Anti-Oxidative Effects of Bioactive Compounds in Spirulina Microalgae and Bilberry

Spirulina and Bilberry are underexplored and underutilized in the food industry. Therefore, this research focuses on determining the antioxidative properties of Spirulina and Bilberry for future use in functional food product development. The objective was to determine the Total Phenolic Content (TPC) and Total Flavonoid Content (TFC) in Spirulina and Bilberry extracts (Aqueous and Ethanol extracts) and their antioxidative potential (2,2-diphenyl-1-picrylhydrazyl (DPPH), Ferric Reducing Antioxidant Potential (FRAP), Trolox Equivalent Antioxidant Capacity (TEAC), and Nitric Oxide Radical Scavenging Ability (NORS)). Spirulina and Bilberry pure and combination samples [100% Spirulina (100S), 100% Bilberry (100B), 50% Spirulina + 50% Bilberry (50S + 50B), 75% Spirulina + 25% Bilberry (75S + 25B), & 25% Spirulina + 75% Bilberry (25S + 75B)], were extracted with aqueous (deionized water) and 80% ethanol solutions. Colorimetric antioxidant assays were used to determine total phenolics, total flavonoids, and their antioxidant potential. 80% ethanol Spirulina and Bilberry (pure and combination) extracts resulted in higher TFC, FRAP, and DPPH, whereas aqueous extracts had higher TPC, NORS, and TEAC, suggesting both hydrophilic and lipophilic bioactive compounds in Spirulina and Bilberry. Spirulina and Bilberry are two potential functional food ingredients for the food industry due to their antioxidative properties.

Development of a Functional Food Snack Product Utilizing Underexplored and Underutilized Ingredients: Spirulina Microalgae and Bilberry

Spirulina, a protein-rich cyanobacterium, and Bilberry, a dark berry, have the potential to be used as functional food ingredients in the food industry. These two underexplored and underutilized ingredients were used to develop an adolescent-friendly functional snack food product in the light of food industry trends. Stages of product development, shelf life/physiochemical analysis (texture, pH, color, and water activity) and sensory evaluation were utilized in developing a functional snack mini muffin containing Spirulina and Bilberry. Aqueous (AQ) and 80% ethanol (ET) extracts of mini muffin formulations (chocolate, 1% Spirulina (S) + 4% Bilberry (B), 2% Spirulina (S) + 8% Bilberry (B)) were prepared using a standard protocol. Antioxidant potential was determined using 2,2-diphenyl-1-picrylhydrazyl (DPPH) and Ferric Reducing Antioxidant Potential (FRAP) assays. Utilizing a 5-point hedonic scale (1—Dislike very much, 2—Dislike a little, 3—Neither like nor dislike, 4—Like a little, 5—Like very much), 3 mini muffin formulations (chocolate, 1% S + 4% B, 2% S +8% B), were tested among consumer panelists, with 1% S + 4% B being the most acceptable based on taste, texture, color, aroma, appearance, etc. Texture (post-peak (N) of the mini muffin did not vary between chocolate and 1 S% + 4% B formulations;however, 2% S + 8% B was 1.09 times higher compared to its counterparts. pH, color, and water activity remained constant over the 9-day shelf-life period. The Spirulina and Bilberry muffins developed exhibited antioxidant activities (highest in 2% S + 8% B), and were accepted by the sensory panelists for color, taste, mouthfeel, and aroma (panelists preferred 1% S + 4% B).