• Journal of Animal Science and Technology
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• v.63 no.3
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• pp.614-625
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• 2021

This study investigates how visual appearance of pork cuts affects consumer preference. Images of pork belly, Boston butt, and loin were chosen on the basis of visible fattiness and used to analyze consumers' perception of the appearance of each pork cut. Meat color and visible fat proportion of images of pork cuts were analyzed by the researchers before conducting the survey. A total of 211 pork eaters evaluated the pork cuts based on appearance (lightness of color, redness, visible fat proportion, and fat distribution), preferability, and overall acceptability. Also, muscle pieces from different pork cuts were taken and the relative area composition of muscle fibers was measured. Based on survey results, correlation between visual traits and preferences of each pork cut was analyzed. The survey results showed that preferred pork appearance varied as per each individual's favorite pork cut. Also, the respondents evaluated visual characteristics and preference for each pork cut differently possibly due to the different visual characteristics of each cut. Correlation analysis between visual traits and preference indicated that overall acceptability of pork cuts was mainly influenced by fat preference, followed by color preference. Fat and color preferences for each pork cut were affected by various visual attributes including redness, lightness of color, visible fat proportion, and fat distribution, but their effects were considerably varied among different pork cuts. Thus, Korean consumers perceived and assessed pork appearance using various quality cues but the evaluation depended on which cut was being observed.

• Journal of the Korean Society of Food Culture
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• v.20 no.3
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• pp.360-366
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• 2005

This study was conducted to investigate the quality characteristics of low- fat pork patties containing fat replacers. Carrageenan(CA) in combination with pectin(PE) or potato starch(PO) was added as fat replacers and physicochemical properties were evaluated in low-fat pork patties cooked by oven-roasting or pan-frying. Uncooked and cooked pork patties formulated with fat replacers were higher in moisture and ash content and lower in fat content than those of control. The cooking yield and reduction in diameter of pork patties were significantly improved by the addition of fat replacers(p<0.05). Pork patties formulated with CA had the highest fat retention, while CA+PE had the highest water holding capacity. Hunter s L(lightness) value was not different from among patties and a(redness) and b(yellowness) values were higher in carrageenan-based patties than those of control patties. Hardness was higher in carrageenan-based patties than that of control and cohesiveness and springiness showed no difference among patties. Sensory analysis showed that flavor, juiciness and palatability of carrageenan-based patties were superior to control patties and combined use of CA with PE or PO provided improved acceptability of low-fat pork patties over that from using single carrageenan.

• Preventive Nutrition and Food Science
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• v.5 no.1
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• pp.15-19
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• 2000

This study was conducted to determine sensory and chemical traits of reduced-fat frankfurters made with lean lamb or lean lamb/pork (50%/50%), fat from three different sources(pork fat, lamb fat or high-oleic sunflower oil) and added water products designated as L-P-15, LP-L-15, LP-So-15 and LP-P-15, according to lean meat type, source of added fat and target fat content and to compare such products with a similar reduced-fat product made with lean beef/pork (50%/50%) with pork fat(product designated as BP-P-15) and high-fat products made with lean beef/pork (50%/50%) or lamb/pork (50%/50%) with pork fat (BP-P-30 and LP-P-30). Actual fat contents of reduced-fat and high-fat products formulated for 15% and 30% fat were 17~18% and 28~31%, respectively, after processing. Processing yields were lower for all reduced-fat products than for the high-fat products. Trained sensory panelists rated LP-P-15 less intense in lamb flavor as compared to LP-L-15 and LP-So-15. Off-flavor intensity was positively correlated with lamb-flavor intensity (r=0.80), whereas frankfurter-flavor intensity was negatively correlated with lamb-flavor intensity (-0.88) and off-flavor intensity (r=-0.90). According to consumer panelists, LP-P-15 was as desirable in flavor as BP-P-15 or the two high-fat products (BP-P-30 and LP-P-30), while LP-So-15 and LP-L-15 were not. LP-P-15 and BP-P-15 were not notably different from their high-fat counterparts in juiciness and texture desirability and overall palatability. Regardless of fat content, meat type and fat source, there was little lipid oxidation when vacuum-packaged products were refrigerated for 12 weeks.

