Effect of High-Pressure Processing on Physico-Chemical, Microbiological and Sensory Traits in Fresh Fish Fillets (Salmo salar and Pleuronectes platessa)

Castrica, Marta; Pavlović, Radmila; Balzaretti, C.; Curone, Giulio; Brecchia, G.; Copelotti, Emma; Panseri, Sara; Pessina, Davide; Arnoldi, Claudio; Chiesa, Luca Maria

doi:10.3390/foods10081775

Cited by 16 publications

(18 citation statements)

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“…So, the extension of GC-system and NMR-based lipidomics and their combination with LC-resolved MS would exert unique superiority to enrich the entire lipid metabolism pathway (e.g., biosynthesis, oxidative decomposition, and enzymatic lipolysis) by detecting FAs, TGs, and sterols as well as some specific short and polar secondary lipid-metabolites ( 8 , 16 , 17 , 19 , 22 ). Indeed, during non-thermal processing, such as HPP, some important water-soluble lipid-metabolites (e.g., Ser-PETA) might be active in fatty acid transformation and participate in GPs metabolism ( 36 ). Overall, the lipolysis of TGs and PLs in meats are closely related to some relevant factors, mainly including (i) the feeding processes of animals ( 28 , 29 ), (ii) circumstances in slaughtering ( 30 , 31 ), (iii) postmortem aging ( 11 , 42 ), (iv) thermal/non-thermal processing ( 8 , 13 , 17 , 19 , 35 , 37 , 57 ), and (v) brining/dry-ripening processes ( 45 – 47 , 58 ).…”

Section: Discussion On Possible Mechanisms and Future Remarksmentioning

confidence: 99%

“…Consequently, the lipolysis of TGs and PLs was noted as a strong flavor-binding precursors through different thermal degradation (boiling, steaming, and roasting) and showed specific losses of representative lipids ( 19 , 35 ). It is worthwhile to note that fresh fish fillets, particularly Pleuronectes platessa upon high-pressure processing (HPP) were characterized by a distinctly high level of lipid-derived polar metabolites, serine-phosphoethanolamine species (Ser-PETA) ( 36 ). Specifically, studies on the discrimination of untreated/irradiated raw/ground meat from commercially produced goat, chicken, turkey, and pork through global lipid profile using UPLC-Q-Exactive-Orbitrap-MS/MS, targeted GC-resolved fatty acids composition, and chemometric tools (PCA and PLS-DA) have been recently reported ( 8 , 37 , 38 ).…”

Section: Meat Lipidomics As Affected By Processing Factorsmentioning

confidence: 99%

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Advanced Lipidomics in the Modern Meat Industry: Quality Traceability, Processing Requirement, and Health Concerns

Öztürk‐Kerimoğlu

et al. 2022

Front. Nutr.

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Over the latest decade, lipidomics has been extensively developed to give robust strength to the qualitative and quantitative information of lipid molecules derived from physiological animal tissues and edible muscle foods. The main lipidomics analytical platforms include mass spectrometry (MS) and nuclear magnetic resonance (NMR), where MS-based approaches [e.g., “shotgun lipidomics,” ultra-performance liquid chromatography-tandem mass spectrometry (UPLC-MS/MS), matrix-assisted laser desorption and ionization time-of-flight mass spectrometry (MALDI-TOF-MS)] have been widely used due to their good sensitivity, high availability, and accuracy in identification/quantification of basal lipid profiles in complex biological point of view. However, each method has limitations for lipid-species [e.g., fatty acids, triglycerides (TGs), and phospholipids (PLs)] analysis, and necessitating the extension of effective chemometric-resolved modeling and novel bioinformatic strategies toward molecular insights into alterations in the metabolic pathway. This review summarized the latest research advances regarding the application of advanced lipidomics in muscle origin and meat processing. We concisely highlighted and presented how the biosynthesis and decomposition of muscle-derived lipid molecules can be tailored by intrinsic characteristics during meat production (i.e., muscle type, breed, feeding, and freshness). Meanwhile, the consequences of some crucial hurdle techniques from both thermal/non-thermal perspectives were also discussed, as well as the role of salting/fermentation behaviors in postmortem lipid biotransformation. Finally, we proposed the inter-relationship between potential/putative lipid biomarkers in representative physiological muscles and processed meats, their metabolism accessibility, general nutritional uptake, and potency on human health.

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Section: Discussion On Possible Mechanisms and Future Remarksmentioning

confidence: 99%

Section: Meat Lipidomics As Affected By Processing Factorsmentioning

confidence: 99%

Advanced Lipidomics in the Modern Meat Industry: Quality Traceability, Processing Requirement, and Health Concerns

Öztürk‐Kerimoğlu

et al. 2022

Front. Nutr.

