Chewiness Values Research Articles

Changes in quality characteristics and inactivation of Salmonella in cake, including oleogel used as a fat replacer, baked with two different methods.

This is the first study to assess the impact of substitution of shortening (50%) with sunflower-beeswax oleogel in cake formulations on the inactivation kinetics of Salmonella spp. and the quality attributes of cakes baked in conventional (CO) and microwave (MWO) ovens. Four distinct cake samples were examined in the study: Cake samples containing oleogel prepared in two different ovens (Oleo-Cake-CO and Oleo-Cake-MWO) and control cake samples baked in two different ovens (Cont-Cake-CO and Cont-Cake-MWO). The control-batter and oleogel-batter demonstrated shear thinning behavior (pseudoplastic, n<1), with a good fit to the Power Law model, but viscosity and viscoelastic moduli decreased when the oleogel was used in place of shortening in cake recipes. In addition, the Cont-Cake-MWO had the greatest special volume value (2.31±0.04mL/g), whereas the Oleo-Cake-CO had the lowest (1.65±0.02mL/g) (p<0.05). Furthermore, compared to the samples baked with CO, lower water activity and moisture values (p<0.05) were observed in the samples baked in MWO due to their higher cooking loss values (p<0.05). In all baking techniques, the addition of oleogel to the cake formula, used as a fat substitute, resulted in higher values for cohesiveness, hardness, springiness, and chewiness (p<0.05). As a result, the inactivation of Salmonella in cakes slightly reduced with using oleogel as a fat substitute (p>0.05), whereas it affected some quality properties of cakes baked with both heat treatments.

Suitability of early indica rice for the preparation of rice noodles by its starch properties analysis

The research was conducted to explore the affiliation between the physicochemical properties of rice noodles and rice starch of early indica rice samples of varying amylose content. 3 various types of rice samples were analyzed to uncover how amylose content influences rice noodles' quality. Findings revealed that primarily sensory scores differ in palatability, while textural disparity lies in hardness and chewiness. The higher hardness and chewiness values were correlated with higher sensory scores. Rice with lower amylose content demonstrates elevated solubility, swelling power, and crystallinity along with poor retrogradation resulting in inferior-quality noodles. Sensory scores and textural properties were proved to be associated with the distribution of branched starch molecule chain lengths. Noodles of higher sensory scores had more stable gel structure and improved elasticity. These findings underscore the critical role of amylose content and starch molecular structure in determining the suitability of early indica rice for noodle preparation.

Physical, textural, and sensory characteristics of gluten-free cupcakes developed with native and modified by hydrothermal treatment green plantain flours.

Gluten-free diets are characterized by lower nutritional quality. The use of green plantain flour in gluten-free formulations appears as an alternative to overcome this deficiency, considering that green plantains have a relevant content of bioactive compounds, dietary fiber, including resistant starch. The objective of this work was to evaluate the effect of the addition of native and modified by hydrothermal treatment green plantain whole flours in the form of gluten-free cupcakes. The density, yield, and microstructure of the dough, specific volume (SV), height, crumb analysis, color, texture, and sensory acceptability of the cupcakes were evaluated. Partial replacement (40%) of rice flour by native and modified flours produced darker, redder cupcakes, less yellowish and with less color intensity. Sensory analysis revealed higher acceptance for cupcakes with native and modified flours, compared to the control, for appearance, flavor, texture, aroma, and overall acceptance. The native flour was the most viable option, as the cupcake produced with it showed the best values for hardness and chewiness, without changing elasticity and SV, in addition to superior sensory acceptance than the control and similar to cupcakes with other modified flours. PRACTICAL APPLICATION: Pursuing to meet the market demand for gluten-free products, with the cake being one of the most requested products in this market, and taking in account that green banana, from different cultivars, has gained interest for the production of flours. The production of flour and bakery products is of great interest to the food industry, not only because of its flavor and properties but also due to the economic and sustainable viability of producing whole green plantain flour with the potential for application, promoting diversification and innovation in the gluten-free functional products market.

