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Cook Loss (cook + loss)

Distribution by Scientific Domains

Chemistry	100%

Selected Abstracts

INFLUENCE OF SODIUM TRIPOLYPHOSPHATE (STP) TREATMENT AND COOKING TIME ON COOK LOSSES AND TEXTURAL PROPERTIES OF RED MEATS

JOURNAL OF FOOD PROCESS ENGINEERING, Issue 6 2007
S. BELGIN ERDOGDU
ABSTRACT Sodium tripolyphosphates (STPs) are important functional additives used in meat products. STPs reduce cook losses and improve textural properties, especially by increasing the water-holding capacity of proteins. However, increases in cooking time or temperature enhance meat proteins' denaturation, resulting in a reduced water-holding capacity. The amount of STPs diffused into meats would play an important role for these changes. Therefore, the objectives of this research were to determine the effects of processing conditions (cooking time, STP concentration and dipping time) on cook losses and textural properties of red meats, and to relate these changes with diffused amount of STPs. For this purpose, meats (2 × 2 × 2 cm in size) were dipped in different concentrations of STP solutions (2, 4 and 6%) for 10, 20 and 30 min, and were cooked in boiling water for 5, 10 and 15 min. Cook losses were calculated from weight changes, and textural properties were determined by applying texture profile analysis to data obtained using Texture Analyzer TA-XT2i (Stable Micro Systems, Godalming, Surrey, U.K.). STPs were found to decrease cook losses and hardness values. While an increase in STP concentration increased cohesiveness, increase in cooking time resulted in higher hardness, gumminess, chewiness and cook losses. An increase in dipping times also decreased the cook losses and hardness. The results showed that STP concentration, STP dipping and cooking times had significant effects on the changes of textural properties and cook losses of meats. These results may be used for further meat processing optimization studies if they get correlated with sensory data obtained at the same conditions. PRACTICAL APPLICATIONS Cooking to assure safety of food products leads to changes in sensory attributes. The major changes occurring in meats are shrinkage, toughening of tissues, releasing of meat juice and color due to the effect of thermal treatment on proteins. Based on these, resulting cook losses for economical considerations and changes in textural properties affecting consumer satisfaction are widely recognized. Because the meat processing industry uses sodium tripolyphosphates (STPs) to improve textural properties and to reduce cook losses, the objective of this research was to determine the effects of STPs and cooking time on cook losses and textural properties of red meats. The results showed that STPs and cooking time affected the changes in cook losses and textural properties significantly. In addition to these results, an optimization study for decreasing cook losses while improving textural properties should be conducted where these changes are attributed to be significant for human perception using a sensory panel. [source]

Relating Instrumental Texture, Determined by Variable-Blade and Allo-Kramer Shear Attachments, to Sensory Analysis of Rainbow Trout, Oncorhynchus mykiss, Fillets

JOURNAL OF FOOD SCIENCE, Issue 7 2010
Aunchalee Aussanasuwannakul
Abstract:, Texture is one of the most important quality attributes of fish fillets, and accurate assessment of variation in this attribute, as affected by storage and handling, is critical in providing consistent quality product. Trout fillets received 4 treatments: 3-d refrigeration (R3), 7-d refrigeration (R7), 3-d refrigeration followed by 30-d frozen storage (R3F30), and 7-d refrigeration followed by 30-d frozen storage (R7F30). Instrumental texture of raw and cooked fillets was determined by 3 approaches: 5-blade Allo-Kramer (AK) and variable-blade (VB) attachment with 12 blades arranged in perpendicular (PER) and parallel (PAR) orientations to muscle fibers. Correlation between instrumental texture and sensory hardness, juiciness, elasticity, fatness, and coarseness was determined. Muscle pH remained constant at 6.54 to 6.64. Raw fillets lost 3.66% of their original weight after 30-d frozen storage. After cooking, weight loss further increased to 15.97%. Moisture content decreased from 69.11 to 65.02%, while fat content remained constant at 10.41%. VBPER detected differences in muscle sample strength (P= 0.0019) and demonstrated effect of shear direction reported as maximum force (g force/g sample). AKPER detected differences in energy of shear (g × mm; P= 0.0001). Fillets that received F30 treatments were less extensible. Cooking increased muscle strength and toughness. Force determined by VBPER was correlated with sensory hardness (r= 0.423, P= 0.0394) and cook loss (r= 0.412, P= 0.0450). VB attachment is accurate, valid, and less destructive in fillet texture analysis. Practical Application:, A new shearing device was validated with sensory analysis. Settings and parameters obtained could be used to define fillet texture quality associated with muscle fiber orientation. [source]

Changes in Tenderness, Color, and Water Holding Capacity of Broiler Breast Meat during Postdeboning Aging

JOURNAL OF FOOD SCIENCE, Issue 8 2009
Y.S. Lee
ABSTRACT:, The impact of postharvest aging on the tenderness, color, water holding capacity, and appearance of broiler breast fillets after deboning was investigated. A total of 360 broilers were processed and deboned at either 1.5-, 3-, or 6-h postmortem (PM) and aged at 4 ± 1 °C for up to 6 d. Tenderness was predicted by the Meullenet,Owens razor shear. Drip loss, cook loss, color, and muscle-shape profiles were also evaluated during the 6-d aging duration. Deboned fillets were in the tenderness range corresponding to "neither tough nor tender" for the first 2 d of aging and changed into "slightly tender" after 3 d of aging according to the instrument-tenderness perception equivalent scale. Tenderization due to postdeboning aging seemed to be more pronounced for fillets deboned in a prerigor state (that is, 1.5- and 3-h PM). Over the aging period, tenderness improved by 6.9 and 7.4 percentage points for the 1.5- and 3-h PM treatments, respectively, while those fillets deboned in a postrigor state (6-h PM) exhibited no significant difference in tenderness. Drip and cook loss of fillets consistently increased over the aging period. The color of fillets tended to become less red and more yellow during aging although there was no significant difference in,L*. Overall, the tenderizing effects of deboned broiler breast fillets during the storage of 6 d were minimal but seemed to be affected by fillet height and length as determined through analysis of covariance (ANCOVA) and K-means clustering analysis. Thicker and tougher fillets were more susceptible to the tenderizing effects during postdeboning aging. [source]

Effects of Salt, BHA/BHT, and Differing Phosphate Types on Quality and Sensory Characteristics of Beef Longissimus Muscles

JOURNAL OF FOOD SCIENCE, Issue 4 2009
C.W. Rowe
ABSTRACT:, USDA Select striploins (n,=,20) were cut into thirds (anterior, medial, and posterior) and randomly assigned to 1 of 6 treatments. Treatments included: (1) control (C); (2) 0.006% BHA (butylated hydroxyl anisole)/BHT (butylated hydroxytoluene) (70%/30%) (BB); (3) 0.4% trisodiumphosphate (CT); (4) 0.4% sodiumtripolyphosphate with 0.5% salt (BH); (5) sodiumtripolyphosphate, 0.5% salt, and 0.006% BHA/BHT (70%/30%) (SB); (6) 0.2% sodiumtripolyphosphate, 0.2% trisodiumphosphate, and 0.5% salt (STB). Muscle sections were injected to 110% (10% pump) of their weight with their respective treatments. Inclusion of BHA/BHT allowed for lower mean oxidation values. Regardless of phosphate type, muscles treated with both phosphate and salt had lower retail purge (P < 0.05). Sensory panelists rated (P < 0.05) STB, SB, and BH to be juicier than all other treatments. These data suggest that inclusion of both salt and phosphate can enhance palatability, lower cook loss, and retail purge. [source]