Abstract

To explore novel methods for reducing the saturated fatty acid content in meat products, pre-emulsified plant lipids prepared using pulsed ultrasound were used to replace animal fat. Chicken breast myofibrillar protein (MP)–soybean oil emulsion composite gels (SMG) were prepared from 3% chicken breast MP with 27.5% soybean oil incorporated as pre-emulsification with 0.5% sodium caseinate (0.6M NaCl and 50mM phosphate solution, pH6.25). One-factor-at-a-time experiments were carried out to investigate the effect of different ultrasound treatment times on the texture [rheology and texture profile analysis (TPA)], water- and fat-binding (WFB) capacities, and microstructural properties of SMG. Rheological tests showed that ultrasound-treated samples formed a more viscoelastic gel than the control. WFB and textural properties were also significantly improved by pulsed ultrasound (P<0.05). The ultrasound-treated gels exhibited homogeneous fine network microstructures when the ultrasound time was 6min. G′72°C and G″72°C were highly correlated (P<0.01) with WFB and TPA (hardness, springiness, chewiness, cohesiveness, and resilience). These findings show that ultrasound treatment has potential in improving the fatty acid composition of emulsion-type meat products with good functional properties and high yields.

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