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Keywords = cooking and taste quality

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21 pages, 4378 KB  
Article
Physicochemical Properties of Pre-Treatment Tartary Buckwheat Flour and Its Effect on Dough and Noodle Quality
by Shengnan Xu, Xueqin Li, Jiayin Lv, Jie Chen and Kunlun Liu
Foods 2026, 15(11), 1975; https://doi.org/10.3390/foods15111975 - 2 Jun 2026
Viewed by 377
Abstract
This study compared physical and chemical properties of extruded Tartary buckwheat flour (ETBF) and microwave-extruded Tartary buckwheat flour (M-ETBF), as well as the quality of dough and noodles made with these flours. The results showed that M-ETBF had higher protein and flavonoid contents, [...] Read more.
This study compared physical and chemical properties of extruded Tartary buckwheat flour (ETBF) and microwave-extruded Tartary buckwheat flour (M-ETBF), as well as the quality of dough and noodles made with these flours. The results showed that M-ETBF had higher protein and flavonoid contents, smaller particle size and darker color (lower L* value) compared to ETBF. With increasing ETBF or M-ETBF in wheat flour, gelatinization temperature rose and viscosity decreased. The dough became darker in color, with a lighter green and deeper yellow. Dough with 20% ETBF or M-ETBF had rheological properties similar to pure wheat dough. In noodles, increasing Tartary buckwheat flour decreased springiness, but also increased hardness, chewiness and cooking loss. The best taste and overall quality were at 20% addition for both types of flour. When added in equal amounts, M-ETBF noodles had slightly better viscosity and springiness. Full article
(This article belongs to the Section Food Physics and (Bio)Chemistry)
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17 pages, 1333 KB  
Article
Functional Properties and Mechanistic Study of Native Starches as Fat Replacers in Low-Fat Pork Sausages
by Lan Gao, Wentao Chen, Zhenhong Lin, Sitong Ye, Hailin Wang, Guoxin Lin, Daohuang Xu, Chengdeng Chi, Leiwen Xiang and Youcai Zhou
Foods 2026, 15(8), 1428; https://doi.org/10.3390/foods15081428 - 20 Apr 2026
Viewed by 623
Abstract
This study systematically evaluated the potential of five native starches, including corn (CS), potato (PS), tapioca (TS), rice (RS), and sweet potato (SPS), as fat replacers in low-fat pork sausages. The obtained results showed that amylose content varied significantly, with PS and SPS [...] Read more.
This study systematically evaluated the potential of five native starches, including corn (CS), potato (PS), tapioca (TS), rice (RS), and sweet potato (SPS), as fat replacers in low-fat pork sausages. The obtained results showed that amylose content varied significantly, with PS and SPS having the highest levels (30.06% and 28.60%, respectively), which were beneficial for forming starch gels. Correspondingly, PS and SPS demonstrated the highest solubility and swelling power. In sausage applications, PS and SPS exhibited superior water-retention capacities, with drying losses of 6.75% and 7.03%, and cooking losses of 2.23% and 2.52%, which were lower than those of the normal control (NC) and low-fat control (LFC) groups. Moreover, the results of texture profile analysis revealed that PS and SPS enabled the sausages to achieve the highest levels of hardness and springiness, contributing to maintaining the moisture retention and toughness of the sausages. Electronic tongue and nose analyses indicated that incorporating these starches did not adversely affect the taste and odor profiles of the sausages, except for RS, which showed distinct flavor encapsulation properties. Overall, PS and SPS served as excellent fat replacers in the meat industry, offering healthier alternatives without compromising product quality. Full article
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19 pages, 4749 KB  
Article
Responses of Japonica Rice Quality Indicators and Starch Properties to Low Temperature at Different Periods of the Grain-Filling Stage in Cold Regions
by Mingyu Fan, Miao Hou, Fanxu Meng, Wenxuan Dai, Chuanming Yang and Hongyu Li
Foods 2026, 15(8), 1355; https://doi.org/10.3390/foods15081355 - 13 Apr 2026
Viewed by 588
Abstract
Low temperature during grain filling is a major constraint affecting rice quality in cold regions. This study investigated how low temperature influences rice quality and starch characteristics at different periods of the grain-filling stage using two Japonica rice cultivars, Kenjing 7 (KJ7, moderate [...] Read more.
