Food Safety
Shagayegh Moradi; Leila Manafi; Zohre Ahmadi; Maryam Imani; Razzagh Mahmoudi
Abstract
Food additives, such as sweeteners and food colorants, play an important role in the food supply. But despite their widespread use in food, there are always concerns about their side effects on consumer health, and their excessive use can lead to adverse effects. This study aims to provide a brief overview ...
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Food additives, such as sweeteners and food colorants, play an important role in the food supply. But despite their widespread use in food, there are always concerns about their side effects on consumer health, and their excessive use can lead to adverse effects. This study aims to provide a brief overview of the beneficial and harmful effects of some sweeteners and food colorants on human health. For this purpose, studies conducted on these food additives from 2001 to 2025 were reviewed. Related articles were collected by using the keywords "food additives, sweeteners, colorants, and health effects." From scientific databases such as Pubmed, Science Direct, Elsevier, SID, etc. The results of studies have shown that artificial sweeteners and colorants, despite their widespread use in industry, can compromise food safety and lead to side effects such as gastrointestinal disorders, allergies, and even cancer in consumers. On the other hand, with the increase in consumer awareness, the demand for natural additives has increased. Therefore, dyes and artificial sweeteners should be limited, and their natural types should be used instead.
Food Packaging
Houshmand Sharafi; Fahimeh Ebrahimi Tirtashi
Abstract
Postbiotics are metabolites derived from probiotics and other beneficial microorganisms that due to containing organic acids, bacteriocins, and bioactive peptides possess antimicrobial and antioxidant properties. In recent years, the use of postbiotics as a functional agent for food packaging systems ...
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Postbiotics are metabolites derived from probiotics and other beneficial microorganisms that due to containing organic acids, bacteriocins, and bioactive peptides possess antimicrobial and antioxidant properties. In recent years, the use of postbiotics as a functional agent for food packaging systems has increased in popularity among researchers. However, although the postbiotics-packaging system has increased gradually, there are some obstacles that challenge it such as the safety and stability of novel beneficial microorganisms like mold as a next generation of postbiotics sources, parameters optimization of preparation and treatments of postbiotics, safety and performance of postbiotic carrier polymer and the sensorial effect of postbiotics on packaged foods. In addition, to ensure the consumption of packaged food with postbiotic-containing polymers, its safety needs to be thoroughly investigated, as research has shown that the postbiotic administration can have negative effects such as gastrointestinal complications, and allergies on the consumer body's health. Finally, for the entry of postbiotics as functional compounds into the food packaging market, the collaboration between academia and industry, clear labeling of packaged food and increasing consumer awareness about postbiotics are essential. Therefore, this study aims to briefly overview of the current status and future directions of postbiotics in food packaging.
Food Safety
Riziki Salehe Msangi; Abdulsudi-Issa Zacharia; Lucy Mlipano Chove
Abstract
Aflatoxin contamination poses a significant threat to agricultural systems and public health, particularly in regions such as Dodoma, where favorable climatic conditions promote the growth of aflatoxin-producing fungi. Various interventions were initiated to address the problem of aflatoxin contamination ...
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Aflatoxin contamination poses a significant threat to agricultural systems and public health, particularly in regions such as Dodoma, where favorable climatic conditions promote the growth of aflatoxin-producing fungi. Various interventions were initiated to address the problem of aflatoxin contamination among maize farmers in Dodoma. This study aimed to assess maize farmers' knowledge, attitudes, and practices (KAP) following intervention programs designed to mitigate aflatoxin contamination in Chamwino district, Dodoma. A cross-sectional survey was conducted in five wards of Chamwino District: Chilonwa, Msanga, Chamwino, Majeleko, and Buigiri. A semi-structured questionnaire was administered to 300 maize farmers to assess their KAP related to aflatoxin contamination. Data were analyzed using SPSS version 26, with significance set at p ≤ 0.05. Among 300 farmers surveyed, 221 (73.7%) demonstrated awareness of aflatoxin-related interventions, whereas 79 (26.3%) did not exhibit such awareness. Of the 221 informed farmers, 123 (55.7%) demonstrated good knowledge, 51 (23.1%) exhibited medium knowledge, and 47 (21.3%) displayed poor knowledge regarding aflatoxin contamination and its mitigation. Of the participants, 186 (84.2%) exhibited positive attitudes, 34 (15.4%) displayed medium attitudes, and only 1 (0.5%) demonstrated poor attitudes. Of the participants, 157 (71.0%) exhibited good practices, while 64 (29.0%) were categorized as having medium-level practices. No farmers demonstrated poor practices regarding aflatoxin contamination and mitigation. The interventions effectively enhanced awareness, knowledge, attitudes, and practices regarding aflatoxin mitigation among maize farmers in Chamwino District. Future interventions should strengthen collaboration between government agencies, Non-Government Organizations, farmer groups, and local communities to sustain and expand these gains.
