Comparison of cook loss, shear force, and sensory descriptive profiles of boneless skinless white meat cooked from a frozen or thawed state

Abstract

Four replications were conducted to compare quality measurements, cook loss, shear force, and sensory quality attributes of cooked boneless skinless white meat, broiler breast fillets (pectoralis major) prepared directly from a frozen state or prepared from a thawed state. In each replication, fresh broiler fillets (removed from carcasses 6–8 h postmortem) were procured from a local commercial processing plant and stored in a −20°C freezer until use. On the sensory evaluation date, fillets were cooked to an endpoint temperature of 78°C either directly from the frozen state (thawing during cooking) or after the frozen samples were thawed in a refrigerator (2°C) overnight (thawing before cooking). Cook loss and Warner-Bratzler (WB) shear force were used as indicators for instrumental quality measurements. Sensory quality measurements were conducted by trained descriptive panelists using 0 to 15 universal intensity scales for 8 texture and 10 flavor attributes. Results show that there were no differences (P > 0.05) in measurements for sensory descriptive flavor attributes of cooked fillets between the 2 sample thawing methods, indicating that the sensory flavor profiles of both methods were similar to each other. However, WB shear force (36.98 N), cook loss (21.2%), sensory texture attributes of cohesiveness (intensity score was 5.59), hardness (5.14), rate of breakdown (5.50), and chewiness (5.21) of the breast fillets cooked directly from the frozen state were significantly higher (P < 0.05) than those of the breast meat cooked after being thawed (30.56 N, 19.0%, 5.19, 4.78, 5.29, and 5.02, respectively). These results indicate that cookery directly from frozen boneless skinless white meat can result in different measurement values of cook loss, shear force, and sensory descriptive texture attributes compared with cookery after frozen fillets are thawed.