Quality Variation of Pork Bellies by Cutting Manner and Quality Grade

In the meat industry, the quality grading system is commonly applied to classify carcasses based on quality and value. Presently, to facilitate consumer convenience, pork bellies are prepared into slices and retailed in supermarkets and butchers. The objective of this study was to assess the effect of quality grade (QG) and retail cutting manner on the quality properties of pork bellies. Thirty-two bellies with different QGs: QG1+, 1, 2, and off-grade (n = 8 each) randomly collected from a commercial slaughterhouse were used. Each belly was cut into 3 portions: A (5–10th rib, cranial edge), B (11–15th rib), and C (without rib, caudal edge) according to the commonly used retail cutting manner. Samples were subjected to chemical composition, quality traits, and aroma analysis. Fat content was highest in QG1+ and lowest in off-grade and distributed at a higher level in portions A and B than in portion C in all QGs (p &lt; 0.05). Off-grade was associated with higher shear force and chewiness values and lower levels of palmitic and stearic acids, regardless of the cutting portion. The bellies used in this study exhibited variations in chemical composition and quality properties not only among the QGs but also across the cutting portions within each QG.

Gluten-Free Muffin: Effect of Composite Flours (Rice, Pumpkin and Unripe Banana) on The Physicochemical Properties and Sensory Attributes

Muffins are popular breakfast or snack items and are enjoyed in various cultures around the world. It is typically sweet and can come in various flavours such as blueberry, chocolate chip or banana nut. It is one among numerous baked items frequently crafted using wheat flour. However, individuals with gluten-related diseases such as celiac disorder and gluten intolerance are unable to consume wheat flour. In this research, gluten-free muffins made with a composite flour of rice, pumpkin and unripe banana with different ratios F1 (1:1:1), F2 (3:2:1), F3 (2:1:3) and F4 (1:3:2) were applied. The gluten-free muffins prepared with F3 (2 rice: 1 pumpkin: 3 unripe banana) composite flour showed the highest values of springiness and chewiness among all the samples. The gluten-free muffins using F2 (3 rice: 2 pumpkin: 1 unripe banana) composite flours were the highest for lightness and b* yellowness values. In addition, these muffins also obtained the highest percentages for ash and crude fiber contents. The 9-point scale hedonic test showed that consumers' preferences for gluten-free muffins with a ratio of 2 rice: 1 pumpkin: 3 unripe banana flours (F3) were the highest in scores as compared to the other gluten-free muffins. Thus, the study suggested that F3 which contains 2 rice: 1 pumpkin: 3 unripe banana flours was selected as the best formulation to make gluten-free muffins.

Development of seasoned green mussel (Perna viridis) with sodium reduction using stealth reduction approaches

Excessive levels of sodium consumption over the recommended human daily intake level is a global issue. Developing novel low-sodium products to address this issue is challenging. Moreover, there is little research on the use of stealth reduction approaches in reduced sodium seasoned green mussel, representing an additional opportunity for advancement in developing novel products in the seafood processing industry. Thus, this study aimed to develop a seasoned green mussel (Perna viridis) product with a reduced sodium content. The study consisted of two parts: The first part studied two types mussel seasonings (‘Pad-char’; PC and ‘Prik-Pao’; PP) with various sodium reduction levels (30, 70, or 100 %). The difference in taste profiles was confirmed using an electronic tongue technique and consumer acceptance trial. Green mussels seasoned with PC were preferred over those seasoned with PP. Green mussels seasoned with PC at a 30 % sodium reduction level (PC-30 %) received the second highest overall liking score, following the standard, and had a sodium content of 623.80 mg/100 g. Furthermore, PC-30 % was rich in other essential nutrients such as protein and vitamin A. The second aim was to study the shelf-life of the PC-30 % products with storage at 4 ± 1ºC for 12 days. During storage, the PC-30 % sample developed a tough texture, as indicated by higher hardness and chewiness values, along with increased pH and total volatile-based nitrogen. The microbial loads indicated that the shelf-life of the PC-30 % product stored at 4 ± 1ºC was 9 days. This suggests that reducing sodium in mussels through seasoning is feasible while maintaining acceptable sensory scores, but shelf-life challenges must be addressed before bringing these products to market.

Utilizing chia flour-based gelled emulsion for the development of functional beef patties with enhanced nutritional profile.