Low temperature during grain filling is a major constraint affecting rice quality in cold regions. This study investigated how low temperature influences rice quality and starch characteristics at different periods of the grain-filling stage using two Japonica rice cultivars, Kenjing 7 (KJ7, moderate stress tolerance) and Kenjing 8 (KJ8, strong stress tolerance). Low-temperature treatments (17/13 °C, day/night) were applied during the early (5–11 days after anthesis), middle (12–18 days), and late (19–25 days) grain-filling stages and milling, appearance, nutritional, eating and cooking qualities as well as starch physicochemical properties were evaluated. Responses differed markedly between cultivars and treatment periods. Under low-temperature conditions, brown rice and milled rice rates of KJ8 increased during the early and middle grain-filling stages, whereas those of KJ7 declined during the late stage. Low-temperature stress increased protein, total starch, and amylose contents, while reducing gel consistency and the taste value of KJ7. Grain chalkiness increased significantly during the late stage, whereas during the early and middle stages, grain chalkiness, peak viscosity, and breakdown decreased and setback increased. Low temperature increased starch granule size and the proportions of short and intermediate chains of amylopectin, reduced medium-long and long chain and relative crystallinity, without altering starch crystalline type, and produced uneven starch particle surfaces with small pores. These effects were most pronounced during the late grain-filling stage. Overall, low temperature altered starch content and structure, thereby modifying pasting properties and ultimately leading to differences in rice quality. Full article
(This article belongs to the Section Food Quality and Safety)
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16 pages, 1435 KB  
Article
Development of High-Internal-Phase Pickering Emulsions Stabilized by Soy Protein Isolate and Sodium Alginate as Innovative Fat Replacers for Emulsified Sausages
by Zhi Wang, Xuefei Wang, Xin Li, Chao Zhang, Fangda Sun, Qian Chen, Qian Liu, Baohua Kong and Haotian Liu
Foods 2026, 15(8), 1294; https://doi.org/10.3390/foods15081294 - 9 Apr 2026
Viewed by 640
Abstract
In this study, vegetable oil-based high-internal-phase Pickering emulsions (HIPPEs) were formulated from soy protein isolate and sodium alginate, and the effects of different replacement ratios (20–100%) of pork back fat on the quality of emulsified sausages were investigated. With the increase in the [...] Read more.
In this study, vegetable oil-based high-internal-phase Pickering emulsions (HIPPEs) were formulated from soy protein isolate and sodium alginate, and the effects of different replacement ratios (20–100%) of pork back fat on the quality of emulsified sausages were investigated. With the increase in the fat replacement ratio, cooking loss, released fat, and lipid oxidation significantly decreased (p < 0.05). Similarly, as the replacement ratio rose, L*-values, pH and springiness increased, while a*-values, hardness, cohesiveness, and chewiness showed a significant decrease. The reformulated sausages exhibited superior slice compactness, a macroscopic trait corroborated by the dense network structure observed via microstructural analysis. Electronic nose and electronic tongue measurements indicated that the inclusion of HIPPEs modulated both the aroma profiles and taste attributes of the emulsified sausages. Moreover, although differences were observed in some sensory attributes and flavor characteristics, all formulations with HIPPEs remained within an acceptable sensory range. Full article
(This article belongs to the Section Meat)
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22 pages, 2159 KB  
Article
Effects of Controlled Atmosphere Conditions on the Quality Characteristics, Physicochemical and Antioxidant Properties of Pork Bone Broth
by Ying Su, Junli Dong, Qian Deng, Long Zhang, Jing Li and Jie Chen
Foods 2026, 15(7), 1188; https://doi.org/10.3390/foods15071188 - 1 Apr 2026
Viewed by 570
Abstract
Controlled atmosphere (CA) is widely employed to preserve perishable foods, yet its potential effects on the quality of thermally processed bone broth remain poorly understood. This work systematically investigated the influences of ventilation time (0, 1, and 3 s), ventilation frequency (30, 60, [...] Read more.
