# Optimizing the encapsulation of the refined extract of squash peels for functional food applications: A sustainable approach to reduce food waste

**Authors:** Rim Ben Mansour, Hanen Falleh, Majdi Hammami, Feriel Ben Hadid, Lilian Barros, Neji Tarchoun, Spyridon A. Petropoulos, Riadh Ksouri

PMC · DOI: 10.1515/biol-2025-1124 · Open Life Sciences · 2025-07-11

## TL;DR

This study optimizes the encapsulation of squash peel extract to create functional foods that reduce waste and offer health benefits.

## Contribution

A sustainable method for encapsulating squash peel extract is developed to enhance its use in functional foods.

## Key findings

- Optimal encapsulation conditions achieved 46.01 mg GAE/g extract and 64.85% DPPH inhibition.
- Microcapsules showed high inhibition (89%) against Salmonella typhimurium.
- Physicochemical properties like pH and color were suitable for food applications.

## Abstract

Encapsulation of the refined extract from squash fruit peels was evaluated for the design of functional foods with beneficial effects on human health. The percentage of maltodextrin and gum Arabic in the wall material as well as the concentration of the refined extract were the independent variables for the Box Behnken design, and their impact on response variables (total phenolic compound [TPC] content, DPPH activity, the size of particles, and polydispersity index [Pdi]) was evaluated. The obtained emulsions were compared based on their TPC content, as well as their antioxidant activities. Optimum conditions were as follows: maltodextrin percentage of 23.8%, gum Arabic percentage of 27.7%, and phenolic extract percentage of 48.5%. Under these conditions, the response variables were the following: TPC content of 46.01 mg of gallic acid equivalent per gram of extract (mg GAE/g of E); DPPH inhibition percentage of 64.85% at 1 mg/mL, particle size of 571.22 nm, and Pdi of 0.46. Once the emulsion was optimized, we tried to define the combination of variables that produced microcapsules with the highest TPC content and the highest antioxidant activity. Physicochemical parameters and biological activities were also assessed. Microcapsule parameters were a pH of 4.2, a viscosity of 17 mPa/s, and a turbidity of 0.412 NTU (Nephelometric Turbidity Units), and color measurements were L = 102.4, a = 3.5, and b = 7.8. Indeed, the TPC content was 37.2 mg GAE/g dried residue and antiradical activity against DPPH was 44.2%. The inhibitory effects of the optimized emulsion on Enterococcus faecalis, Pseudomonas aeruginosa, Salmonella typhimurium, and Staphylococcus aureus were investigated, and the results indicated the highest sensitivity (89% inhibition) for S. typhimurium. Our results indicate the efficiency of the optimized emulsification process for developing microcapsules of high quality as well as the potential of using them in the development of novel food and pharmaceutical products.

## Linked entities

- **Chemicals:** gallic acid (PubChem CID 370)
- **Species:** Enterococcus faecalis (taxon 1351), Pseudomonas aeruginosa (taxon 287), Staphylococcus aureus (taxon 1280)

## Full-text entities

- **Chemicals:** GAE (-), maltodextrin (MESH:C008315), DPPH (MESH:C004931), gum Arabic (MESH:D006170), gallic acid (MESH:D005707), E (MESH:D004540)
- **Species:** Salmonella enterica subsp. enterica serovar Typhimurium (no rank) [taxon 90371], Enterococcus faecalis (species) [taxon 1351], Homo sapiens (human, species) [taxon 9606], Staphylococcus aureus (species) [taxon 1280], Pseudomonas aeruginosa (species) [taxon 287]

## Full text

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Source: https://tomesphere.com/paper/PMC12260352