Cereal-Based Derivatives as Functional Fortifiers of Sourdough Bread: Nutritional, Antioxidant and Quality Insights

Fortifying sourdough bread with functional ingredients is an effective strategy to enhance nutritional value, bioactive content, and sensory quality. The novel strain Lactiplantibacillus paracasei SP5 was incorporated into mother sponges together with cereal-based derivatives, such as trahanas or delignified wheat bran (2% and 5% w/w), and their effects on sourdough bread functionality were compared with a control bread without supplementation. Sourdough bread containing 5% w/w trahanas exhibited the highest lactic acid bacteria (10.4 log cfu/g), approximately 22% higher than the control, and the strongest fermentation activity, leading to acetic acid levels 27% higher than the control. This sourdough bread sample also had 73% higher total phenolic content (112.1 mg GAE/100 g) and approximately 27% higher antioxidant activity compared to control bread. In addition, phytic acid degradation exceeded 91%, representing a 16% higher reduction than the control, thereby improving mineral bioavailability. Shelf-life was also markedly extended, in terms of mould and rope spoilage compared with the control. Wheat bran-supplemented breads showed moderate improvements, with LAB counts, antioxidant activity, and phytic acid reduction about 10–25% higher than the control. Overall, these findings demonstrate that L. paracasei SP5 in combination with nutrient-rich, low-cost cereal-based derivatives can significantly enhance the technological, nutritional, and bioactive properties of sourdough breads. This approach provides a simple, industrially feasible strategy for producing functional breads with improved health-promoting and preservative attributes.