Controlled atmosphere (CA) is widely employed to preserve perishable foods, yet its potential effects on the quality of thermally processed bone broth remain poorly understood. This work systematically investigated the influences of ventilation time (0, 1, and 3 s), ventilation frequency (30, 60, 90, and 110 cycles), and cooking duration (25, 30, 38, and 45 min) on the overall quality of pork bone broth. A single-factor experimental design was adopted with three replications per treatment. Results showed that CA treatment effectively improved the sensory properties of pork bone broth, including color, aroma, and taste. Different CA processing parameters differentially affected the accumulation of diglycerides, proteins, peptides, amino acids and lipid oxidation-related flavor compounds, as well as antioxidant activities and emulsion stability. Specifically, prolonged ventilation promoted the accumulation of diglycerides and medium-sized peptides (1–7 kDa) but concurrently reduced solids, fat content, and ABTS radical scavenging activity, suggesting a trade-off between flavor precursor generation and oxidative stability. Furthermore, most quality indicators initially increased with rising ventilation frequency but subsequently declined at excessive levels, with optimal values attained at moderate frequencies. Notably, CA conditions that enhanced the formation of desirable flavor compounds also increased the accumulation of lipid oxidation byproducts, highlighting a critical balance required for achieving optimal product quality. Ultimately, it was found that a ventilation time of 1 s, a ventilation frequency of 60 cycles per minute, and a cooking duration of 30 min maximized the benefits of controlled atmosphere (CA) processing, thereby achieving optimal sensory properties, flavor profiles and nutritional composition in pork bone broth. This study provides fundamental data to support the development and quality regulation of thermally processed meat broths. Full article
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23 pages, 3620 KB  
Article
Comparative Analysis of Meat Quality Characteristics of the Longissimus dorsi in Suffolk × Hu F1 Crossbreds and Their Parental Breeds
by Zhenghan Chen, Rui Zhang, Liwa Zhang, Zhenfei Xu, Xuejiao An, Chune Niu, Zhiguang Geng, Haina Shi, Jinxia Zhang, Lei Qu, Shuwei Dong and Yaojing Yue
Animals 2026, 16(7), 1027; https://doi.org/10.3390/ani16071027 - 27 Mar 2026
Viewed by 693
Abstract
With the increasing consumer demand for high-quality lamb, crossbreeding has become a key technology for improving the production performance and meat quality of sheep. To evaluate the meat quality advantages and characteristics of Suffolk (SFK) and Hu sheep (HH) and their F1 [...] Read more.
With the increasing consumer demand for high-quality lamb, crossbreeding has become a key technology for improving the production performance and meat quality of sheep. To evaluate the meat quality advantages and characteristics of Suffolk (SFK) and Hu sheep (HH) and their F1 crossbreds (SH), thirty-six 3-month-old male lambs of SFK (n = 12), HH (n = 12), and SH (n = 12) were selected and raised in individual pens under the same nutritional and management conditions. After standardized feeding until 6 months of age, the Longissimus dorsi muscle was collected to determine meat quality traits, amino acid and fatty acid profiles, and volatile flavor compounds. The results indicated that the L*, a* and b* values of the SH group were significantly lower than those of the parental breeds (p < 0.05), with tenderness being intermediate between the two parent breeds. Notably, drip loss and cooking loss were significantly lower in the SH group (p < 0.05), indicating superior water-holding capacity. In terms of amino acid profiles, the contents of non-essential amino acids (NEAAs) and sweet-tasting amino acids in the SH group were significantly higher than those of the parent breeds (p < 0.05), with the overall profile meeting the FAO/WHO ideal protein pattern. Analysis of fatty acid profiles revealed that the SH group had significantly lower total saturated fatty acids (SFAs) (p < 0.05) and significantly higher levels of functional fatty acids (such as CLA), resulting in a significantly higher UFAs (unsaturated fatty acids)/SFAs (saturated fatty acids) ratio (p < 0.05) and superior nutritional value of fat. Furthermore, 32 volatile flavor compounds were detected in the SH group; among them, key aroma-active compounds such as isoamyl formate, 3-methyl-1-butanol, and acetoin were significantly higher than in the parental breeds (p < 0.05), contributing to a unique flavor profile. Consequently, this study systematically reveals the advantages of Suffolk × Hu F1 crossbreds in terms of meat quality, nutritional value, and flavor characteristics, providing fundamental data for the optimization of crossbreeding systems, breeding selection, and the quality improvement of sheep meat products. Full article
(This article belongs to the Section Animal Products)
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32 pages, 2405 KB  
Article
Optimization of Nutrient-Enriched Ravioli Incorporating Elephant Foot Yam Flour and Encapsulated Okra–Moringa Pearls
by Sangeetha Arunachalam, Baskar Rajoo, Harish Karthikeyan Ravi and Sowmiya Murugesan
Appl. Sci. 2026, 16(5), 2435; https://doi.org/10.3390/app16052435 - 3 Mar 2026
Viewed by 1354
Abstract
The growing demand for functional and value-added foods has prompted interest in integrating nutrient-rich ingredients and novel encapsulated systems into traditional pasta products. This study aimed to develop and optimize a ravioli dough formulated with elephant foot yam flour (EFYF), wheat flour (WF) [...] Read more.
