Freshness is a key indicator of fish quality, making it essential to monitor throughout the food supply chain, particularly during distribution. A rapid, straightforward analytical method for assessing fish quality can provide valuable insights when products reach distribution centers or are commercialized. This study aims to develop a simplified approach based on an electronic nose (e-nose) system to evaluate the freshness of fish products within the distribution chain. The study monitored five seafood products - cuttlefish, red mullet, Atlantic cod, Atlantic mackerel, and mantis shrimp - throughout their shelf life, from arrival and packaging at the distribution centers to beyond their expiration dates. A portable electronic nose, composed by four selected metal oxide semiconductor sensors, a photoionization detector and two electrochemical cells, was used to assess the products, alongside traditional microbial analyses (Total Viable Count). The proposed method identified warning and control limits based on e-nose data, which were further confirmed by microbial testing. Control charts were developed and externally validated to assess product quality through odor intensity measurements by e-nose.
E-nose based control charts for fish freshness evaluation / S. Buratti, S. Grassi, P.G. Ubaldi, A. Pianezzola, S. Benedetti. - In: FOOD RESEARCH INTERNATIONAL. - ISSN 0963-9969. - 209:(2025 May), pp. 116313.1-116313.8. [10.1016/j.foodres.2025.116313]
E-nose based control charts for fish freshness evaluation
S. BurattiPrimo
;S. Grassi
Secondo
;S. BenedettiUltimo
2025
Abstract
Freshness is a key indicator of fish quality, making it essential to monitor throughout the food supply chain, particularly during distribution. A rapid, straightforward analytical method for assessing fish quality can provide valuable insights when products reach distribution centers or are commercialized. This study aims to develop a simplified approach based on an electronic nose (e-nose) system to evaluate the freshness of fish products within the distribution chain. The study monitored five seafood products - cuttlefish, red mullet, Atlantic cod, Atlantic mackerel, and mantis shrimp - throughout their shelf life, from arrival and packaging at the distribution centers to beyond their expiration dates. A portable electronic nose, composed by four selected metal oxide semiconductor sensors, a photoionization detector and two electrochemical cells, was used to assess the products, alongside traditional microbial analyses (Total Viable Count). The proposed method identified warning and control limits based on e-nose data, which were further confirmed by microbial testing. Control charts were developed and externally validated to assess product quality through odor intensity measurements by e-nose.
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