparing it with other samples. These panelists were familiarized with the questionnaire of the sensory parameters. The samples were evaluated for desirability in color, flavor, juiciness, texture and overall acceptability using a 9-hedonic scale test, varying from 9, which means like extremely to 1, which means dislike extremely. Pieces of bread and water were used to neutralize the taste between samples testing.
2.5. Statistical Analysis
Statistical analysis of data was carried out using Statistical Analysis System (SAS) package. Analysis of variance (ANOVA) of the general linear models (GLM) procedure of statistical analysis system was used. The significant differences between means were determined at P < 0.05 using Duncan Multiple Range Test. Correlation coefficient was used to estimate the interaction between different measures were generated using the Pearson’s correlation coefficient [27] [28] .
3. Results and Discussion
3.1. Proximate Composition
Proximate contents of the roast beef were 78.4% moisture, 1.8% fat, 14.8% protein, and 3% ash. This similarity in proximate is due to the use of the same components as well as cooking program for all treatments except of nitrite concentration as shown in Table 1.
3.2. Sensory Evaluation
The sensory characteristics of color, flavor, juiciness, texture and overall acceptability were evaluated using 9-hedonic scale. There were no significant differences (P > 0.05) between all treatments. When the roast beef Samples were compared with each other, the panelists were unable to differentiate sensory differences, despite of different added nitrite levels. These results indicate that the ability to extend shelf life of the roast beef [20] without affecting the sensory properties which are considered one of the main shelf life parameters. Moreover, storage and distribution of this product through the food chain could be enhanced and become more flexible.
3.2.1. Color
Figure 1 shows the color scores of roast beef treatments. Although the added nitrite levels were different, a typical red cured meat beef color was achieved and scored in the range of “like slightly” to “like moderately”. This could be due to that only small quantities of nitrite are required to produce the cured meat color: theoretically 2 - 14 mg/kg is sufficient to convert half of the myoglobin present in fresh meat, but more nitrite is required to provide for the competing reactions, and 25 mg/kg are required to give a stable cured color throughout the extended shelf life [29] [30] . Moreover, vacuum packaging could be considerably effective to increase the desirable meat color during storage [31] .
Color scores are usually affected by nitrite level, but in our case, the insignificant difference in color could be explained by the fact that the magnitude of differences in color between samples was very little and the panelists were unable to detect it. Color is one of the main food appearance attributes and has very significant role in the quality evaluation of meat and meat products as well as purchase decision [32] [33] . Therefore, it is beneficial to enhance other quality characteristics without affecting this significant parameter.
3.2.2. Flavor
Figure 1. Sensory evaluation of roast beef color.
Figure 2. Sensory evaluation of roast beef flavor.
3.2.3. Juiciness
3.2.4. Texture
The texture of the roast beef that ranged from “like slightly” to “like moderately” (Figure 4) indicated that roast beef samples with 0.018% added nitrite had a softer texture than roast beef with 0.006% added nitrite. The inclusion of nitrite, at low level (0.006%), seems to make the texture of roast beef more acceptable. Increasing the
Figure 3. Sensory evaluation of roast beef juiciness.
Figure 4. Sensory evaluation of roast beef texture.
amount of nitrite from 0.006% to 0.018% had no additional effect on texture scores; it seems likely that nitrite curing affected the texture of the meat. That is in disagreement with [4] who reported that reactions between nitrite and myofibrillar proteins positively affected the texture of the cured meats.
[38] reported many factors that can affect the texture of meat products such as product formulation, fat and protein content and characteristics, and other factors. In our results tenderness as well as juiciness were not significantly (P > 0.05) different, this could be due to the using of the same formula for all treatments except of the nitrite concentration. This was demonstrated by the proximate analyses that were similar to the all treatments with no significant differences, which could be reflected on the textural characteristics of the treatments. [12] found that variations in nitrite concentration had no additional effect on the mortadella texture.
3.2.5. Overall Acceptability
Overall acceptability is the summation effect of the all sensory parameters, therefore, treatments that received high evaluation scores regarding their color, flavor, juiciness, and texture will be scored high as overall acceptability. The hedonic evaluation scores for overall acceptability corresponding to “like moderately” show that no significant (P > 0.05) difference between all treatments (Figure 5), which might indicate that different nitrite levels do not affect the overall acceptability [34] .
It seems that the panelists were unable to differentiate between treatments of the roast beef, and so, the results showed that high nitrite level of 0.026% did not cause any sensory differences. Meat is a perishable food, therefore, it is necessary to control meat spoilage in order to increase its shelf life, maintain its nutritional value and other quality and sensory parameters [39] .
4. Conclusion
It could be concluded from the overall results of the sensory evaluation that different added nitrite concentrations have no significant effect on the investigated sensory characteristics, and the addition of 0.026% nitrite with proper refrigeration has resulted in
Figure 5. Overall acceptability of roast beef batches.
an extension of the roast beef shelf life with acceptable organoleptic parameters.
Acknowledgements
We would like to thank the University of Jordan for their continuous support and financial fund provided to accomplish this research. Thanks, also, to Nabil Factory- Amman/Jordan for their cooperation in providing the necessary facilities.