This study evaluated chia flour, egg white powder, and peanut oil gelled emulsion (GE) as a fat replacer in beef patties. Four formulations were prepared, replacing beef fat with different levels of gelled emulsion: 0% (C), 50% (G50), 75% (G75), and 100% (G100). The beef patties with GE showed improved nutritional properties, technological parameters, and cooking characteristics. A remarkable reduction in SFAs was achieved with the substitution of beef fat by the GE, with reductions of 33.71%, 46.64%, and 72.04% for 50%, 75%, and 100% substitution levels, respectively. AI and TI indices decreased, indicating healthier profiles. Reformulated samples exhibited lower hardness, gumminess, and chewiness values. Color and appearance were similar to the control, with higher sensory scores for G75 and G100. GE impacted color parameters, increasing L* and b* values. The utilization of GE effectively minimized voids in the beef patty structure, leading to improved cooking yield and a more compact structure. GE influenced oxidative stability, with average onset temperatures of 126.33°C (50% GE), 140.58°C (75% GE), and 127.04°C (100% GE). In conclusion, gelled emulsions could successfully contribute to producing healthier meat products.

Development of meat analog patty using lion’s mane mushroom and pumpkin seeds

Abstract High meat consumption globally has caused several problems, such as environmental, animal welfare, and public health issues. Consumption of plant-based meat products or meat analog can be used as an alternative to overcome these problems. In this research, a meat analog patty was formulated using lion’s mane mushroom as a main ingredient as it contains high protein content (20.8%), along with texturized soy protein. Furthermore, pumpkin seeds were also added to provide sufficient iron to the meat analog. This research was done in two stages, in which the first stage of the research was done to observe the effect of different ratios of lion’s mane mushroom and texturized soy flour (30:50, 40:40, 50:30) on the physicochemical and sensory characteristics of the meat analog patty. The analyses done included proximate analysis, color analysis, texture profile analysis, and organoleptic analysis. On the other hand, the second stage of research was focused on determining the best concentration of pumpkin seeds added (10%, 20%, 30%) to the meat analog patty to obtain the optimum iron content. The analyses done included texture profile analysis, proximate analyses, and iron content analysis. Results showed that the selected formulation of the meat analog patty was the one made from a 50:30 ratio of lion’s mane mushroom and texturized soy flour added with 10% pumpkin seeds. It had 0.79 mg of iron/30g of sample and was most preferred by the panelists based on organoleptic tests. The addition of pumpkin seeds did not affect the proximate chemical content of the meat analog patty, except for its moisture content. Regarding textural profile, the meat analog patty made with the addition of pumpkin seeds was comparable to commercial meat analog in terms of hardness while being less springy, cohesive, and chewy. Compared to a meat patty, it had a higher hardness and chewiness value with a lower springiness and cohesiveness value.

Research Note: Basic chemical composition, physicochemical, and textural characteristics of male and female guinea fowl meat

The purpose of this study was to compare analyze the quality of meat depending on the type of muscle: breast muscles (m. Pectoralis superficialis and m. Pectoralis profundus) and leg muscles (m. Sartorius and m. Femorotibialis) in relation to the sex of the common guinea fowl (Numida meleagris). For the study, pectoral muscles and leg muscles from 10 females and 10 males at 20 wk of age were used to determine their chemical composition, physicochemical properties, and texture characteristics of the pectoral muscle were determined. Overall, pectoral muscles were characterized by higher protein content, lightness (L*), and electrical conductivity (EC24), and lower redness (a*), and pH24 compared to leg muscles. Leg muscles, on the other hand, were characterized by higher, collagen, intramuscular fat and salt content. In terms of pectoral muscle texture characteristics, males were characterized by lower chewiness value and were less gumminess. In conclusion, it can be said that the sex of the birds affected some of the pectoral muscle texture traits, but did not affect the remaining analyzed features of the pectoral and leg muscles. However, from the consumer's point of view, breast muscles contained more protein and less fat, so they are more dietary compared to leg muscles.

Bioconversion of mangosteen pericarp extract juice with bacterial cellulose production and probiotic integration: A promising approach for functional food supplement development