• Asian-Australasian Journal of Animal Sciences
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• v.16 no.4
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• pp.588-595
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• 2003

The optimum level of fresh granulated low-calcium (0.2%) skim milk co-precipitate, as fat substitute in low-fat ground pork patties was determined on the basis of physico-chemical, cooking and sensory properties. Low-fat ground pork patties (<10% total fat), formulated with 15 per cent water, 4 per cent added fat, 1.5 per cent salt and 4-10 per cent milk co-precipitate, were evaluated for proximate composition, cooking characteristics and compared with control patties with 15 % added fat. The moisture and protein content of raw and cooked low-fat patties were significantly (p<0.05) higher than control. The incorporation of milk co-precipitate in low-fat patties improved cooking yield, fat and moisture retention and reduced shrinkage. The sensory properties of low-fat patties were comparable with control patties. The overall acceptability of low-fat patties formulated with 7% milk co-precipitate was significantly (p<0.05) higher than patties with 10% level and non-significantly (p<0.05) higher than low-fat patties containing 4% milk co-precipitate and control. Instrumental Texture Profiles of developed low-fat patties and control patties were comparable with slight increases in hardness and gumminess of the low-fat product. The developed low-fat ground pork patties (7% milk co-precipitate) had lower TBA values, better microbiological and sensory refrigerated storage stability than high-fat control patties packaged in air permeable films for 21 days.

• Asian-Australasian Journal of Animal Sciences
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• v.32 no.8
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• pp.1195-1204
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• 2019

Objective: The purpose of this study was to investigate whether addition of konjac gel with three different vegetable powders can increase quality of low-fat frankfurter-type sausage. Methods: Low-fat frankfurter-type sausages were manufactured with formulations containing konjac gel and three vegetable powders (aloe vera, cactus pear, or wheat sprout) as pork fat replacers. The formulations of frankfurters were as follows: NF (normal-fat; 20% pork fat), LF (low-fat; 10% pork fat), KG (low-fat; 10% pork fat+10% konjac gel), and konjac gel with three vegetable powders (KV), such as KV-AV (10% pork fat+10% konjac gel with aloe vera), KV-CP (10% pork fat+10% konjac gel with cactus pear), and KV-WS (10% pork fat+10% konjac gel with wheat sprout). Proximate analysis, pH value, color evaluation, cooking loss, water-holding capacity, emulsion stability, apparent viscosity, texture profile analysis, and sensory evaluation were determined. Results: The konjac gel containing groups showed lower fat content (p<0.05) and higher moisture content than NF group (p<0.05). The pH value of frankfurters was decreased in three KV groups (p<0.05). The three KV groups had increased dark color (p<0.05) compared with KG, and KV-CP had the highest redness (p<0.05). The water-holding capacity and emulsion stability were higher in the three KV groups than KG and LF (p<0.05). Cooking loss was generally decreased in the three KV groups, compared with KG (p<0.05). The apparent viscosity of KV groups was similar with NF group and overall texture properties were improved in KV-CP. In the sensory evaluation, the highest overall acceptability was found in KV-CP groups (p<0.05). Conclusion: The four fat replacers improved physicochemical properties of low-fat frankfurters. Particularly, konjac gel with cactus pear powder seems more acceptable as a pork fat replacer.

• Food Science of Animal Resources
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• v.35 no.1
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• pp.130-136
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• 2015

This study was conducted to evaluate the quality properties of emulsion-type pork sausages when pork fat is replaced with vegetable oil mixtures during processing. Pork sausages were processed under six treatment conditions: T1 (20% pork fat), T2 (10% pork fat + 2% grape seed oil + 4% olive oil + 4% canola oil), T3 (4% grape seed oil + 16% canola oil), T4 (4% grape seed oil + 4% olive oil + 12% canola oil), T5 (4% grape seed oil + 8% olive oil + 8% canola oil), and T6 (4% grape seed oil + 12% olive oil + 4% canola oil). Proximate analysis showed significant (p<0.05) differences in the moisture, protein, and fat content among the emulsion-type pork sausages. Furthermore, replacement with vegetable oil mixtures significantly decreased the ash content (p<0.05), increased water-holding capacity in emulsion-type pork sausages. Also, cholesterol content in T6 was significantly lower than T2 (p<0.05). In the texture profile analysis, hardness and chewiness of emulsion-type pork sausages were significantly (p<0.05) decreased by vegetable oil mixtures replacement. On the contrary, cohesiveness and springiness in the T4 group were similar to those of group T1. The unsaturated fatty acid content in emulsion-type pork sausages was increased by vegetable oil mixtures replacement. Replacement of pork fat with mixed vegetable oils had no negative effects on the quality properties of emulsion-type pork sausages, and due to its reduced saturated fatty acid composition, the product had the quality characteristics of the healthy meat products desired by consumers.