The growing demand for functional and value-added foods has prompted interest in integrating nutrient-rich ingredients and novel encapsulated systems into traditional pasta products. This study aimed to develop and optimize a ravioli dough formulated with elephant foot yam flour (EFYF), wheat flour (WF) and amaranth flour (AF) using mixture design in response surface methodology and to create an innovative filling using encapsulated edible pearls produced from okra mucilage and moringa leaf powder through ionotropic gelation. The pearls and ravioli dough were analyzed for physicochemical, textural, color and nutritional characteristics. Cooked ravioli was investigated for cooking quality and sensory attributes. The optimized dough formulation (46.67 g EFYF, 43.32 g WF, 10 g AF) exhibited desirable hardness (4.64 ± 0.28 N), chewiness (0.40 ± 0.02 N), nutritional, physicochemical and color attributes. The edible pearls demonstrated moderate moisture content (21.18 ± 0.26%), high protein (26.25 ± 0.02%), crude fiber (2.60 ± 0.01%), dietary fiber (8.60 ± 0.52%), high ash content (14 ± 0.62%) and soft gel-like texture. The cooked ravioli showed a cooking time of 8 ± 1 min, high water absorption capacity (209.9 ± 0.34%), minimal solid loss (1.30 ± 0.21%) and favorable sensory scores across appearance, taste, texture and overall acceptability. The study concludes that incorporating encapsulated pearls and nutrient-dense flours can produce a functional, nutritionally enriched ravioli with good technological performance and consumer appeal. Full article
(This article belongs to the Section Food Science and Technology)
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21 pages, 4614 KB  
Article
Integrated Mechanisms of Flavor and Quality Development in Braised Pork: A Study on Volatile Profiles, Texture Dynamics, Nucleotide Catabolism, and Protein Oxidation
by Zhuowen Wang, Jinxuan Cao, Jinpeng Wang, Yuemei Zhang, Wendi Teng, Shuai Zhuang and Ying Wang
Foods 2026, 15(3), 503; https://doi.org/10.3390/foods15030503 - 1 Feb 2026
Viewed by 917
Abstract
This study aimed to explore the evolution of quality and flavor characteristics of braised pork during the cooking process and clarify the underlying formation mechanisms. Texture analysis revealed that shear force and hardness initially increased during blanching but decreased substantially with an extended [...] Read more.