This study optimized bioconversion process of mangosteen pericarp extract juice (MPEj) with a single-culture of Komagataeibacter xylinus TISTR 1061, a bacterial cellulose-producing strain and a co-culture with the probiotic Lactiplantibacillus plantarum. K. xylinus TISTR 1061 was identified as the optimal bacterial cellulose-producing strain for fermenting MPEj. Optimal conditions were determined to be 20% (v/v) MPEj supplemented with 7% (w/v) sucrose and 0.2% (w/v) ammonium dihydrogen phosphate as carbon and nitrogen sources, respectively. The growth profile of single K. xylinus was not significantly different from those of the co-culture. They showed good adaptability and cohabited during fermentation without antagonistic effects. Dynamic changes in total titratable acidity (TTA), total soluble solids (TSS), and pH during fermentation were relatively similar for both single- and co-cultures. Post-fermented MPEj with co-culture exhibited significantly higher bioactive activities, particularly antioxidant properties. Significant variations in metabolite concentrations, including 2-aminobutyrate, valine, xylitol, propionate, isoleucine, glucose, and glycerol, were observed. These compounds exhibited significantly higher average concentrations after fermentation, highlighting their potential as biomarkers distinguishing pre- and post-fermentation MPEj. Bacterial cellulose (BC) from single culture exhibited greater thickness and weight, with a more complex and branched structure, while that from co-culture was infused with probiotic cells, showing less complexity allowing the BC from co-culture demonstrated low hardness and chewiness values. The properties of both bioconverted MPEj and BC obtained as observed offer potential for innovative functional drinks and/or dietary supplements with enhanced health benefits.

Thawing of Frozen Hairtail (Trichiurus lepturus) with Graphene Nanoparticles Combined with Radio Frequency: Variations in Protein Aggregation, Structural Characteristics, and Stability.

Efficient thawing can preserve the quality of frozen hairtail (Trichiurus lepturus) close to that of fresh hairtail. In contrast to air thawing (AT) and radio-frequency thawing (RT), this study looked at how graphene oxide (GO) and graphene magnetic (GM) nanoparticles paired with RT affect the microstructure and protein conformation of hairtails after thawing. The results suggested that GM-RT can reduce the myofibrillar protein (MP) damage and be more effective than other thawing treatments, like AT, RT, and GO-RT, in maintaining the microstructure of hairtail. The particle size and zeta potential showed that GM-RT could reduce the aggregation of MP during the thawing process compared to other thawing methods. Moreover, the texture of the hairtail after GM-RT exhibited higher hardness (1185.25 g), elasticity (2.25 mm), and chewiness (5.75 mJ) values compared to other thawing treatments. Especially compared with RT, the GM-RT treatment displayed significant improvements in hardness (27.24%), a considerable increase in springiness (92.23%), and an increase in chewiness (57.96%). GO-RT and GM-RT significantly reduced the centrifugal loss. The scanning electron microscopy results demonstrated that the effect of GM-RT was more akin to that of a fresh sample (FS) and characterized by a well-organized microstructure. In conclusion, GM-RT effectively diminished the MP aggregation and improved the texture of thawed fish. It can be regarded as a viable alternative thawing technique to enhance MP stability, which is vital for preserving meat quality.

Replacing Fishmeal and Fish Oil with Complex Protein and Canola Oil: Effect on Organoleptic and Nutritional Quality of Triploid Rainbow Trout (Oncorhynchus mykiss).

A twelve-week feeding experiment was undertaken to explore the impact of substituting dietary fish meal (FM) and fish oil (FO) with complex protein (CP) and canola oil (CO) in the diet of triploid rainbow trout on the quality of their fillets. The control diet (F100) contained FM (60%) and FO (18.6%) as the main protein and lipid sources. Based on this, 50% and 100% of FM and FO were substituted by CP and CO and they were named as F50 and F0, respectively. The results showed that there were no significant differences in the specific growth rates, condition factors, gutted yields, fillet yields and yellowness values as the substitution levels increased (p > 0.05). The F50 treatment obtained the highest values of fillet springiness and chewiness, improved the umami and bitter taste of the fillets by increasing the contents of inosine-5'-monophosphate and histidine, and increased lipid, protein, C18: 1n-9 and C18: 2n-6 contents (p < 0.05). The F0 treatment obtained the highest values of fillet hardness and pH, attenuated the sweet taste of the fillets by decreasing the content of glycine, and decreased the contents of EPA and DHA (p < 0.05). Both F50 and F0 treatments could increase the redness value, decrease the lightness and hue values of fillets, and increase the odor intensity, resulting in the typical fillet odors of green, fatty, orange and fishy (p < 0.05). In general, 50% and 100% of FM and FO substitution did not affect the growth of trout, but it did affect quality. Compared to the F100 treatment, the fillet quality of the F0 treatment was similar to the F50 treatment and could improve the appearance and odor intensity of the fillets. However, the difference was that the F50 treatment increased the springiness, umami, bitterness and lipid nutritional value of the fillets, but the F0 treatment increased the hardness, decreased the sweetness, and decreased the lipid, EPA and DHA contents of the fillets.

