25 or 5 g kg−1) and tripolyphosphate (0 or 5 g kg−1) on the formation of NA in cooked sausages prepared with 150 mg kg−1 sodium nitrite. The design included the preparation of sausages with 16 different combinations of the five factors. A minimum of six sausages, each of about 15 g, were prepared for each of the 16 preparations. The sausages were packed in sealed plastic bags with minimum three in each. One bag of each of the 16 preparations was stored either for 24 h or 5 days at 5 °C before freezing. The third setup, a full central composite experimental design, included 13 combinations
of five different concentrations of erythorbic acid (396, 500, 750, 1000 INCB018424 ic50 and 1104 mg kg−1) and ascorbyl palmitate (26, 150, 450, 750 and 874 mg kg−1) in cooked sausages prepared with 150 mg kg−1 sodium nitrite. These 13 combinations included four samples representing a “cube” portion, two axial or “star” points, a center point and four replicates. Four sausages, each of approximately 15 g, were prepared for each of the 13 combination of the two antioxidants. The role of haem iron, in the form of myoglobin from equine
heart, and free iron, in the form of iron(III)sulphate hydrate, in the Ribociclib chemical structure formation of NA in cooked sausages prepared with 150 mg kg−1 sodium nitrite was studied. Calcium, in the form of calcium carbonate, and erythorbic acid was also included as a factor in this factorial design because these two factors may counteract a possible effect of haem and iron, Buspirone HCl respectively. By including erythorbic acid in this setup it was also possible to test the effect of this factor again. The full 2-level factorial design setup required preparation of sausages from sausage meat prepared with 16 different combinations of the four factors,
i.e. added myoglobin (0 or 1.5 g kg−1), iron(III)sulphate hydrate (0 or 36 mg kg−1), erythorbic acid (0 or 1000 mg kg−1) and/or calcium carbonate (0 or 6 g kg−1). Four sausages, of approximately 15 g each, were prepared for each of the 16 preparations. The contents of eight VNA and five NVNA in the samples were determined according to a method recently developed and validated at our laboratory (Herrmann, Duedahl-Olesen, & Granby, 2014). In the following the method will only be described in brief. 2.5 g of homogenised sample with internal standard (ISTD) added (NPYR-d8 and NDMA-d6) was extracted with 7.5 ml 1% formic acid in acetonitrile. After centrifugation the supernatant was removed and frozen. The thawed extract was centrifuged (4500g). 5 ml of the acetonitrile phase was evaporated under a stream of nitrogen to a volume of ∼0.25 ml and then adjusted to 1.0 ml with Milli-Q water. After diluting 1:1 with Milli-Q water the extract was filtered and analysed. The final extracts were analysed by LC(APCI/ESI)–MS/MS as described in Herrmann et al. (2014).