This study aimed to explore the evolution of quality and flavor characteristics of braised pork during the cooking process and clarify the underlying formation mechanisms. Texture analysis revealed that shear force and hardness initially increased during blanching but decreased substantially with an extended stewing time. Low-field NMR indicated a progressive shift in water distribution from immobilized to free states, correlating with cooking loss and tenderness development. GC-MS and E-nose analyses showed significant increases in volatile compound diversity and concentrations, with aldehydes and ketones identified as dominant contributors to the evolving aroma profile. Throughout the processing, an enhancement in protein oxidation and nucleotide degradation was observed. Notably, significant increases were detected in the umami amino acids aspartic acid and glutamic acid, as well as in the umami nucleotide inosine monophosphate (IMP). These changes collectively contributed to the development of the characteristic taste profile. These findings indicate that the superior eating quality evolution and flavor development of braised pork during cooking are governed by the coordinated changes in texture, water distribution, lipid oxidation, and taste-active compounds. The interplay between these factors occurs at different stages of processing, leading to the complex, non-linear enhancement of flavor and texture. Full article
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20 pages, 730 KB  
Article
Fortification of Durum Wheat Pasta with Mealworm (Tenebrio molitor) Powder: Physicochemical, Nutraceutical, and Sensory Effects
by Ewelina Zielińska, Paulina Sidor and Urszula Pankiewicz
Molecules 2026, 31(2), 298; https://doi.org/10.3390/molecules31020298 - 14 Jan 2026
Cited by 2 | Viewed by 1128
Abstract
Edible insects are gaining popularity as an alternative food source, highlighting the urgent need for research on their incorporation into traditional food products. This study investigated the impact of incorporating mealworm (Tenebrio molitor) powder (MP) at 2%, 5%, and 10% levels [...] Read more.
Edible insects are gaining popularity as an alternative food source, highlighting the urgent need for research on their incorporation into traditional food products. This study investigated the impact of incorporating mealworm (Tenebrio molitor) powder (MP) at 2%, 5%, and 10% levels on the nutritional, functional, and sensory properties of pasta. Proximate composition, mineral content, color parameters, cooking quality, antioxidant activity and sensory properties were evaluated. Starch digestibility fractions and predicted glycemic index (pGI) were calculated based on in vitro enzymatic hydrolysis. Results showed that 10% MP addition significantly increased protein (1.45-fold) and fat content (12-fold), enriched minerals (Fe, Zn, Mg, K), and improved antioxidant capacity (ABTS+·: 1.3-fold; DPPH·: 2.6-fold) and phenolic content (14.4-fold) compared to control. Color analysis revealed a decrease in lightness and an increase in redness, indicating darker tones with higher MP levels. This supplementation reduced rapidly digestible starch and pGI while increasing slowly digestible starch, suggesting benefits for glycemic control. Sensory evaluation revealed no significant differences (p > 0.05) among samples for appearance, color, taste, and overall impression, confirming good acceptability. Overall, MP fortification improved nutritional and functional properties without compromising sensory quality, supporting its application in developing high-protein, health-oriented foods. Full article
(This article belongs to the Special Issue Functional Foods Enriched with Natural Bioactive Compounds)
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6 pages, 435 KB  
Proceeding Paper
What Does Quality Fish Taste Like? A Sensory Guide for the Evaluation of Cooked Sparus aurata 
by Isabel Casanova-Martínez, Nuria Jiménez-Redondo, David Lopéz-Lluch, Ángel A. Carbonell-Barrachina, Esther Sendra and Marina Cano-Lamadrid
Biol. Life Sci. Forum 2026, 56(1), 3; https://doi.org/10.3390/blsf2026056003 - 8 Jan 2026
Viewed by 1379
Abstract
Sensory evaluation is essential for analyzing fish quality, as it describes its organoleptic profile and reflects consumer perception. Attributes such as appearance, smell, taste, and texture can vary depending on the origin of the fish, its diet, and thermal processing. In order to [...] Read more.
Sensory evaluation is essential for analyzing fish quality, as it describes its organoleptic profile and reflects consumer perception. Attributes such as appearance, smell, taste, and texture can vary depending on the origin of the fish, its diet, and thermal processing. In order to obtain reproducible results, it is necessary to control factors such as temperature, cooking time, and portion thickness during fish sample preparation for testing. This study develops a standardized guide for the sensory evaluation of cooked fish, particularly Sparus aurata. The guide includes detailed preparation protocols, a structured descriptive method, and a tasting sheet to ensure objective, reproducible evaluations that are applicable in research, industry, training, and quality control. Full article
(This article belongs to the Proceedings of The 6th International Electronic Conference on Foods)
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25 pages, 12788 KB  
Article
The Effect of Fructooligosaccharide and Inulin Addition on the Functional, Mechanical, and Structural Properties of Cooked Japonica Rice
by Bing Dai, Ruijun Chen, Shiyu Chang, Zheng Wei, Xiaohong Luo, Jiangzhang Wu and Xingjun Li
Gels 2026, 12(1), 48; https://doi.org/10.3390/gels12010048 - 1 Jan 2026
Cited by 1 | Viewed by 785
Abstract
To test whether fructooligosaccharide (FOS) and inulin (INU) molecules can improve the hardness of cooked rice through forming a hydrogel network, we added FOS or INU at 0%, 3%, 5%, 7%, and 10% concentrations to two cooking japonica rice and compared the cooking [...] Read more.