Potential use of hazelnut (Corylus avellana L.) shell powder in muffin production by partial substitution of wheat flour: Color, bioactive, textural, and sensory properties

In this study, different muffin samples were produced by substituting 0, 5, and 10% (w:w) hazelnut shell powder (HSP) into wheat flour and their color, bioactive, textural and sensory properties were determined. The results showed that both total phenolic content and DPPH radical scavenging activity did not change with the addition of HSP to the muffin formulation. Upon enrichment of muffins with HSP, L* and b* color values of muffins decreased in both crumb and crust, while a* values increased in crumb and decreased in crust. The more HSP used in the muffins, the more visible pore formation was determined. Textural analysis revealed that hardness, gumminess, chewiness values decreased while the springiness, cohesiveness and resilience values increased as the amount of HSP increased in the muffin formulation. The partial substitution of wheat flour with 5% (w:w) HSP received the highest crust, crumb, chewiness, taste/aroma and overall acceptability scores by the panelists. Overall, HSPs, which are a waste and by-product of hazelnut processing, can be successfully used in fiber-rich muffin production, both expanding their potential areas of use and contributing to their economic value.

Performance, digestibility and meat quality from lambs fed diets with plantago lanceolata, Italian ryegrass or sainfoin herbages.

Plantago species, which is known to adapt to different climatic conditions, drought, temperature and different soil types. The aim of this study was to compare the effects of P. lanceolata herbage on fattening performance, rumen variables, digestibility, meat quality, meat nutrients and meat textural variables in lambs with the values of Italian ryegrass and sainfoin herbages. The lambs were fed total mix ration (TMR) with concentrated feed (about 30%) plus forage (about 70%) (P. lanceolata, PLA, Italian ryegrass (Lolium multiflorum); IRY or sainfoin (Onobrychis viciifolia) herbages, SAI). Twenty-four male lambs (Akkaraman breed) were assigned to three treatments with 8 lambs in each group. Fattening performance parameters, digestibility and carcass variables were determined. Meat quality and shelf life variables (oxidation, fatty acid profile and textural variables) was detected in the loin (Musculus longissimus), shoulder (M. deltoideus) and leg (M. semitendinosus) muscle samples, which were rested for 24 h +4°C and stored at -20°C for one week, one month, three months and six months. The dry matter (DM) intake, body weight gain, feed efficiency and carcass yield values of lambs, the DM and organic matter (OM) digestions (DMD and OMD) of TMRs, and the pH value, ammonia-nitrogen and short chain fatty acid (SCFA) concentrations of rumen fluid in lambs consuming PLA were similar to those of IRY and SAI (p > 0.05). PLA increased water holding capacity (WHC) and decreased cooking loss of meat compared to feeding with those of IRY and SAI (p < 0.05). The peroxide value (PV) and malondialdehyde (MDA) concentration increased with the stocking time in the meats (p < 0.05). Therefore, PV and MDA concentrations of shoulder, leg and loin meats up to 6th months for PLA were lower than those of IRY and SAI (p < 0.05). The linoleic acid concentration of loin and shoulder meats in PLA were higher than those of IRY and SAI (p < 0.05). The average oleic acid and ∑ω6 fatty acids concentration of meat in PLA was lower than those in IRY and SAI (p < 0.05). Atherogenic index and thrombogenic index values and palmitic acid levels of meat in PLA were similar to those in IRY, but lower than those in SAI (p < 0.05). Springiness, cohesiveness, resilience, hardness and chewiness values of the textural analysis parameters in meat of PLA were lower than those of IRY and SAI. As a result, effect of P. lanceolata on the fattening performance and rumen fermentation of lambs were similar with those of Italian ryegrass (Gramineae family) and sainfoin (Leguminosae family) forages and, it had a positive effect on meat quality (water holding capacity, cooking loss) and meat shelf life criteria (MDA, PV, fatty acid profile and textural variables). For functional lamb meat production, P. lanceolata can be included in the diet of lamb fattening.