• Food Science of Animal Resources
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• v.43 no.6
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• pp.989-1001
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• 2023

Processed foods containing pork fat tissue to improve flavor and gain economic benefit may cause severe issues for Muslims, Jews, and vegetarians. This study aimed to develop an indirect enzyme-linked immunosorbent assay (iELISA) based on a monoclonal antibody specific to thermal stable-soluble protein in pork fat tissue and apply it to detect pork fat tissue in heat-processed (autoclave, steam, roast, and fry) beef meatballs. To develop a sensitive iELISA, the optimal sample pre-cooking time, coating conditions, primary and secondary dilution time, and various buffer systems were tested. The change in the iELISA sensitivity with different 96-well microtiter microplates was confirmed. The detection limit of iELISA performed with an appropriate microplate was 0.015% (w/w) pork fat in raw and heat-treated beef. No cross-reactions to other meats or fats were shown. These results mean that the iELISA can be used as an analytical method to detect trace amounts of pork fat mixed in beef.

• Asian-Australasian Journal of Animal Sciences
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• v.20 no.8
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• pp.1272-1277
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• 2007

Sensory traits and preferences regarding food co-product fermented liquid (FCFL)-fed pork loin were compared with those of formula-fed pork. The FCFL-fed pork was expected to have improved fat meltability. Thirty-nine laboratory panelists took part in a sensory test. The fat meat and the lean meat of FCFL-fed pig were judged more meltable and tender, respectively, than the corresponding meat from the formula-fed pig. These sensory traits agreed closely with the results of a mechanical investigation of fat melting patterns and with Warner-Bratzlar shear force values. However, the overall preference was not significantly associated with sensory fat meltability and meat tenderness, as assessed by chi-square and correspondence analyses, but it was significantly related to the whole fat preference and the fat texture preference. The fat texture preference, however, did not correlate with sensory fat meltability. These results indicated that FCFL feeding altered sensory fat meltability in pork loin, but the preference for such meltable fat differed among individual panelists.

• Journal of Food Hygiene and Safety
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• v.31 no.6
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• pp.445-450
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• 2016

Thermal-stable soluble proteins (TSSP) in livestock products has been recently reported. Therefore, the development of antibodies and immunoassay using a TSSP is useful because the presence of TSSP can be measured on processed food. In this study, the existence of TSSPs in pork fat and meat was confirmed and their antigenicity was investigated. The extracts from pork fat and meat by heating method were analyzed by SDS-PAGE with 5% stacking and 12% separating gels. The protein profiles from the raw pork fat and meat extracts (major band ranged 25 to 100 kDa) without cooking and heating treatments were significantly different compared to those from cooked and heated pork fat and meat extracts (several major bands > 100 kDa and < 30 kDa). This meant that non thermal-stable soluble proteins ranged from 25 to 100 kDa may be denaturated to insoluble proteins by cooking and heating treatments, and TSSPs were in pork fat and meat at kept their properties. The confirmed TSSPs were used as an immunogen to investigate their antigenicity. Eight mice (5 mice for pork fat and 3 mice for pork meat) were separately immunized with the TSSPs of pork fat and meat, and the anti-sera obtained from the immunized mice showed high titer values. Polyclonal antibodies against each target protein showed the specific reaction to pork fat and meat, individually. These indicated that TSSP could be used as an immunogen to produce antibodies such as monoclonal and polyclonal antibodies. In addition, antibodies specific to TSSP from pork fat and meat may be used as a bio-receptor in immunoassays for the identification of fraudulent adulteration with pork fat and meat in livestock products.

• Food Science of Animal Resources
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• v.36 no.4
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• pp.538-546
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• 2016

This study was carried out to evaluate the effects of fat level on the microwave cooking properties of ground pork patties with NaCl (1.5%). Ground pork patties were processed from pork hams to achieve fat levels of 10%, 15%, 20%, and 25%, respectively. Each patty was cooked from a thawed state to 75℃ in a microwave oven at full power (700 W). After microwave cooking, protein content, moisture content, fat retention, and shear force values in patties decreased as fat level increased from 10 to 25%. As fat level increased, cooking time decreased but total cooking loss and drip loss were increased, whereas slight differences in diameter reduction and thickness of patties were observed. In raw patties, 10% fat patties had lower L* values and higher a* values compared to patties with more fat, but these differences were reduced when patties were cooked. Patties with 10% fat showed a more pink color on the surface and interior than patties with a higher fat content but more air pockets were noted in higher-fat patties. Higher-fat patties were more tender, juicy, and oily than lower-fat patties.