Volume 27, No. 2 (2026)

CURCUMIN: A CRITICAL REVIEW ON ACTION MECHANISMS AND APPLICATION METHODS IN FOOD PRESERVATION

JINGYUAN LI (1), YUE CHEN (2), QILONG WEN (3), HAOEN HAN (4), RUHAN DAI (5), GUOLIANG WANG (2*)

Food preservative additives, whether synthetic or naturally derived, work by slowing down the deterioration of food caused by microbial growth, enzyme activity, and oxidation. As a green and natural food preservative, curcumin is low-toxic and biocompatible at the concentrations typically employed for food preservation, with potential in functional foods via multiple mechanisms. However, despite extensive research, critical gaps remain in understanding the precise molecular mechanisms underlying its preservative effects, and its practical application continues to be limited by poor stability and low water solubility. This review provides a critical synthesis of current knowledge on curcumin’s mechanisms and application strategies in food preservation, moving beyond descriptive summaries to evaluate evidence strength, identify methodological limitations, and highlight contradictory findings. Specifically, we critically examine the relationship between curcumin’s molecular structure and biological functions, assess delivery systems’ efficacy in overcoming its addressing limitations, and propose a future research framework integrating mechanistic investigation with application-oriented development.

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PHYSICOCHEMICAL, OXIDATIVE, AND SENSORY PROPERTIES OF BAKED PORK MEATBALLS FORMULATED WITH CRICKET POWDER AND SPIRULINA AS ALTERNATIVE PROTEINS

MARIA M. MOMCHILOVA (1*), DILYANA N. GRADINARSKA-IVANOVA (2), PETYA B. BOYANOVA (3), KATYA I. VALKOVA-YORGOVA (2)

This study examined the effects of replacing soy protein with cricket powder and spirulina on the compositional, technological, oxidative, and sensory properties of baked pork meatballs. Seven formulations were prepared with varying proportions and combinations of protein sources: soy protein, spirulina, and cricket powder. The inclusion of these alternative proteins significantly influenced the proximate composition, color, emulsion stability, and texture of the products (P < 0.05). Samples containing cricket powder exhibited higher protein and lipid contents but lower moisture and cooking yield, indicating stronger protein denaturation and reduced water-holding capacity during heat treatment. The addition of spirulina improved the nutritional profile through increased mineral and fiber content and enhanced oxidative stability due to its phycocyanin and carotenoid pigments. The combined use of spirulina and cricket powder increased protein content and textural firmness while maintaining satisfactory emulsion stability. The lowest thiobarbituric acid reactive substances (TBARS) values (0.31 - 0.41 mg MDA·kg-1) and the highest DPPH activity (up to 144 μmol TE/100 g) were recorded in cricket-enriched samples. Sensory evaluation confirmed good overall acceptability, although spirulina inclusion affected color perception. The findings demonstrate the functional potential of cricket powder and spirulina as sustainable protein ingredients that can partially substitute soy protein in thermally processed meat products.

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BIOCHEMICAL COMPOSITION, ANTIOXIDANT ACTIVITY AND LEAVENING POTENTIAL OF SACCHAROMYCES CEREVISIAE STRAINS ISOLATED FROM REGIONAL SOURDOUGHS

OLEG CHISELIȚA (1*), NATALIA CHISELIȚA (1), NADEJDA EFREMOVA (1), ELENA TOFAN (1), ANA ROZLOVAN (1), EVELINA ȚÎBÎRNAC (1), PAVEL MAGAZ (1, 2)

This study investigated the biotechnological potential of eleven Saccharomyces cerevisiae strains (1P–11P) isolated from artisanal and commercial sourdoughs originating from the Republic of Moldova, Romania, and Ukraine. The strains were cultivated under laboratory conditions on YPD medium, and several physiological, biochemical, and technological parameters were evaluated, including biomass production, protein and carbohydrate content, antioxidant activity, enzymatic activity, and dough leavening performance. The obtained results demonstrated significant differences among the strains (p ≤ 0.05). Biomass production ranged from 2.73 to 6.53 g·L-1, with the highest value recorded for strain 6P. Protein content varied between 41.02% and 57.92% dry weight, with strains 2P and 4P showing the highest levels. The strongest total antioxidant activity was observed in strains 1P and 2P. Superoxide dismutase activity reached its maximum in strains 3P and 4P, while catalase activity was highest in strain 9P, isolated from commercial sourdough. Regarding technological performance, strains 9P and 10P exhibited superior dough leavening ability, characterized by rapid fermentation and efficient CO₂ retention within 90–120 minutes. Overall, artisanal sourdough isolates demonstrated better performance than commercial strains in most evaluated parameters, highlighting their potential for sustainable applications in baking and microbial biotechnology.