Evaluation of Quality and Microbial Communities in Fermented Chinese Mustard Greens from Guangdong Province, China

Fermented Chinese mustard greens are popular fermented vegetable foods in Guangdong Province, China. In this study, the quality characteristics and microbial composition of fermented Chinese mustard greens from different regions, including Shantou (ST), Meizhou (MZ), Yunfu (YF), and Guangzhou (GZ), were evaluated. The colour and texture of fermented Chinese mustard greens were significantly different from those of ST, MZ, YF, and GZ. L* values were 48.62, 42.30, 32.43, and 34.02 in the stem parts of ST, MZ, YF, and GZ, respectively. The chewiness value was greater in GZ (131.26 N) than in MZ (53.25 N), YF (39.99 N), and GZ (24.22 N) zones. The microbial community structure determined by high-throughput sequencing (HTS) demonstrated that Firmicutes, Proteobacteria, and Campilobacterota were the predominant phyla. Lactobacillus was the most predominant microorganism in the MZ and GZ samples and accounted for a greater proportion of the microorganisms in the ST and YF samples. In addition to Lactobacillus, the relative abundances of Cobetia and Weissella were greater in the ST group, while those of Halomonas and Pediococcus were greater in the YF group. There was a significant correlation between the microbial composition and quality indices (colour and texture) among the samples from the four regions. The quality of the fermented Chinese mustard greens in MZ and GZ was significantly different from that of other samples in ST and YF. The Lactobacillus genus (Lactobacillus plantarum and Lactobacillus selangorensis) in MZ and GZ contributed to changes in colour (b*, C*, L*, a*) and texture (firmness and chewiness). This study provided a comprehensive correlation between quality and microbial composition of fermented Chinese mustard greens from different regions in Guangdong Province. The evaluation and correlation between quality and microbiota are helpful for guiding future improvements in fermentation processes and manufacturing high-quality fermented Chinese mustard greens.

Effect of bread ingredients and baking techniques on Bacillus coagulans GBI-30 viability during baking and in vitro digestion

This study aimed to investigate the effect of bread ingredients and baking techniques on the viability of Bacillus coagulans GBI-30 spores during baking and in vitro digestion conditions. After baking, the highest B. coagulans viability were observed in the bread formulation with low sugar and high oil content. Among the baking techniques, steam-assisted baking (ST-HA) resulted in the highest B. coagulans count (7.46 log CFU/g) and viability (95.31%). Conversely, microwave-assisted baking (MW-HA) yielded the lowest B. coagulans count (6.91 log CFU/g) and viability (75.50%). The in vitro digestion test results indicated that the highest B. coagulans count was measured with ST-HA in both gastric and intestinal phases with 86.91% and 96.85, respectively. It revealed that B. coagulans probiotic spores are highly resistant to gastric conditions in bread matrix. Furthermore, it was determined that B. coagulans GBI-30 spores incorporated into the bread can germinate under digestion conditions. Different baking techniques also affected the physical quality characteristics of probiotic bread. The highest specific volume was measured in MW-HA, with a value of 3.54 mL/g. However, MW-HA negatively affected the texture properties of bread, as indicated by the highest hardness and chewiness values observed in these bread samples.

Effect of different sous-vide cooking temperature-time combinations on the functional and sensory properties of goose meat

The effect of goose meat sous-vide (SV) cooking at 6 combinations of temperature (60°C, 80°C) and time (4, 6, 12h) on selected functional properties was investigated. The study conducted an assessment of cooking loss (CL), moisture content, pH, longitudinal (LS), and transverse (TS) shrinkage, shear force (SF), texture profile analysis (TPA), color parameters (L*, a*, b*, C, h°), ΔE and carried out sensory evaluation. A total of 168 breast muscles (BM with and without skin) from 17-wk-old "Polish oat geese" were utilized. The CL was affected by both cooking temperature and time. The CL for meat with skin was higher than for without ones, and it was lower for both kinds of meat cooked at 60°C than at 80°C for all cooking times. The LS was higher than the TS. The higher shrinkage was stated for meat cooked at 80°C. There was a reduction in moisture content and slightly increasing pH by increasing temperature and prolonging cooking time. For both kinds of meat, the highest moisture retention was stated at 60°C/4h, and the lowest in samples heated at 80°C/12h. The samples cooked at 60°C were characterized by a higher L* value than those at 80°C. The a* values were higher for samples cooked at 60°C than those at 80°C, whereas b* were higher for meat cooked at 80°C. The SF exhibited a trend of lower values at 60°C compared to samples cooked at 80°C and it increased with prolonged cooking time. The value of hardness, cohesiveness, springiness, gumminess, and chewiness for meat cooked at 60°C increased, and for samples cooked at 80°C decreased with increasing cooking time. It was no significant differences in sensory scores for overall palatability for both kinds of meat cooked at 60°C and 80°C. Goose meat cooked at different time and temperature combinations showed extremely desirable overall palatability. Taking into account all discussed parameters, the optimal combination seems to be 60°C/4h.

