Cristina Jansen-Alves, Elder Pacheco da Cruz, Rosinei Silva Santos, Camila de Oliveira Pacheco, Carem Perleberg, Helen Cristina dos Santos Hackbart, Claudio Martin Pereira de Pereira, Alvaro Renato Guerra Dias & Elessandra da Rosa Zavareze
SUMMARY
Research background. Hydrogenated fats are widely used to enhance texture, flavor, and shelf life in processed foods, but their excessive consumption contributes to cardiovascular diseases. While Butia seed oil (BSO) contains saturated fats, its potential as an alternative structuring lipid in food applications remains unexplored. This study investigates the formulation of BSO-based oleogels and their potential as a replacement for hydrogenated fats in cookies.
Experimental approach. This study aimed to develop oleogels based on BSO and beeswax (1, 3, and 5 %, m/m) and apply them to cookies as a substitute for hydrogenated fat. The chemical composition, thermal properties, and functional groups of the BSO and beeswax constituents were analyzed. The oleogels were characterized in terms of lipid stability, oil binding capacity, gel stability, thermal properties, and color parameters. Subsequently, the oleogels were applied to cookies as a substitute for hydrogenated vegetable fat. The cookies were evaluated for mass loss, color, expansion factor, specific volume, and texture properties.
Results and conclusions. BSO presented saturated fatty acids (22.87 mg/mL lauric and 22.45 mg/mL caprylic acid) and notably high levels of unsaturated fatty acids (oleic acid 33.21 mg/mL and linoleic acid 30.61 mg/mL). Oleogels containing 3 and 5 % beeswax remained stable for 90 days. Increasing the beeswax percentage resulted in greater oleogel hardness (p<0.05). Specifically, the oleogel with 5 % beeswax exhibited the highest oil binding capacity, reaching 99.9 %. Cookies formulated with oleogel showed lower hardness and mass loss, as well as a higher specific volume compared to the cookie control (without oleogel). Notably, the use of oleogels did not alter the cookies’ visual characteristics, supporting their potential as a viable fat replacer in oven-baked products.
Novelty and scientific contribution. These findings suggest that BSO oleogels have the potential to replace hydrogenated vegetable fats in food products. This study demonstrates that BSObased oleogels, particularly at 3–5 % beeswax concentrations, can effectively replace hydrogenated vegetable fats in cookie formulations. Unlike traditional structuring fats, these oleogels offer improved lipid profiles while maintaining desirable baking properties.