Moreover, solid food servings should contain at least 3 g of inulin or oligofructose, or both, for the claim to be made (ANVISA, 2011). Therefore, functional foods for which prebiotic claims can be made must contain a minimum quantity of inulin and oligofructose and be accepted by consumers, as well as being presentable as commercial products. Since inulin and oligofructose have some technological functions, as
described above, it is expected that their incorporation in cakes will cause changes to the sensory attributes of the products, which may also influence their acceptability among consumers. Therefore, the aim of this study was to evaluate the sensory profile and preference mapping of orange cakes with addition of the prebiotics inulin and oligofructose. Inulin and oligofructose/inulin Small molecule library screening were added to orange cakes to obtain functional foods for which prebiotic
claims can be made. The sensory profiles of these Selleckchem BMS 354825 products and of a standard cake (without prebiotics) were obtained by Descriptive Quantitative Analysis. The products were also evaluated for sensory acceptability and preference mapping in relation to three commercially produced orange cakes. The fructans Orafti®GR and Orafti®Synergy1 were provided by Beneo-Orafti, a Belgian company that extracts and produces inulin and oligofructose. Orafti®GR is composed of ≥90 g/100 g of inulin (average degree of polymerization ≥ 10) and ≤10 g/100 g
of glucose + fructose + sucrose. Orafti®Synergy1 is composed, approximately, of 46 g/100 g of oligofructose, 46 g/100 g of inulin and 8 g/100 g of glucose + fructose + sucrose. Beneo-Orafti does not provide degree of polymerizations of inulin and oligofructose present in Orafti®Synergy1. The other ingredients used in cake formulations were purchased in a local market (Carrefour Comércio e Indústria Ltda, São José do 5-Fluoracil supplier Rio Preto, Brazil) and the same brand and specification were used for all formulations. The orange cakes were developed containing sufficient inulin and oligofructose/inulin to obtain functional foods for which prebiotic claims could be made. A standard cake, without prebiotics, was also developed (Table 1). The cakes were prepared under identical conditions. The total fructan content of the cakes with inulin and with oligofructose/inulin, were evaluated in triplicate by means of the enzymatic-colorimetric method (McCleary & Rossiter, 2004) using the FRUCTAN HK kit (Megazyme, Ireland), was 9.0 and 8.3 g/100 g, respectively. These values corresponded, respectively, to 5.4 and 5.0 g of fructans in a 60 g serving of cake, thus enabling prebiotic claims for both products. Three commercial orange cakes were purchased in local market (Carrefour Comércio e Indústria Ltda, São José do Rio Preto, Brazil) to compare the sensory acceptability to the developed cakes.