This study was performed to evaluate the quality of fermented sausages manufactured with processed sulfur-fed pigs. The fermented sausages were divided into two groups; one was manufactured with non sulfur-fed pigs (NP), the other one was made with processed sulfur-fed pigs (SP). No differences were found in moisture and fat contents (p>0.05) between NP and SP, but the protein and ash contents of SP were significantly higher than those of NP (p<0.05). The pH of SP was significantly lower than that of NP, and the water activity (aw) of SP was significantly higher than that of NP after 14 and 21 d (p<0.05). The TBA (Thiobarbituric acid reactive substance) value of SP was significantly lower than that of NP (p<0.05). The lightness and yellowness of NP were significantly higher than those of SP, whereas the redness of NP was lower than SP (p<0.05). The total plate count of SP was lower than that of NP (p<0.05). There was no significant difference in TPA (Texture profile analysis) between the two samples. SP showed significantly increased monounsaturated fatty acid (p<0.05) and decreased saturated fatty acid. Umami taste and richness in SP were significantly higher than in NP (p<0.05). Therefore, it is suggested that processed sulfur fed pigs may play a key role in enhancing the quality of meat products.
This study was investigated to assess the effects of buckwheat (BW) and fermented buckwheat (FBW) on the proximate compositions, pH change, cooking quality, lipid oxidation, textural properties, and sensory characteristics of pork patties. Pork patties treated with BW and FBW were divided into six groups; Con, non-treated patties; T0, reduced fat patties; T1 and T2, addition of 1 and 3 % BW; FT1 and FT2, addition of 1 and 3 % FBW. FBW showed significantly higher antioxidant activity and total phenolic contents than BW (P < 0.05). FT2 had significantly lower level of lipid oxidation than other groups (P < 0.05). The addition of BW and FBW increased the crude fiber content in pork patties, whereas it decreased the crude fat content compared to the control group (P < 0.05). BW and FBW significantly reduced expressible drip and cooking loss (P < 0.05). Pork patties prepared with BW and FBW exhibited higher redness value of uncooked and cooked patties. Texture profile analysis of patties revealed that the addition of BW and FBW significantly decreased the hardness and increased tenderness. The results suggested that BW and FBW exhibited substantial effects on improving the quality of pork patties. The 1 % BW (T1) and FBW (FT1) appeared to be the most effective means of improving the overall properties of pork patties.
This study was performed to investigate the quality characteristics of salami sausages added with different levels of whole buckwheat flour (BWF) during storage. Samples included the control (Con), addition of 1% BWF (T1), 3% BWF (T2), and 5% BWF (T3). Water activity (a) and pH decreased with increased level of BWF. Salami sausage samples containing 5% BWF demonstrated significantly lower 2-thiobarbituric acid (TBA) values than the control. Changes in TBA values between day 0 and 21 for T2 and T3 were less than that for control. Total plate count (TPC) of all groups significantly decreased, whereas lactic acid bacteria significantly increased after 21 days. TPC of samples added with BWF was significantly lower during storage. Inclusion of BWF seemed to be an effective means of retarding lipid oxidation and enhancing storability of salami sausages.
This study was performed to investigate the chemical composition, mineral status, oxidative stability, and texture attributes of dry-cured ham from pigs fed processed sulfur (S, 1 g/kg feed), and from those fed a basal diet (CON), during the period from weaning to slaughter (174 d). Total collagen content and soluble collagen of the S group was significantly higher than that of the control group (p<0.05). The pH of the S group was significantly higher than that of the control group, whereas the S group had a lower expressible drip compared to the control group. The S group also showed the lower lightness compared to the control group (p<0.05). In regard to the mineral status, the S group had significantly lower Fe2+ and Ca2+ content than the control group (p<0.05), whereas the proteolysis index of the S group was significantly increased compared to the control group (p<0.05). The feeding of processed sulfur to pigs led to increased oxidative stability, related to lipids and pigments, in the dry-cured ham (p<0.05). Compared to the dry-cured ham from the control group, that from the S group exhibited lower springiness and gumminess; these results suggest that feeding processed sulfur to pigs can improve the quality of the texture and enhance the oxidative stability of dry-cured ham.
The objective of this study was to determine the effect of Allium hookeri supplementation with whey powder in pig diet on meat quality, oxidative stability and sensory characteristics of Longissimus dorsi muscle samples. A total of 60 pigs were randomly assigned into the following three groups (four replicate pens per group with five pigs per pen): CON group, basal diet; AH, dietary supplementation with 10 g A. hookeri/kg feed and AHW, dietary supplementation with 5 g A. hookeri/40 g whey powder/kg feed. Proximate composition of muscle sample was not significantly affected by A. hookeri supplementation. On average, the AHW group showed higher pH but less cooking loss than the CON group. However, the AH and AHW groups had lower (p < .05) collagen content and shear force than the CON group. Retardation of lipid oxidation was significantly higher in the AH compared to that in the CON group. However, fatty acid compositions were not significantly affected by A. hookeri or whey powder supplementation, the exceptions were the C18:0 and C18:3n À 3 that showed the highest and the C20:3n À 3 the lowest proportions in the AH group. The AH group exhibited higher free amino acid contents such as Glu, Asn, Thr, Arg, Tyr, Ile and Leu than the AHW or CON group. However, sensory characteristics were not significantly affected by supplementation with A. hookeri or whey powder. These findings demonstrate that A. hookeri might be a promising supplement for pigs diet to improve meat oxidative stability without negatively compromise the nutritional properties and sensory quality.
The present study was performed to determine the effect of dietary supplementation with processed sulfur on the quality and stability of vacuum packaged pork during aging time. All groups were designated into two groups; NP, a group fed basal diet and SP, a group fed basal diet and processed sulfur, 3 g/kg feed. Following vacuum packaging, Longissimus dorsi muscles were vacuum-packaged and stored under refrigerated condition (1-2°C) for 21 d. Weight loss of the SP group was lower (p<0.05) than that of the NP group. Interaction effect of shear force and cooking loss was observed (p<0.05). Redness values of the SP group at 14 and 21 d after storage were higher than those of the NP group (p<0.05). Lipid oxidation and volatile basic nitrogen (VBN) levels in the SP group were retarded (p<0.05) compared to that of the NP group during storage. Aspartic and glutamic acid in SP were higher than in NP (p<0.1). There was no significant (p>0.05) difference in TPC between the both groups during storage. Therefore, vacuum packaged pork from pigs fed processed sulfur had better aging yield and storage stability than pork from pigs fed basal diet.
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