The objective of this study was to investigate the physicochemical and sensory attributes of scalded (SBC) and non-scalded (NSBC) broiler chicken breast meat. Ten carcasses from each type of chicken were randomly selected from the processing line of a commercial broiler processing plant. After dissecting the breast meat, physiochemical parameters such as pH, color, cooking loss, and proximate composition and sensory characteristics were examined. SBC contained higher protein but a lower fat content in breast meat compared to NSBC (p < 0.05). CIE L*, CIE a*, and CIE b* values of breast meat have not differed (p > 0.05) between NSBC and SBC. Higher pH values were shown by NSBC (p < 0.05) and no difference in cooking loss of breast meat from NSBC and SBC was observed (p > 0.05). Results of the sensory analysis showed a difference (p < 0.05) in the overall acceptability of breast meat between SBC and NSBC. Further studies are suggested to compare the levels of taste active compounds between SBC and NSBC.
Ethics approval (IRB/IACUC) (This field may be published.) This article does not require IRB/IACUC approval because there were no human and animal participants.
3D printing technology enables the production of creative and personalized food
products that meet consumer needs, such as an attractive visual appearance,
fortification of specific nutrients, and modified textures. To popularize and
diversify 3D-printed foods, an evaluation of the printing feasibility of various
food pastes, including materials that cannot be printed natively, is necessary.
Most animal resources, such as meat, milk, and eggs, are not inherently
printable; therefore, the rheological properties governing printability should
be improved through pre-/post-processing or adding appropriate additives. This
review provides the latest progress in extrusion-based 3D printing of animal
resource-based inks. In addition, this review discusses the effects of ink
composition, printing conditions, and post-processing on the printing
performance and characteristics of printed constructs. Further research is
required to enhance the sensory quality and nutritional and textural properties
of animal resource-based printed foods.
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