Effect of Frying on Physicochemical and Sensory Properties of Potato Chips Fried in Palm Oil Supplemented with Thyme and Rosemary Extracts.

Quality parameters of potato chips (flat and serrated) fried either in palm oil (PO) alone or containing natural (thyme (TPO) and rosemary (RPO) extracts) and synthetic BHT (BPO) antioxidants were evaluated during storage period. The free fatty acid and peroxide values of chips fried in PO (control) were found between 0.18 and 0.21% to 1.00 and 1.04 meqO2/kg during the first storage month, respectively. However, these values were 0.07-0.10% and 0.55-0.90 meqO2/kg for chips fried in TPO, respectively. The water contents increased when storage time increased from 1 to 7 month and their values changed between 0.49 and 1.95% (flat potato chips in BPO) and between 0.88 and 1.24% (serrated potato chips in TPO). The total trans-fat contents were 0.13% (serrated potato chips in BPO) and 0.35% (both flat and serrated potato chips in PO) at the start of storage. The total trans-fat content after 7 months were 0.13% (PO fried flat and serrated potato chips) and 0.17% (serrated potato chips fried in BPO, TPO and RPO). The acrylamide contents varied between 152 (serrated potato chips in PO) and 540 µg/kg (flat potato chips fried in RPO) at the beginning of storage. However, the acrylamide contents changed during 7th storage month and ranged from 182 (serrated potato chips in PO) to 518 µg/kg (flat potato chips in RPO). Among fatty acids, while palmitic acid are determined between 37.14 (flat chips in PO) and 41.60% (serrated chips in TPO), oleic acid varied between 30.0 (flat chips in RPO) and 33.00% (serrated chips in PO). Sensory evaluation showed that PO containing antioxidants showed better consumer preference for potato chips until the end of storage.

An evaluation of bioactive compounds, fatty acid composition and oil quality of chia (Salvia hispanica L.) seed roasted at different temperatures.

The effect of roasting of chia seed at different temperatures (90, 120, 150 and 180 °C) on bioactive constituents in extracts and on the quality of oil was evaluated. At higher temperatures, crude protein and ash contents increased, whereas total phenolic, flavonoid, carotenoid, and antioxidant activities decreased. The predominant phenolic constituents were myrcetin, and rosmarinic, 3, 4-dihydroxybenzoic, caffeic, and gallic acids, which all decreased with increasing temperatures. Notably, myrcetin content ranged from 75.59 mg/100 g (at 100 °C) to 85.49 mg/100 g (for control). Tocopherols (É£ and α type) were predominant nutrients and their levels ranged from 654.86 mg/100 g (at 180 °C) to 698.32 mg/100 g (for control). Concentrations of linolenic (59.84%), linoleic (20.57%), and oleic (10.09%) acids from unroasted chia seeds were higher than those from roasted ones. This study revealed that chia seeds should be heated at temperatures below or equal to 90 °C in order to preserve their nutrient profile.