Food Safety
Mkumbukwa H Nyomolelo; Rashid Suleiman; V.C.K Silayo; Mariam Mtunguja
Abstract
In Tanzania, tomatoes (Solanum lycopersicum) are widely cultivated and consumed, yet substantial postharvest losses occur due to their high perishability. Drying is a promising method to extend shelf life and add value to tomato products. This study evaluated the physicochemical, nutritional, microbiological, ...
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In Tanzania, tomatoes (Solanum lycopersicum) are widely cultivated and consumed, yet substantial postharvest losses occur due to their high perishability. Drying is a promising method to extend shelf life and add value to tomato products. This study evaluated the physicochemical, nutritional, microbiological, and sensory qualities of tomato soup powders produced using solar tunnel and electric dryers, stored in paper and plastic packaging at room temperature for five months. Two soup formulations were prepared using blends of dried tomato, garlic, onion, ginger, turmeric, cinnamon, monosodium glutamate, and cornstarch, differing in ingredient ratios. The pH, titratable acidity, total soluble solids, lycopene, β-carotene, vitamin C, and yeast and mold counts were measured to assess the effects of drying techniques, packaging materials, and storage duration. Results showed that drying method and packaging significantly influenced nutrient retention and microbial stability (p < 0.05). Soups dried with an electric dryer and packed in polyethylene retained higher nutrients, with lycopene decreasing from 17.35 to 13.12 mg/100 g, β-carotene from 5.20 to 3.85 mg/100 g, and vitamin C from 42.30 to 28.10 mg/100 g over five months. Microbial counts in polyethylene-packed samples remained below 10³ CFU/g after four months but exceeded limits in paper-packed samples. Sensory evaluation indicated both products were acceptable, with a slight preference for electric-dried soups. Overall, combining electric drying with polyethylene packaging effectively preserved the nutritional quality, microbial safety, and sensory acceptability of tomato soup powders for up to four months, offering a practical approach to reducing tomato postharvest losses.
Food Packaging
Negar Nikfarjam; Roghayieh Razavi; Mehran Moradi; Rahim Molaei
Abstract
Despite the relatively short history of the discovery of carbon dots (C-dots) and the development of their applications, methods for producing nanodots based on green chemistry have consistently attracted the attention of scientists. In this study, green C-dots were synthesized from onion juice using ...
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Despite the relatively short history of the discovery of carbon dots (C-dots) and the development of their applications, methods for producing nanodots based on green chemistry have consistently attracted the attention of scientists. In this study, green C-dots were synthesized from onion juice using a simple hydrothermal method (200°C, 4 hours), and their optical properties, particle size distribution, and morphology were subsequently evaluated. The antibacterial activity of C-dots was assessed against pathogenic bacteria Escherichia coli (Gram-negative) and Listeria monocytogenes (Gram-positive), with minimum inhibitory concentrations of 8 mg mL-1 and 4 mg mL-1, respectively. Furthermore, the synthesized C-dots were incorporated into nanocellulose using an ex-situ method to produce modified bacterial nanocellulose (BNC) films with both antimicrobial and ultraviolet (UV) protective properties. The carbon dot-embedded nanocellulose demonstrated enhanced UV-blocking capabilities and greater inhibitory activity against Gram-positive bacteria compared to Gram-negative bacteria, highlighting its potential as a promising nano-biomaterial for food packaging applications.