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“…Table 1 presents the effects of HPP on chromatic characteristics. There is consensus that the L * value increases with pressure in the majority of aquatic products (at 250 to 600 MPa for 2 to 15 min), such as plaice ( Pleuronectes platessa ) (Castrica et al ., 2021), salmon ( Salmo salar ) (Castrica et al ., 2021), sea bass ( Dicentrarchus labrax ) (Teixeira et al ., 2014), tilapia ( Oreochromis niloticus ) (Suemitsu & Cristianini, 2019), tuna ( Thunnus alalunga ) (Gómez‐Estaca et al ., 2009) and lobster ( Homarus americanus ) (Humaid et al ., 2019).…”

Section: Effects Of Hpp On Aquatic Products Appearancementioning

confidence: 99%

“…There are many explanations for the mechanism of high‐pressure inactivation of microorganisms, such as protein denaturation caused by pressure, destruction of microbial cells, change of microbial genetic mechanism, inactivation of microbial endogenous enzymes and biochemical reactions. HPP could inactivate several microorganisms, including Enterobacteriaceae, mesophilic bacteria, psychrotrophic bacteria, proteolytic bacteria, pseudomonas spp., H 2 S‐producing bacteria, lactic acid bacteria, yeast and mould (Castrica et al ., 2021). Microorganisms decompose proteins and lipids in aquatic products, causing spoilage and unpleasant odours.…”

Section: Effect Of Hpp On Aquatic Products' Odourmentioning

confidence: 99%

Effects of high‐pressure processing on aquatic products with an emphasis on sensory evaluation

Chen

Wang

Zhu

et al. 2022

Int J of Food Sci Tech

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Summary Previous intensive research has described the molecular impacts of high‐pressure processing (HPP) on fish meat chemical composition, such as myofibril structural proteins, enzymes, myoglobin and lipids. This work aims to collect articles on sensory evaluation of pressure‐treated aquatic products to determine the practical effects of HPP on aquatic products, especially sensory properties, by comparing the differences between instrumental tests and sensory evaluation, between trained sensory assessors and consumers to guide and improve the processing of aquatic products. The findings indicate that laboratory devices such as spectrophotometers, texture analysers and electronic noses, and trained sensory assessors can detect pressure‐induced changes in appearance, texture, off‐odour, and flavour, such as discoloration, whitening, increased hardness and initiation of lipids oxidation. However, consumers did not perceive the pressure‐induced changes in odour and colour. Besides, consumers' attitudes towards pressure‐treated aquatic products are ambiguous in the range of 300 to 600 MPa, and professional testing and assessment fail to replace hedonic tests. In complex matrices of aquatic products, particular attention is needed to be paid to changes in sensory qualities dominated by microorganisms, endogenous enzymes and bioactive compounds after HPP treatment and throughout commercial storage.

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“…Generally, fish is a high-quality product with considerable economic importance and accounts for about 17% of the global population's intake of animal protein [10][11][12]. However, only around 60% of palatable fish is utilized by end-users, with the remainder being converted into animal feed or lost [13].…”

Section: Introductionmentioning

confidence: 99%

Effects of Modified Atmosphere Packaging, Storage Temperature, and Absorbent Pads on the Quality of Fresh Cape Hake Fish Fillets

et al. 2022

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This study investigated the effects of modified atmosphere packaging (MAP), storage temperature, and the use of absorbent pads (PAD) on the quality attributes of Cape hake (Merluccius capensis) fish fillets. Fresh Cape hake fillets were packaged under active-MA (40% CO2 + 30% O2 + 30% N2) or passive-MA (0.039% CO2 + 20.95% O2 + 78% N2), with and without PAD, and stored at 0 °C, 4 °C, and 8 °C (to mimic abuse temperature). The control fresh fillets were stored under passive-MAP without PAD at 0 °C, 4 °C, and 8 °C. Headspace O2 gas composition continuously decreased below critical limits under passive-MAP, with an increase in storage temperature. Similarly, O2 levels decreased under active-MAP but did not reach critical levels, with the lowest being 9.5% at 0 °C. The interaction of storage temperature and modified atmosphere had a significant effect on quality attributes of Cape hake fillets. Drip loss was higher in active-MAP packaged fillets without PAD (0.64%) than passive-MAP packaged fillets without PAD (0.27%). Drip loss was significantly reduced when using absorbent pads (p < 0.05). Firmness, color, and pH were better maintained under active-MAP at the lowest temperature of 0 °C. Firmness (work of shear) of active-MA packaged fillets on day 12 at 0 °C and 4 °C was 527 N/s and 506 N/s, respectively. Fillets packaged under active-MAP at 0 °C had longer shelf-life than control passive-MAP fillets.

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Effect of High-Pressure Processing on Physico-Chemical, Microbiological and Sensory Traits in Fresh Fish Fillets (Salmo salar and Pleuronectes platessa)

Cited by 16 publications

References 50 publications

Advanced Lipidomics in the Modern Meat Industry: Quality Traceability, Processing Requirement, and Health Concerns

Advanced Lipidomics in the Modern Meat Industry: Quality Traceability, Processing Requirement, and Health Concerns

Effects of high‐pressure processing on aquatic products with an emphasis on sensory evaluation

Effects of Modified Atmosphere Packaging, Storage Temperature, and Absorbent Pads on the Quality of Fresh Cape Hake Fish Fillets

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