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Study of Microstructure, Texture, and Cooking Qualities of Reformulated Whole Wheat Flour Pasta by Substituting Water with Stearic Acid–Candelilla Wax–Groundnut Oil Oleogel
Oleogels, which are traditionally utilized to reduce saturated and trans fats in bakery foods, have recently shown promising applications in non-bakery foods, particularly in the enhancement of their food texture and cooking qualities. This study investigates the impact of incorporating stearic acid-containing candelilla wax–groundnut oil oleogel in various proportions on the production of whole wheat pasta. Five different pasta samples were prepared by replacing water with oleogels in varying concentrations (2.5%, 5%, 10%, and 15%), and their physicochemical attributes were evaluated using a range of analytical methods for both cooked and uncooked pasta (like microscopy, colorimetry, dimensional analysis, texture, cooking qualities, moisture content, and FTIR). Significant differences in width, thickness, and color properties were observed between the control sample (0% oleogel) and those containing oleogel, with notable variations in surface texture and color intensities, particularly with the higher oleogel content (p < 0.05). Cooked pasta exhibited lower L* values and higher a* values than uncooked pasta. Stereo zoom microscope and field emission scanning electron microscope (FESEM) micrographs demonstrated a change in the pasta surface topology and microstructures. Dark spots on the pasta with greater oleogel concentrations (samples with 10% and 15% oleogel replacement) suggest the formation of starch–lipid complexes. Cooking induced pore formation, which was more pronounced when the oleogel content was increased, impacted the water absorption capacity, swelling index, and moisture content. The cooked samples exhibited higher moisture content and improved polymer network stability compared to the uncooked ones, indicating the potential of oleogel incorporation to modulate pasta properties in a concentration-dependent manner. These findings underscore the versatility of oleogels when their applications are diversified in non-bakery foods to enhance food texture and quality.
Impact of Groundnut Oil/Candelilla Wax Oleogel Replacement on Physicochemical Properties of Whole Wheat Pasta
AbstractThe current study investigates replacing water (2.5–15%) in whole wheat pasta with groundnut oil/candelilla wax (GNO/CW) oleogel. To assess the impact of incorporating GNO/CW oleogel at varied concentrations, both uncooked and cooked pasta samples are physicochemically characterized. The water absorption capacity of oleogel‐containing cooked pasta samples is found to be lower. Microscopic analysis of the surface of pasta samples (uncooked and cooked) exhibits considerable changes in their topology as the composition varied. Black patches on the cooked pasta samples are observed when the GNO/CW oleogel replacement is on the higher side (10% and 15% replacement), implying the formation of starch–lipid complexes. FTIR analysis is performed to analyze the changes in functional groups and molecular bonds. There are no major changes in the water and the starch regions of pasta samples (uncooked and cooked). The addition of GNO/CW oleogel in the pasta samples enhances their stiffness. Additionally, the pasta samples exhibit viscoelastic properties. Therefore, the incorporation of GNO/CW oleogel into the whole wheat pasta dough can change the physicochemical properties of both uncooked and cooked pasta samples.