To test whether fructooligosaccharide (FOS) and inulin (INU) molecules can improve the hardness of cooked rice through forming a hydrogel network, we added FOS or INU at 0%, 3%, 5%, 7%, and 10% concentrations to two cooking japonica rice and compared the cooking and textural parameters, the pasting, thermal, and thermo-mechanical properties, and the microstructure of the cooked rice. General Linear Model Univariate (GLMU) analysis revealed that, compared with no oligofructose addition, both FOS and INU addition reduced the rice cooking time and increased the gruel solid loss. The addition of these dietary fibers (DFs) to cooking rice lowered the hardness, adhesiveness, springiness, gumminess, and chewiness of the rice, but maintained the cohesiveness and increased the resilience. Compared with no oligofructose addition, FOS and INU addition improved the smell, taste, and total sensory score of cooked rice. The addition of these DFs significantly decreased the trough, peak, final, breakdown, and setback viscosities, but increased the pasting temperature and peak time. Both FOS and INU addition decreased the enthalpy of gelatinization but increased the peak and conclusion temperature of gelatinization of rice flour paste. After the retrograded flour pastes were kept at 4 °C for 21 days, both FOS and INU significantly increased amylopectin aging compared with no oligofructose addition. The FOS-added and INU-added rice doughs had a higher dough development time and stability time, gelatinization peak torque, setback torque, and gelatinization speed, with a lower protein weakening degree, amylase activity, breakdown torque, heating speed, and enzymatic hydrolysis speed. Compared with no oligofructose addition, both FOS and INU addition reduced the amorphous region of starch and β-sheet percentage, but increased the percentages of random coils, α-helixes, and β-turns in cooked rice. Principal component analysis (PCA) further demonstrated that the gruel solid loss, cooked rice hardness, chewiness, gumminess, taste, and the peak, trough, breakdown, final, and setback viscosities were sensitive parameters for evaluating the effects of species and the amount of oligofructose addition on rice quality. The microstructure showed that FOS or INU addition induced thickening of the matrix walls and an increase in the pore size, forming a soft and evenly swollen structure. These results suggest that FOS or INU addition inhibits amylose recrystallization but maintains amylopectin recrystallization in cooked rice, with INU addition producing greater improvements in the texture and sensory scores of cooked rice compared withFOS addition. This study provides evidence of the advantages of adding DFs and probiotics such as INU and FOS to cooked rice. Full article
(This article belongs to the Special Issue Application of Composite Gels in Food Processing and Engineering)
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18 pages, 2095 KB  
Article
Comparative Evaluation of the Texture, Taste, and Flavor of Different Varieties of White Radish: Relationship Between Substance Composition and Quality
by Xinzhu Cai, Wanfu Hou, Li Zhang, Qingbiao Wang, Tianran Liu, Xiaoyan Zhao and Dan Wang
Foods 2026, 15(1), 103; https://doi.org/10.3390/foods15010103 - 29 Dec 2025
Cited by 1 | Viewed by 978
Abstract
A systematic understanding of the overall flavor and taste characteristics across different white radish varieties is still lacking. This study selected six white radish varieties and analyzed their texture, taste, and flavor profiles. The results showed that JYHX had excellent hardness and chewiness, [...] Read more.
