Assessing blockchain and IoT technologies for agricultural food supply chains in Africa: A feasibility analysis.

This review paper delves into the global agricultural food supply chains through the lens of African perspectives, examining the role of blockchain and Internet of Things (IoT) technologies in transforming food traceability. It assesses the applicability and efficacy of these innovations in addressing critical issues such as food fraud, contamination, and systemic inefficiencies from an African viewpoint. By engaging in an in-depth analysis of relevant studies, this work dissects the technical, economic, legal, and operational facets of employing blockchain and IoT in the agri-food sector. The findings illuminate the transformative potential these technologies hold for enhancing food safety and transparency across supply chains. However, the review also brings to light significant hurdles related to scalability, cost-effectiveness, and regulatory frameworks that must be surmounted. Advocating for a context-sensitive application of blockchain and IoT, the paper highlights the importance of adapting these technologies to fit the diverse socio-economic and infrastructural realities prevalent in African countries. Offering valuable insights to stakeholders in agricultural technology and food safety, this comprehensive review outlines a roadmap for future research and strategic implementation efforts aimed at leveraging blockchain and IoT for the development of secure, sustainable food systems.

Beyond the food on your plate: Investigating sources of microplastic contamination in home kitchens.

Given that a substantial amount of time is spent in kitchens preparing food, the kitchen equipment used may be relevant in determining the composition and amount of microplastics ending up on our dinner plate. While previous research has predominantly focused on foodstuffs as a source of microplastics, we emphasise that micro- and nanoplastics are ubiquitous and likely originate from diverse sources. To address the existing knowledge gap regarding additional sources contributing to microplastics on our dinner plates, this review investigates various kitchen processes, utensils and equipment (excluding single-use items and foodstuffs) to get a better understanding of potential microplastic sources within a home kitchen. Conducting a narrative literature review using terms related to kitchenware and kitchen-affiliated equipment and processes, this study underscores that the selection of preparation tools, storage, serving, cooking, and cleaning procedures in our kitchens may have a significant impact on microplastic exposure. Mechanical, physical, and chemical processes occurring during food preparation contribute to the release of microplastic particles, challenging the assumption that exposure to microplastics in food is solely tied to food products or packaging. This review highlights diverse sources of microplastics in home kitchens, posing concerns for food safety and human health.

Assessment of the potential risks in SD rats gavaged with genetically modified yeast containing the cp4-epsps gene.

Introduction: Despite the absence of definitive evidence indicating that the cp4-epsps gene and its resultant recombinant proteins have significant harmful effects on either human or animal health, the safety assessment of genetically modified (GM) crops expressing the CP4-EPSPS proteins has been controversial. This study endeavor was aimed at evaluating the potential risks posed by the CP4-EPSPS protein in transgenic crops, thereby contributing to the advancement of risk assessment methodologies in the context of genetically engineered crops. Methods: To ascertain the appropriate daily dosages for oral gavage administration, the expression levels of the CP4-EPSPS protein in a recombinant yeast were quantified. Subsequently, physiological and biochemical analysis, metabolomics, and metagenomic analysis were conducted based on a 90-day Sprague-Dawley (SD) rats feeding experiment, respectively, thereby enhancing the depth and precision of our risk assessment framework. Results: The results from the physiological and biochemical analysis, organ pathological, blood metabolism, gut microbiota, and correlation analysis of metabolites and gut microbiota revealed several biomarkers for further risk assessment. These biomarkers include clinical biochemical indexes such as total bilirubin (TBIL), direct bilirubin (DBIL), creatine kinase (CK), and lactate dehydrogenase (LDH); metabolites like Methionine, 2-Oxovaleric acid, and LysoPC (16:0); and gut microbiota including Blautia wexlerae, Holdemanella biformis, Dorea sp. CAG 317, Coriobacteriaceae and Erysipelotrichaceae. Conclusion: In conclusion, the risk can be significantly reduced by directly consuming inactivated recombinant CP4-EPSPS. Therefore, in everyday life, the risk associated with consuming GM foods containing recombinant CP4-EPSPS is substantially reduced after heat treatment.

Systematic review of knowledge, attitudes, and practices of dairy farmers and consumers towards bovine tuberculosis in low- and middle-income countries.

