Publicação

Application of probiotic bacteria in active packaging for the food industry: Review

Detalhes bibliográficos
Resumo:	The incorporation of probiotic bacteria into active packaging systems represents an innovative strategy to enhance food preservation while delivering health benefits to consumers. This review discusses the selection criteria for probiotic strains focusing on their resistance to environmental stressors, antimicrobial activity, and viability in different food matrices and their integration into edible films and coatings. Polysaccharides, proteins, and hydrocolloids are widely used as biopolymeric matrices due to their biocompatibility and functional properties. The efficiency of probiotic packaging largely depends on three factors: the choice of strain, the encapsulation technique (such as spray drying, emulsification, or electrospinning), and the properties of the matrix material. These packaging systems demonstrate strong antimicrobial activity through multiple mechanisms, including bacteriocin production, competition for adhesion sites, and acidification. Applications in dairy, meat, fish, and fresh produce reveal the potential of these technologies to delay spoilage, reduce pathogenic microorganisms, inhibit lipid oxidation, and maintain nutritional and sensory qualities. Moreover, studies emphasize that combining probiotics with prebiotic compounds can improve both microbial stability and functional performance. Despite promising results, challenges remain regarding the industrial scalability and long-term stability of these systems under varied storage conditions. Future research should focus on optimizing formulation parameters, expanding applications across diverse food categories, and integrating smart packaging technologies. Altogether, probiotic-based edible packaging aligns with current demands for sustainable, health-oriented food solutions.
Autores principais:	Oliveira, Juniel Marques de
Outros Autores:	Jesus, Meirielly; Santos, Jairo Neves de Jesus; Mata, Fernando; Dehghani, Sepehrdad; Santos, Joana; Assis, Maria Caroline Figueirêdo; Oliveira, Taila Veloso de
Assunto:	Biodegradable materials Edible films Probiotic packaging Shelf life
Ano:	2026
País:	Portugal
Tipo de documento:	recensão
Tipo de acesso:	acesso aberto
Instituição associada:	Instituto Politécnico de Viana do Castelo
Idioma:	inglês
Origem:	Repositório Científico IPVC

Descrição
Resumo:	The incorporation of probiotic bacteria into active packaging systems represents an innovative strategy to enhance food preservation while delivering health benefits to consumers. This review discusses the selection criteria for probiotic strains focusing on their resistance to environmental stressors, antimicrobial activity, and viability in different food matrices and their integration into edible films and coatings. Polysaccharides, proteins, and hydrocolloids are widely used as biopolymeric matrices due to their biocompatibility and functional properties. The efficiency of probiotic packaging largely depends on three factors: the choice of strain, the encapsulation technique (such as spray drying, emulsification, or electrospinning), and the properties of the matrix material. These packaging systems demonstrate strong antimicrobial activity through multiple mechanisms, including bacteriocin production, competition for adhesion sites, and acidification. Applications in dairy, meat, fish, and fresh produce reveal the potential of these technologies to delay spoilage, reduce pathogenic microorganisms, inhibit lipid oxidation, and maintain nutritional and sensory qualities. Moreover, studies emphasize that combining probiotics with prebiotic compounds can improve both microbial stability and functional performance. Despite promising results, challenges remain regarding the industrial scalability and long-term stability of these systems under varied storage conditions. Future research should focus on optimizing formulation parameters, expanding applications across diverse food categories, and integrating smart packaging technologies. Altogether, probiotic-based edible packaging aligns with current demands for sustainable, health-oriented food solutions.