A systematic understanding of the overall flavor and taste characteristics across different white radish varieties is still lacking. This study selected six white radish varieties and analyzed their texture, taste, and flavor profiles. The results showed that JYHX had excellent hardness and chewiness, and CKJRM had the highest brittleness. The total sugar content of XY418 was the highest, and the sweetness was the most prominent. The umami and bitterness of CKXY and XY477 contributed significantly. A total of 43 volatile compounds were detected by gas chromatography–mass spectrometry (GC-MS), and CKFM12 had the highest content of sulfur-containing compounds. Dimethyl trisulfide and erucin were the key substances for the characteristic flavor of white radish. In this study, the texture, taste, and flavor characteristics of several white radish varieties and their potential biochemical components (cell wall substances, amino acids, volatile compounds) were comprehensively compared and analyzed for the first time. These findings provide a scientific basis for targeted quality evaluation, flavor improvement, and variety selection based on specific cooking applications and processing needs. Full article
(This article belongs to the Section Food Physics and (Bio)Chemistry)
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19 pages, 1579 KB  
Article
Nutrient Analysis of Raw and Sensory Evaluation of Cooked Red Tilapia Fillets (Oreochromis sp.): A Comparison Between Aquaculture (Red Kenyir™) and Wild Conditions
by Aswir Abd Rashed, Nurliayana Ibrahim, Nurul Izzah Ahmad, Mariam Marip, Mohd Fairulnizal Md Noh and Mohammad Adi Mohammad Fadzil
Fishes 2025, 10(10), 523; https://doi.org/10.3390/fishes10100523 - 14 Oct 2025
Cited by 1 | Viewed by 2751
Abstract
The tilapia sector is advancing due to breakthroughs in aquaculture techniques and genetic enhancements. Comprehending sensory qualities is crucial for producers striving to meet market demands efficiently. As consumer preferences play a significant role in shaping the market, enhancing the sensory attributes of [...] Read more.
The tilapia sector is advancing due to breakthroughs in aquaculture techniques and genetic enhancements. Comprehending sensory qualities is crucial for producers striving to meet market demands efficiently. As consumer preferences play a significant role in shaping the market, enhancing the sensory attributes of both farmed and wild red tilapia will be key to ensuring their success in the competitive aquaculture industry. One of Malaysia’s most prominent aquaculture projects is the Como River Aquaculture Project located in Kenyir Lake, where tilapia fish farming, trademarked as Red Kenyir™, is conducted. Thus, this study aimed to evaluate the nutrient analysis of raw and five sensory attributes (appearance, texture, smell, taste, overall quality) of filets from Red Kenyir™ and wild red tilapia (Oreochromis sp.). Red Kenyir™ were fed three different commercial diets (A, B, and C) from fingerling to adulthood, while wild tilapia (W) was sourced from the market. Proximate and nutritional analyses were conducted based on the standard food analysis protocol by AOAC/AOCS. To the best of our knowledge, this is the first study to comprehensively document the nutrient analysis of raw and consumer sensory perception of cooked Red Kenyir™ aquaculture tilapia in direct comparison with wild red tilapia. The sensory evaluation was conducted using a consumer preference test. Statistical analysis was performed using SPSS. Nutrient analysis showed that Red Kenyir™ tilapia had lower fat (0.25–1.37 g/100 g vs. 4.30 g/100 g) and lower energy (77.38–113.46 kcal/100 g vs. 132.79 kcal/100 g) levels. Protein levels varied across groups (19–26.54 g/100 g vs. 22.95 g/100 g). The tryptophan content of the Red Kenyir™ tilapia samples ranged between 0.13 and 0.23 g/100 g, while the wild tilapia contained 0.19 mg/100 g. Sensory evaluation with 36 panelists revealed no significant differences in appearance, texture, or smell (p > 0.05). However, wild tilapia scored slightly higher in taste (4.14) than Red Kenyir™ (3.54–3.71) for steamed preparation (p < 0.05). In conclusion, these findings suggest that variations in the nutritional composition of Red Kenyir™ do not affect the sensory experience for consumer acceptance, making it a sustainable alternative for customers. Full article
(This article belongs to the Special Issue Seafood Products: Nutrients, Safety, and Sustainability)
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15 pages, 239 KB  
Review
Food Intolerance After Bariatric Surgery: A Narrative Review of Prevalence, Mechanisms, and Dietary Management
by Karolina Brzostek and Iwona Boniecka
Nutrients 2025, 17(19), 3118; https://doi.org/10.3390/nu17193118 - 30 Sep 2025
Cited by 2 | Viewed by 2855
Abstract
Background: Bariatric surgery (BS) is the most effective long-term treatment for severe obesity, but many patients develop food intolerances that either reduce protein and micronutrient intake or shift consumption toward easily tolerated, calorie-dense “safe” foods (e.g., sweets, ice cream, sugar-sweetened beverages, refined-flour snacks), [...] Read more.