Bovine Tuberculosis (bTB), caused by Mycobacterium bovis, is a neglected zoonotic disease primarily associated with cattle. The incidence of bTB is highest in low-income settings with high cattle density and unpasteurised dairy consumption. Smallholder dairy farming has steadily grown in low- and middle-income countries (LMICs) with limited professional support for adequate bTB surveillance and risk mitigation. Several studies have explored the knowledge, attitudes, and practices (KAP) of milk value chain stakeholders towards bTB in LMICs, but this evidence has not been collated and synthesised. We conducted a systematic review to determine what is known, believed, and done in relation to bTB among dairy producers and consumers in LMICs. We performed a systematic search of studies in OVID Medline, Scopus and CABI on 11 September 2023. KAP data were summarised using narrative synthesis and forest plots. We retrieved 2763 articles, retaining 51 for the review. Only studies from Africa (n = 38) and Asia (n = 13) met the eligibility criteria. Most populations reported awareness of human tuberculosis and knew it could be treated, but there was limited awareness of bTB and its zoonotic potential. Knowledge of bTB transmission routes and bTB mitigation varied across populations, and risky practices were also variable. Inconsistencies in study design and survey tools suggest some results may have a mid- to high-risk of bias. Awareness of bTB is surprisingly low among African and Asian populations with high bTB exposure risk, possibly due to the long-standing divide between animal and human health messages that has obscured the One Health implications of bTB. Addressing bTB in LMICs requires a structural One Health approach and standard KAP survey tools to adequately explore the socio-cultural, political, and economic processes and drivers favouring bTB spread and persistence.

Estimation of withdrawal interval recommendations following administration of fenbendazole medicated feed to ring-necked pheasants (Phasianus colchicus).

Introduction: Prescribing fenbendazole medicated feed for pheasants in the USA is considered extra-label drug use under CPG Sec 615.115, and a safe estimated withdrawal interval (WDI) must be applied following administration to this minor food-producing species. This study sought to determine the pharmacokinetic and residue depletion profile for fenbendazole and its major metabolites to estimate a WDI for pheasants following fenbendazole administration as an oral medicated feed. Method: Pheasants (n = 32) were administered fenbendazole as an oral medicated feed (100 ppm) for 7 days. Fenbendazole, fenbendazole sulfoxide, and fenbendazole sulfone (FBZ-SO2) in liver and muscle samples were analyzed using HPLC-UV. Tissue WDIs were estimated using FDA, European Medicines Agency (EMA), and half-life multiplication methods for US poultry tolerances, EMA maximum residue limits, and the analytical limit of detection (LOD; 0.004 ppm). Terminal tissue elimination half-lives (T1/2) were estimated by non-compartmental analysis using a naïve pooled data approach. Results: The tissue T1/2 was 14.4 h for liver, 13.2 h for thigh muscle, and 14.1 h for pectoral muscle. The maximum estimated withdrawal interval was 153 h (7 days) for FBZ-SO2 in pectoral muscle using the FDA tolerance method (95% confidence interval for the 99th percentile of the population), and the LOD as the residue limit. Discussion: The results from this study support the use of FBZ-SO2 as the marker residue in the liver of pheasants and the provision of evidence based WDIs following the extra-label administration of fenbendazole medicated feed (100 ppm) for 7 days.

Multi-deformable interpenetrating network thermosensitive hydrogel fluorescent device for real-time and visual detection of nitrite.

Functionalized thermosensitive hydrogel materials exhibit excellent properties for the fabrication of sensing devices that enable real-time visual detection of food safety duo to their good plasticity and powerful loading capacity. Here, a ratiometric fluorescent device based on an interpenetrating network (IPN) thermosensitive hydrogel was designed to embed functionalized Au nanoclusters (Au NCs) and Blue Carbon dots (BCDs) composites in a multi-network structure to build a sensitive hazardous material nitrite (NO2-) chemsensor. The hydrogel was utilized poloxamer 407 (P407), lignin and cellulose to form stable IPN structure, which resulted in complementation and synergy, thereby strengthening its porous network structure. The combination of fluorescent nanoprobes with the porous network structure has the potential to enhance stable fluorescence signals and improve sensing sensitivity. Moreover, the thermosensitive liquid-solid transition characteristics of the hydrogel facilitate its preparation into diverse sensing devices following curing at room temperature. The hydrogel device, when combined with a smartphone system, converted image information into data information, thereby enabling the accurate quantification of NO2- with a detection limit of 9.38 nM in 2 s. The designed multi-functional hydrogel device is capable of real-time differentiation of NO2- dosage with the naked eye, offering a high-contrast, rapid-response sensing methodology for visual assessment of food freshness. This research contributes to the expansion of hydrogel materials applications and the detection of hazardous materials in food safety.