Effects of Çemen pastes prepared in different formulations on physicochemical, microbiological, and textural properties of beef hamburger patties during refrigerated storage.

This study aimed to investigate the effects of çemen pastes prepared in different formulations on physicochemical, microbiological, and textural properties of hamburgers during refrigerated storage (4°C; 60 d). Çemen pastes were produced by using different combination doses of fenugreek seed flour, sweet red pepper, and garlic powder. As a result of çemen paste usage in hamburgers, cooking losses and dimensional shrinkage decreased, whereas moisture and fat retention ratios increased (p < .05). The hardness, gumminess, and chewiness values of hamburgers containing çemen paste were generally lower than those of control (p < .05). Çemen paste addition to hamburgers generally did not cause a difference in terms of microbial growth and moisture, fat and ash contents. Protein contents of hamburgers containing çemen paste or breadcrumbs were generally higher than that of control (p < .05). Çemen paste usage in hamburgers generally decreased the L* values and increased the b* values (p < .05). In general, addition of 3.5% or higher doses of both sweet red pepper and garlic powder caused higher a* values in hamburger patties (p < .05). Lower oxidation levels were generally observed in hamburgers containing 3% or lower doses of fenugreek seed flour and 4.5% of garlic powder in çemen paste (p < .05). It was concluded that çemen paste usage in hamburger patty processing has the potential to improve the quality characteristics and delay oxidative changes.

Effect of polyphenols from Ascophyllum nodosum seaweeds on the rheology and digestion of corn starch gels and gluten-free bread features

The main objective of this work is to study the effect of polyphenols, from the brown seaweed Ascophyllum nodosum, on the structure and digestion behaviour of gels at two corn starch concentrations (1.95 and 5.00% w/w) as well as the structure, color and texture features of crumbs from gluten-free breads. Adsorption isotherms of polyphenols on native and gelled starches were carried out and modelled by means of Langmuir and Henry models, respectively. The formation and characteristics of tested gels were rheologically monitored by means of heating ramp, time sweep at high temperature, cooling ramp and frequency sweep at 25 °C. Elastic modulus values decreased with the presence of polyphenols. Additionally, the polyphenols significantly decreased the digestion rate, measured by both chemical and rheological procedures, and the final concentration of digested starch. Finally, the presence of polyphenols in breads increased the hardness and chewiness values and decreased the cohesiveness and resilience values as well as the crumb hardening during storage.

Inclusion of Beef Heart in Ground Beef Patties Alters Quality Characteristics and Consumer Acceptability as Assessed by the Application of Electronic Nose and Tongue Technology.

Consumer purchasing of beef is often driven by the trinity of flavor, palatability, and convenience. Currently, beef patties in the United States are manufactured with fat and lean trimmings derived from skeletal muscles. A reduction in total beef supply may require the use of animal by-product utilization such as variety meats to achieve patty formulations. The current study aimed to assess textural, color, and flavor characteristics in addition to volatile compounds through electronic technology, e-nose and e-tongue, of ground beef patties formulated with beef heart. Ground beef patties were manufactured with 0%, 6%, 12%, or 18% beef heart, with the remainder of the meat block being shoulder clod-derived ground beef. Patties (n = 65/batch/treatment) within each batch (n = 3) with each treatment were randomly allocated to cooked color (n = 17/batch/treatment), Allo-Kramer shear force (AKSF; n = 17/batch/treatment), texture profile analysis (TPA; n = 6/batch/treatment), cooking loss (n = 17/batch/treatment), consumer panel (n = 3/batch/treatment), e-nose (n = 1/batch/treatment), and e-tongue (n = 1/batch/treatment) analysis groups. Patties containing beef heart did not require additional cooking time (p = 0.1325) nor exhibit greater cooking loss (p = 0.0803). Additionally, inclusion rates of beef heart increased hardness (p = 0.0030) and chewiness values (p = 0.0316) in TPA, were internally redder (p = 0.0001), and reduced overall liking by consumer panelists (p = 0.0367). Lastly, patties containing beef heart exhibited greater red-to-brown (p = 0.0003) and hue angle (p = 0.0001) values than control patties. The results suggest that beef heart inclusion does alter ground beef quality characteristics and consumer acceptability.