Potential use of pumpkin seed oil processing by-product to improve quality of gluten-free crackers
View/ Open
Date
2022Author
Tomić, Jelena
Škrobot, Dubravka
Maravić, Nikola
Hadnađev, Miroslav
Dapčević-Hadnađev, Tamara
Popović, Ljiljana
Čakarević, Jelena
Metadata
Show full item recordAbstract
As a consequence of the growing population of health-conscious individuals, there is a trend toward the fortification of conventional bakery products with nutrient-rich ingredients to produce nutritionally improved or health-enhancing goods, such as high-protein, high-fibre, and low-glycaemic-index products. This trend is particularly prevalent in the development of gluten-free products. The use of unconventional gluten-free flours that are not rich in starch components can significantly improve the nutritional quality of this type of product. In that sense, pumpkin seed press cake, a by-product of oil production and a source of nutritionally valuable compounds such as dietary fibre, proteins, essential fatty acids, antioxidant compounds, and minerals, represents a chance to reduce the nutritional deficiencies of gluten-free products. Therefore, the objective of the present work was to evaluate the effect of pumpkin seed press-cake flour addition on gluten-free cracker formulation, considering nutritional and sensory characteristics as well as the glycaemic index, polyphenolic content, and antioxidant activity of the final product. Three different crackers were formulated: a control cracker prepared with 100% chickpea flour and crackers containing 20% and 35% of the cold-pressed pumpkin seed cake flour instead of chickpea flour. The proximate composition of the crackers obtained is a function of the gradual substitution of chickpea flour with pumpkin seed cake flour, with the presence of pumpkin seed cake flour influencing the higher content of proteins, fats, and ash in crackers while decreasing the total carbohydrate content. Due to the high dietary fibre and protein content of the used raw materials, the investigated crackers may have the claims "high in fibre" and "source of protein". The incorporation of pumpkin seed press cake flours resulted in higher values of total phenolic content and antioxidant activity. All tested crackers had a moderate glycaemic index, but substituting pumpkin seed press cake flour for chickpea flour at both levels (20 and 35%) significantly reduced cracker glycaemic index. Sensory evaluation of crackers showed that all examined samples exhibited acceptable sensory properties, implying that the presence of pumpkin seed press-cake flour did not diminish but rather improve some sensory attributes, such as taste and flavour. The present study revealed that this by-product could be exploited in gluten-free cracker production, ensuring multiple benefits such as increasing the nutritional quality of the final product, enhancing total phenolic content and antioxidant activity, and reducing the glycaemic index of bakery foods, thus concomitantly supporting the concept of industrial symbiosis and revaluing by-products of the food industry.