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Fish Burgers Fortified with Microencapsulated Sacha Inchi Oil: Effects on Technological and Sensory Properties
(Foods, 2024-03-25) Rios Mera,Juan Dario
The long-chain omega-3 fatty acids alpha linolenic acid (ALA), eicosapentaenoic acid (EPA), and docosahexaenoic acid (DHA) have proven health benefits, but it is not common to find them together in a processed food product. This could lead to healthier and more functional food products, which may have positive implications for consumer health and well-being. This work aimed to fortify a model burger manufactured with fillets of an Amazonian fish (boquichico, Prochilodus nigricans) by adding microencapsulated sacha inchi oil (Plukenetia volubilis, rich in ALA) (MSIO) produced by spray-drying. MSIO was incorporated into the burgers at different levels (0, 3, 4, 5, and 6%). The burgers were characterized by their proximal composition, cooking losses, texture profile, lipid oxidation, sensory profile, overall liking, and fatty acid profile. The results showed that adding MSIO up to concentrations of 5% or 6% increased the instrumental hardness, chewiness, and lipid oxidation in the burgers. However, fortifying the burgers with 3% MSIO was possible without affecting the burgers’ sensory properties and overall liking. Regarding the fatty acid profile, the burgers with 3% MSIO had a higher content of polyunsaturated fatty acids, with the ALA, EPA, and DHA types of fatty acids. Therefore, we recommend using this fortification concentration, but future studies should be carried out to improve the oxidative stability of MSIO and the burgers.
Exploring Pijuayo (Bactris gasipaes) Pulp and Peel Flours as Fat Replacers in Burgers: A Multivariate Study on Physicochemical and Sensory Traits
(Foods, 2024-05-22) Rios Mera,Juan Dario
Meat products are known for their lipid profile rich in saturated fats and cholesterol, and also for the formation of oxidation compounds; therefore, a reduction in animal fat may result in a product less harmful to health. Pijuayo is an Amazon fruit known for its nutritional properties, such as its fiber and lipid content. For these reasons, it is an attractive fruit to replace animal fat in meat products. The present work used pijuayo pulp and peel flours to partially replace animal fat in beef-based burgers at 25% and 50% levels, considering sensory and physicochemical outcomes evaluated by Principal Component Analysis (PCA), Correspondence Analysis (CA) and Multiple Factor Analysis (MFA). Pijuayo flour affected the physicochemical characteristics evaluated by PCA, where the samples with greater fat replacement were characterized by a high carbohydrate content and instrumental yellowness. The minimal fat replacement did not abruptly affect the PCA’s instrumental texture and color, proximal composition, yield properties, and lipid oxidation. The overall liking was greater in the 25% fat reduction treatments, even greater than the control, in which positive sensory attributes for liking were highlighted for those treatments. A small segment of consumers (11% of total consumers) preferred the treatment with greater replacement of fat with pijuayo peel flour, which these consumers tended to characterize as seasoned. However, this treatment had the lowest liking. The MFA showed that the sensory characteristics tender and tasty were strongly correlated with overall liking and were highlighted in the samples of 25% fat reduction, suggesting that the pijuayo improves the tenderness and flavor of reduced-fat burgers. Other inclusion levels between 25% and 50% of fat replacement could be explored, and optimization studies are needed. In addition, the sensory characteristics and flavor-enhancing compounds of the fruit, as well as the nutritional aspects of the inclusion of pijuayo, should be studied, such as the fatty acid profile. These characteristics will be informative to explore pijuayo as a fat replacer at a pilot scale and industrial scale.
Amazon Fruits as Healthy Ingredients in Muscle Food Products: A Review
(Foods, 2024-07-01) Rios Mera,Juan Dario
When looking for new ingredients to process red meat, poultry, and fish products, it is essential to consider using vegetable resources that can replace traditional ingredients such as animal fat and synthetic antioxidants that may harm health. The Amazon, home to hundreds of edible fruit species, can be a viable alternative for new ingredients in processing muscle food products. These fruits have gained interest for their use as natural antioxidants, fat replacers, colorants, and extenders. Some of the fruits that have been tested include açai, guarana, annatto, cocoa bean shell, sacha inchi oil, and peach palm. Studies have shown that these fruits can be used as dehydrated products or as liquid or powder extracts in doses between 250 and 500 mg/kg as antioxidants. Fat replacers can be added directly as flour or used to prepare emulsion gels, reducing up to 50% of animal fat without any detrimental effects. However, oxidation problems of the gels suggest that further investigation is needed by incorporating adequate antioxidant levels. In low doses, Amazon fruit byproducts such as colorants and extenders have been shown to have positive technological and sensory effects on muscle food products. While evidence suggests that these fruits have beneficial health effects, their in vitro and in vivo nutritional effects should be evaluated in muscle food products containing these fruits. This evaluation needs to be intended to identify safe doses, delay the formation of key oxidation compounds that directly affect health, and investigate other factors related to health.
Effect of salt reduction, mixture of salt with animal fat, and salt particle sizes on instrumental texture, yield properties and sensory characteristics of burgers
(Springer Nature Link, 2024-10-01) Rios Mera,Juan Dario
This study aimed to investigate the impact of reduction of salt content (from 1.5 to 0.75%), the technique of mixing half of the salt content with animal fat, and the salt particle size on the instrumental texture, cooking losses, diameter reduction, overall liking, and sensory characteristics of burgers. The results showed that regardless of the types of micronized salt (MS < 250 µm) incorporation (directly into the meat or the mixture of half of the MS with the meat and the other half with the fat), salt reduction decreased the salty perception and the instrumental hardness and chewiness. Thus, the mixture of MS with fat does not present sensory improvements nor overcome the texture effects of salt reduction. In a second experiment, the effect of different particle sizes (from <177 µm to 1 mm) was evaluated, where it was observed that salt with particle size <177 µm decreased the burgers’ hardness, cooking losses, and diameter reduction. The salt particle sizes did not cause sensory changes in the burgers, and in both experiments, the overall liking was greater than 7 points on the 9-point hedonic scale. Salt < 177 µm could be a good option for reducing salt in burgers and possibly in other meat products.
Nutritional value and acceptability of heme iron microparticles-fortified bread
(CyTA - Journal of Food, 2025-05-20) Rios Mera,Juan Dario
Iron deficiency anemia is a significant global health challenge, prompting the exploration of novel iron fortification strategies. This study investigated pectin microparticles coated with bovine blood as a heme iron source to fortify bread. Four treatments were prepared: control, ferrous fumarate fortified, and bread with 15% and 25% microparticles. The physicochemical characteristics (including iron content and peroxide values), microbial counts, and overall acceptability were analyzed. Results showed that adding microparticles significantly increased the iron content of the bread (7.77 ± 0.05 mg/100 g). Peroxide values remained below 3.43 meq O2/kg extracted fat, and mold counts were within acceptable limits (<10 CFU/g) for all treatments. A 7-point hedonic scale acceptability test in school-aged children (8–12 years) revealed no significant differences among treatments. Therefore, incorporating microparticles containing bovine blood-derived iron in bread offers a promising solution for producing iron-enriched food, providing a potential strategy for improving the health of school-age children.