Fabrication of smart nanogel based on carrageenan and green coffee extract as a long-term antifouling agent to improve biofilm prevention in food production.

This study investigates the extract of the bioactive compounds from green coffee extract (GCE) and the loading of two different concentrations of GCE (1% and 2%) onto carrageenan nanogels (CAR NGs) to compare their antibacterial and antibiofilm effects with unloaded nanogels (NGs). The bioactive compounds of GCE were characterized using GC-MS analysis. The GCE1 and GCE2 were successfully deposited onto the surface of CAR NGs. The antibacterial and antibiofilm potential of prepared NGs were conducted against some foodborne pathogens (E. coli O157, Salmonella enterica, Staphylococcus aureus, and Listeria monocytogenes). The results of GC-MS analysis indicated that there were identified 16 bioactive compounds in GCE, including caffeine (36.27%), Dodemorph (9.04%), and D-Glycero-d-ido-heptose (2.44%), contributing to its antimicrobial properties. The antibacterial coatings demonstrated a notable antimicrobial effect, showing zone of inhibition (ZOI) diameters of up to 37 mm for GCE2 loaded CAR NGs. The minimum inhibitory concentration (MIC) values for GCE2 loaded CAR NGs were 80 ppm for E. coli O157, and 120 ppm for S. enterica, S. aureus, and L. monocytogenes, achieving complete bacterial inactivation within 10-15 min of exposure. Both GCE1 and GCE2 loaded CAR NGs significantly reduced biofilm cell densities on stainless steel (SS) materials for E. coli O157, S. enterica, S. aureus, and L. monocytogenes, with reductions ranging from 60% to 95%. Specifically, biofilm densities were reduced by up to 95% for E. coli O157, 89% for S. enterica, 85% for S. aureus, and 80% for L. monocytogenes. Results of the toxicity evaluation indicated that the NGs were non-toxic and biocompatible, with predicted EC50 values proved their biocompatibility and safety. These results recommended that GCE loaded CAR NGs are promising as natural antimicrobial agents for enhancing food safety and extending shelf life. Further, the study concluded that incorporating GCE into CAR NGs is an effective strategy for developing sustainable antimicrobial coatings for the food industry and manufacturing.

Effects of Organic Soil Amendments on Antimicrobial-Resistant Bacteria in Urban Agriculture Environments.

Biological soil amendments of animal origin (BSAAOs) are widely used in urban agriculture to improve soil quality. Although BSAAO use is regulated due to risks for introducing foodborne pathogens, effects on antimicrobial-resistant (AMR) bacteria are not well established. Here, we aimed to explore impacts of BSAAOs on levels of resident AMR bacteria in leafy vegetable production environments (i.e., kale, lettuce, chard, cabbage) across urban farms and community gardens in the greater Washington D.C. area (n=7 sites). Leaf tissue (LT), root zone soil (RZS; amended soil in crop beds), and bulk soil (BS; site perimeter) were collected and analyzed for concentrations of total heterotrophic bacteria (THB), ampicillin (Amp) or tetracycline (Tet) resistant THB, and coliforms. As expected, amended plots harbored significantly higher concentrations of THB than bulk soil (P<0.001). The increases in total bacteria associated with reduced fractions of Tet-resistant bacteria (P=0.008), as well as case-specific trends for reduced fractions of Amp-resistant bacteria and coliforms. Site-to-site variation in concentrations of AMR bacteria in soil and vegetable samples reflected differences in land history and crop management, while within-site variation associated with specific amendment sources, as well as vegetable type and cultivar. Representative isolates of the AMR bacteria and coliforms were further screened for multi-drug resistance (MDR) phenotypes, and a high frequency was observed for the former. In amended soils, as the soil pH (range 6.56-7.80) positively correlated with the fraction of Tet-resistant bacteria (rho=0.529; P<0.001), crop management strategies targeting pH may have applications to control related risks. Overall, our findings demonstrate that soil amendments promote soil bacteria concentrations and have important implications for limiting the spread of AMR bacteria, at least in the urban landscape.

Evaluation of two real-time PCR methods to detect Yersinia enterocolitica in bivalve molluscs collected in Campania region.