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INFLUENCE OF THE ADDITION OF WAXY WHEAT FLOUR ON THE BEHAVIOR OF BAKERY YEAST IN FROZEN MINIBAGUETTE DOUGH

IOANA ISACHE, ANCUȚA CHETRARIU, ADRIANA DABIJA (*)

The present study investigates the influence of partial substitution of wheat flour with waxy wheat flour (10 %, 15 %, and 20 %) on the behavior of baker's yeast and on the final quality of mini baguettes obtained from frozen dough, stored for up to 56 days. Yeast activity was evaluated after 60 and 120 minutes of fermentation, being correlated with the specific volume, textural properties, and overall acceptability of the finished products. The samples with the addition of waxy wheat flour showed a better-preserved fermentative activity, especially at the substitution levels of 15 % and 20 %, both at 60 and 120 minutes. This higher yeast activity was directly reflected in higher specific volume values, indicating a better gas retention capacity in the dough. Textural analysis revealed an increase in hardness and gumminess during storage, along with a decrease in cohesiveness and resilience, but these changes were attenuated in the case of samples with waxy flour. Also, samples with higher yeast activity presented a more aerated and less dense texture, an aspect reflected in higher overall acceptability scores. In conclusion, the use of waxy wheat flour contributes to maintaining yeast activity in frozen dough, positively influencing the specific volume, texture, and sensory acceptability of mini baguettes. The results support the potential of this raw material in optimizing the quality of frozen bakery products.

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THE ROLE OF EMOTIONAL INTELLIGENCE SUSTAINABILITY IN SHAPING PERCEPTIONS OF NUTRITIONAL EDUCATION

ANIȘOARA V. SANDOVICI (1*), GABRIELA M. RAVEICA (1), ALINA R. ABABEI (2), ADINA-CAMELIA I. ȘLICARU (1), IONEL CRINEL D. RAVEICA (3), CONSTANTIN D. NECHIFOR (4), RADU I. ABABEI (1)

Nutritional education is not just about ‘what not to eat’, but about understanding how the fuel we put into our bodies influences our energy, mood, and longevity. In a world full of ultra-processed foods, knowing how to read a label and balance nutrients is a modern survival skill. With regard to the association between emotional intelligence and nutritional education, we started from the premise that emotional intelligence mediates the way subjects perceive the necessity of this new form of education today. The study explored a possible connection between the emotional intelligence level and the association of the occupational therapy profession with terms targeting the emotional-empathic dimension of personality, and the tendency to associate the profession of occupational therapist with the emotional-empathic dimensions of personality. Even more, it examined if the emotional intelligence level mediates the way in which the social perception of nutritional education is structured.

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THE ROLE OF CAROTENOIDS IN AVIAN NUTRITION: IMPACT ON MEAT QUALITY AND COLOR

IRINA UNGUREANU, ALEXANDRU USTUROI*, ROXANA NICOLETA RAȚU, RĂZVAN-MIHAIL RADU-RUSU AND MARIUS-GIORGI USTUROI

Carotenoids are natural pigments found in various plant sources that not only give color to food, but also possess antioxidant properties and nutritional benefits. This paper analyzes the natural sources of carotenoids and their effect on the color of chicken, in the context of the importance of this sensory attribute in consumer perception. Carotenoids are absorbed in the small intestine and transported throughout the body, where they are stored in adipose tissue and skin. They integrate into the lipid matrix of muscle tissue, thus influencing the color of the meat and, at the same time, improving the immune response due to their role as precursors of vitamin A. Diets high in carotenoids can also affect the composition of meat fats, contributing to a more balanced nutritional profile. Interest in the use of carotenoids as feed ingredients has increased significantly due to their bioactive properties and beneficial effects on health. Currently, a wide range of products are available on the market, offered in the form of additives, supplements or food colorings

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TRANSFORMING WINDOWS GLASS WASTE INTO FUNCTIONAL AGGREGATES FOR SUSTAINABLE COMPOSITE PRODUCTION

