Effect of novel active packaging containing antimicrobial peptide on the shelf-life of fish burgers (Coryphaena hippurus) during refrigerated storage

Ital J Food Saf. 2022 Aug 11;11(3):10466. doi: 10.4081/ijfs.2022.10466.

Abstract

Fresh fishery products are highly perishable foods mainly due to their high-water content and high level of pH which act as promoters of spoilage processes. In these matrices, the deterioration phenomena are the result of the action of oxidative, and enzymatic processes due in part to the presence of specific microorganisms. Indeed, the microbial communities responsible for spoilage are a small fraction of the flora detectable in the fish and are known as specific spoilage organisms (SSOs). In the last decades, the scientific community has worked to achieve the ambitious goal of reducing the impact of microbial deterioration on food losses through innovative solutions, including antimicrobial packaging. The goal of this study was to evaluate the efficacy of an active polypropylene (PP)- based packaging functionalized with the antimicrobial peptide 1018K6 to extend the shelf life of dolphinfish burgers (Coryphaena hippurus) by evaluating its effect on sensorial and microbiological profile. The microbiological results showed an evident antimicrobial activity of the active packaging against hygiene indicator microorganisms and SSOs, recording a reduction of about 1 Log (CFU/g) of their concentrations compared to those of the control groups. Furthermore, a significant influence of functionalized packaging on the organoleptic characteristics was noted, accentuating the differences in freshness between the two experimental groups. This work confirmed the hypothesis of considering antimicrobial packaging as a potential tool capable of slowing down surface microbial replication and, therefore, extending the shelf-life and improving the health and hygiene aspect of fresh fish products.

Keywords: Antimicrobial packaging; Perishable foods; Spoilage microorganisms.

Grants and funding

Funding: This research was supported by the “Packaging innovativi a base di pEptidi antimicRobici per la SIcurezza Alimentare” (PERSIA) project, grant number POR FESR CAMPANIA 2014/2020 n. B63D18000530007; the “Attività battericida ed anti-biofilm di nano-sistemi ibridi coniugati con peptidi antimicrobici: una nuova strategia per la formulazione di bio-sanitizzanti contro ceppi patogeni resistenti”-Ricerca Corrente 2017 project, grant number IZS ME 06/18 RC.