Abstract
The growing global population has intensified the search for sustainable and nutritious food sources. This study evaluated the effects of incorporating giant mealworm (Zophobas morio) flour at levels of 0%, 7.5%, 15%, and 17.5% on the nutritional, physicochemical, and technological properties of fresh tagliatelle pasta. The formulations were characterized in terms of proximate composition, caloric value, amino acid profile, cooking quality, texture, color, microstructure, and structural organization. Protein content increased from 8.16% in the control to 16.29% at the highest enrichment level, while crude fiber rose from 0.25% to 1.30%. The amino acid profile revealed seven essential amino acids, with branched-chain amino acids representing approximately 50% of the essential fraction. Enriched pasta showed a significant reduction in cooking solid loss, decreasing from 0.61 g to 0.21 g, while volume increase remained unchanged. Texture analysis indicated reduced hardness (12.59 to 10.05 gf) and chewiness (5.29 to 2.93 gf), resulting in a softer and less adhesive product, without significant changes in elasticity. Although lightness decreased, the visual appearance was comparable to whole-grain pasta products. Overall, Zophobas morio flour improved the nutritional profile and technological performance of fresh pasta, supporting its use as a sustainable and functional protein ingredient.