MIHAELA FANACHE (VASILIU) (1), LĂCRĂMIOARA RUSU (2*), LEONID VASILIU (3), LILIANA LAZĂR (4), MARIA HARJA (4*)

The use of glass waste in construction materials has gained increasing attention, particularly for window glass from insulating and simple glazing systems. This study investigates the feasibility of using such waste as aggregate in concrete, focusing on its effects on density, consistency, and mechanical properties. Waste glass was used as partial replacement of natural aggregates (up to 10 %), in both fine and coarse fractions. Results indicate a moderate decrease in compressive strength (from 29 - 30 MPa to 26 MPa), while maintaining values above 20 MPa, which are acceptable for structural applications. The particle size plays a key role, with the 0 - 2 mm fraction contributing to improved matrix densification and better performance. Overall, the findings demonstrate that insulating window glass waste can be successfully valorized as a sustainable alternative aggregate in concrete production, with limited impact on mechanical properties.

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ANTIOXIDANT, ANTIHYPERTENSIVE AND CELL REGULATION ACTIVITY OF BIOACTIVE PEPTIDES FROM GOAT COLOSTRUM FERMENTED WITH MIXED KEFIR CONSORTIA FOR HEALTH BENEFITS

TEODORA C. CIUCAN (1, 2), OANA CRACIUNESCU (2*), ANDREEA PLANGU (2), ELENA MIHAI (2), FLORENTINA MATEI (1, 3)

The aim of this work was to investigate the effect of goat colostrum fermentation on the isolation of bioactive peptides and their biochemical and biological properties. In this respect, goat colostrum was fermented using kefir and mixed microbial consortia, followed by centrifugal ultrafiltration to obtain peptide fractions with the molecular weight (MW) less than 3 kDa. The results showed that fermentation increased the soluble protein content up to 2.7-fold, compared to unfermented colostrum. Electrophoretic analysis confirmed casein degradation and enrichment in low MW peptides. The peptide fractions exhibited enhanced antioxidant activity and significant angiotensin-converting enzyme (ACE) inhibitory activity. In vitro cytocompatibility testing showed stimulation of L929 fibroblasts metabolic activity. These findings supported mixed microbial fermentation as a promising approach for obtaining bioactive peptides of interest in functional food development.

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ASSESSING GEOLOGICAL VERSUS PURPOSE-BUILT STORAGE SOLUTIONS FOR SAFE RADIOACTIVE WASTE MANAGEMENT

RĂZVAN BOGDAN ITU, ALEXANDRA ȘOICA*, ILIE IUCAL, BOGDAN IOAN MARC

This paper compares two methods for radioactive waste management: geological disposal and purpose-built storage. Geological disposal relies on natural geological formations for long-term isolation but faces challenges such as irretrievability and geological stability. In contrast, purpose-built storage offers flexibility, enhanced monitoring, and the ability to adapt to different waste types, though it requires continuous maintenance and presents higher operational risks. A comprehensive risk analysis and modeling help determine the optimal solution, balancing environmental safety and practical feasibility. The study highlights the importance of technological advancements and continuous monitoring to ensure safe management for future generations.

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RESEARCH ON THE MANAGEMENT OF QUANTITATIVE AND QUALITATIVE PRODUCTION PERFORMANCE IN TWO ROMANIAN CATTLE BREEDS IN THE EASTERN REGION OF ROMANIA

ALIN A. AFLOROAEI*, GABRIEL I. BARBUTA, VASILE MACIUC

The objective of this study was to conduct a detailed comparative analysis of the principal milk quality parameters in the Romanian Black-Spotted (RBS, Bălţată cu Negru Românească) and Maramureș Brown (MB, Brună de Maramureș) cattle breeds, reared under a semi-intensive production system. Statistical analysis of the primary data was performed using the SPSS 16.0 for Windows software package, ensuring a high level of accuracy and reliability of the results. In the RBS breed, milk yield reached an average of 7,530.25 kg, representing an increase of 20.3 % compared to the production recorded in the MB breed. From a qualitative perspective, however, milk produced by the MB breed demonstrated superior characteristics, with a fat content of 3.99 % and a protein content of 3.49 %, highlighting the breed’s notable genetic potential for milk quality. These findings underscore the importance of maintaining genetic selection for milk quality as a central objective of animal improvement programs, through the implementation of breed-specific selection strategies.

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