info:eu-repo/semantics/article
Quality changes during the frozen storage of sea bass (Dicentrarchus labrax) muscle after pressure shift freezing and pressure assisted thawing
Fecha
2010-10Registro en:
Tironi, Valeria Anahi; De Lamballerie, Marie; Le Bail, Alain; Quality changes during the frozen storage of sea bass (Dicentrarchus labrax) muscle after pressure shift freezing and pressure assisted thawing; Elsevier; Innovative Food Science & Emerging Technologies; 11; 4; 10-2010; 565-573
1466-8564
1878-5522
CONICET Digital
CONICET
Autor
Tironi, Valeria Anahi
De Lamballerie, Marie
Le Bail, Alain
Resumen
Quality of frozen sea bass muscle stored (1, 3 and 5 months) at two levels of temperature (-15 and -25 °C) after a pressure shift freezing process (200 MPa) - PSF - and/or a pressure assisted thawing process (200 MPa) - PAT - was evaluated in comparison with samples frozen and thawed using conventional methods (air-blast AF and AT, respectively). Frozen storage of high-pressure treated samples did not significantly affect initial quality of frozen muscle. Thus, parameters related to protein denaturation and extractability, water holding capacity and color presented similar values than those obtained for not stored samples. In addition, the improvement of the microstructure achieved by PSF application remains unchanged during frozen storage. On the other hand, conventional treated samples experienced significant changes during frozen storage, such as protein denaturation, and water holding capacity and color modifications. Storage temperatures did not have influence in the quality of PSF and PAT samples, but it showed some effects in AF muscle. Industrial relevance: This work demonstrates the potential application and benefits of high pressure (HP) in the freezing and thawing of fish meat in comparison to conventional methods, due to an improvement on the cellular integrity of the tissue. Although some negative effects are produced during processing with HP, no additional modifications occur during the frozen storage. The studied methodologies seemed to be very suitable for fish freezing and thawing, especially for products which will be frozen stored and/or cooked.