Background: Bariatric surgery (BS) is the most effective long-term treatment for severe obesity, but many patients develop food intolerances that either reduce protein and micronutrient intake or shift consumption toward easily tolerated, calorie-dense “safe” foods (e.g., sweets, ice cream, sugar-sweetened beverages, refined-flour snacks), compromising nutrient adequacy and weight-loss maintenance. This narrative review summarizes evidence on the prevalence, mechanisms, and clinical impact of food intolerances after BS, focusing on red meat, dairy, water, cereal, and vegetables, and offers practical nutritional management strategies. Methods: A targeted literature search of PubMed and Cochrane Library from the past 10 years was conducted. Studies were selected based on relevance and quality. Results: Intolerance patterns vary by food type and surgical method. Red meat is the most frequently problematic food, with some patients symptomatic for years despite gradual improvement. Dairy products cause gastrointestinal discomfort in some cases, partly due to lactose intolerance. Cereal products may initially cause swallowing difficulties but are generally well tolerated two years postoperatively. Water intolerance mainly occurs shortly after sleeve gastrectomy (SG), linked to sleeve aperistalsis and edema, resolving within weeks. Cooked vegetables are overall well tolerated across procedures. Mechanisms behind intolerance include mechanical restriction, altered gastric emptying, exaggerated entero-hormonal responses, and new taste aversions. Conclusions: Food intolerances are a common, procedure-specific consequence of BS, requiring systematic assessment and personalized dietary management. Early management—modification of consistency, portion control, and supplementation—can improve product tolerance, prevent nutritional deficiencies, and support sustainable weight loss. However, further prospective studies on the mechanisms of food intolerances are needed. Full article
(This article belongs to the Special Issue Nutrition Guidelines for Bariatric Surgery Patients)
23 pages, 2366 KB  
Article
Assessment of Quality and Environmental Impact of Artisanal Fresh Pasta Fortified with Agri-Food By-Products
by Manazza Ayub, Alessia Le Rose, Olimpia Panza, Dario Caro, Matteo Alessandro Del Nobile and Amalia Conte
Foods 2025, 14(19), 3379; https://doi.org/10.3390/foods14193379 - 29 Sep 2025
Cited by 2 | Viewed by 1400
Abstract
Fresh pasta was enriched with olive pomace (OP) and artichoke by-products (AB), respectively, at three concentrations: 13.5%, 14.5%, and 15% for OP, and 15%, 17%, and 19% for AB. Both control and fortified samples were assessed for technological properties, nutritional content and sensory [...] Read more.
Fresh pasta was enriched with olive pomace (OP) and artichoke by-products (AB), respectively, at three concentrations: 13.5%, 14.5%, and 15% for OP, and 15%, 17%, and 19% for AB. Both control and fortified samples were assessed for technological properties, nutritional content and sensory quality. A Life Cycle Assessment was also performed to estimate the carbon footprint associated with pasta production. Results demonstrated a worsening of pasta quality, above all the resistance to break for row pasta and sandiness and taste for cooked samples, even though the pasta remained in an acceptable range. Fibers, polyphenol content, flavonoids, and antioxidant activity were found to be better in fortified samples than in the control pasta. With AB as new ingredient, the antioxidant activity increased substantially. The environmental impact revealed two different scenarios: compared to the control (1.08 kgCO2eq), lower carbon footprint values were found for pasta fortified with OP (from 0.96 to 0.98 kgCO2eq) and higher values for pasta fortified with AB (from 1.53 to 1.62 kgCO2eq), due to the energy consumption associated with by-product processing (dehydration at 50 °C and grinding). Thus, combining sensory quality, nutritional improvements and environmental impact, a Global Quality Index (GQI) was also calculated for each sample. The GQI values, according to the weighting scheme of this index, revealed that the benefits of AB superimposed the drawbacks and suggested that 15% AB fortification is the best solution to balance pros and cons of by-product recycling. Full article
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