Protein–polyphenol Pickering emulsions have gained increasing attention as multifunctional systems for the design of novel food structures. In this study, two protein–quercetin dispersions derived from musky octopus ( Eledone moschata ), previously formed at pH 2 and exhibiting different mean particle sizes, were used to prepare low-fat Pickering emulsions. The emulsions were characterised in terms of interfacial activity, droplet-size distribution, rheological behaviour, and physical stability. Selected emulsions were subsequently incorporated into fish-gelatin-based films at increasing levels, partially replacing the gelatin matrix. The incorporation of Pickering emulsions markedly modified the film properties, reducing water solubility by 15–60% and tensile strength by 50–90%, while also affecting the optical and thermal characteristics of the films. Protein-quercetin particle size played a key role in emulsion stability, while exerting a comparatively minor influence on film functionality, as opacity, colour and mechanical properties of the films were not significantly affected. Emulsion-filled films displayed enhanced antioxidant activity and maintained adequate mechanical integrity, allowing for proper handling and shaping. As an illustrative proof-of-concept example, a selected formulation was used to prepare a Mediterranean-inspired roll, showing that the developed edible film can be handled and consumed together with a food matrix. Overall, this work underscores the potential of protein–quercetin Pickering emulsions derived from undervalued marine resources as functional fillers in gelatin-based edible films, opening new avenues for the development of innovative food structures. • Protein–quercetin particle size governed EAI, ESI and thixotropy of emulsion • 50% emulsion improved mechanical performance of film for direct ingestion • FE-nsPQ50 film showed greater structural heterogeneity than FE-PQ50 • Emulsion-filled films enabled a bake-stable protein-based rolled food • Protein-based films offer an alternative to conventional polysaccharide wraps
Alemán et al. (Wed,) studied this question.
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