Yersinia enterocolitica (Ye) is a foodborne pathogen isolated from humans, food, animals, and the environment. Yersiniosis is the third most frequently reported foodborne zoonosis in the European Union. Ye species are divided into six biotypes 1A, 1B, 2, 3, 4, and 5, based on biochemical reactions and about 70 serotypes. Biotype 1A is non-pathogenic, 1B is highly pathogenic, and biotypes 2-5 have moderate or low pathogenicity. The reference analysis method for detecting pathogenic Ye species underestimates the presence of the pathogen due to similarities between Yersinia enterocolitica-like species and other Yersiniaceae and/or Enterobacteriaceae, low concentrations of distribution pathogenic strains and the heterogeneity of Yersinia enterocolitica species. In this study, the real-time PCR method ISO/TS 18867 to identify pathogenic biovars of Ye in bivalve molluscs was validated. The sensitivity, specificity and accuracy of the molecular method were evaluated using molluscs experimentally contaminated. The results fully agree with those obtained with the ISO 10273 method. Finally, we evaluated the presence of Ye in seventy commercial samples of bivalve molluscs collected in the Gulf of Naples using ISO/TS 18867. Only one sample tested resulted positive for the ail gene, which is considered the target gene for detection of pathogenic Ye according to ISO/TS 18867. Additionally, the presence of the ystB gene, used as target for Ye biotype 1A, was assessed in all samples using a real-time PCR SYBR Green platform. The results showed amplification ystB gene aim two samples.

Systematic risk ranking of microbiological hazards in infant foods.

Ensuring food safety, particularly for vulnerable groups, like infants and young children, requires identifying and prioritizing potential hazards in food chains. We previously developed a web-based decision support system (DSS) to identify specific microbiological hazards (MHs) in infant and toddler foods through a structured five-step process. This study takes the framework further by introducing systematic risk ranking (RR) steps to rank MH risks with seven criteria: process survival, recontamination, growth opportunity, meal preparation, hazard-food association evidence, food consumption habits of infants and toddlers in the EU, and MH severity. Each criterion is given a semi-quantitative or quantitative score or risk value, contributing to the final MH risk calculation via three aggregation methods: semi-quantitative risk scoring, semi-quantitative risk value, and outranking multi-criteria decision analysis (MCDA). To validate the criteria and ranking approaches, we conducted a case study to rank MH risks in infant formula, compared the results of the three risk ranking methods, and additionally evaluated the ranking results against expert opinions to ensure their accuracy. The results showed strong agreement among the three methods, consistently ranking Salmonella non-Typhi and Cronobacter spp. and Shiga-toxin-producing Escherichia coli as the top MH risks in infant formulae, with minor deviations. When MHs were ranked after an initial hazard identification step, all three methods produced nearly identical MH rankings, reinforcing the reliability of the ranking steps and the selected criteria. Notably, the risk value and MCDA methods provided more informative MH rankings compared to the risk scoring method. The risk value and risk scoring methods were implemented into an online tool, called the MIcrobiological hazards risk RAnking decision support system (Mira-DSS), available at https://foodmicrobiologywur.shinyapps.io/MIcrobial_hazards_RAnking/. In conclusion, our framework enables the ranking of MH risks, facilitating intervention comparisons and resource allocations to mitigate MH risks in infant foods, with potential applicability to broader food categories.

Functional black phosphorus-based sensors for food safety applications: A review.

Food safety has garnered global attention, necessitating advanced methods for the quick and accurate detection of contaminants. Sensors, notable for their ease of use, high sensitivity, and fast analysis, are prominent. Two-dimensional (2D) nanomaterials have been employed to improve sensor performance. Particularly, black phosphorus (BP) stands out with its multifunctional capabilities, attributed to unique layered structure, ultra-high charge mobility, easy surface functionalization, enhanced optical absorption, and tunable direct bandgap. These characteristics suggest that BP could significantly enhance sensor selectivity, sensitivity, and response speed for contaminant detection. Despite numerous studies on BP-based sensors in food safety, few reviews have been comprehensively summarized. Moreover, challenges in BP's preparation and stability restrict its wider use. This paper reviews recent research on BP's role in food safety, covering preparation, passivation, and applications. Through analysis of challenges and prospects, this review aims to provide insightful guidance for upcoming research in this area.

Distribution and safety evaluation of deoxynivalenol and its derivatives throughout the wheat product processing chain.

The distribution of deoxynivalenol (DON) and its derivatives 3-acetyldeoxynivalenol (3-Ac-DON) and 15-acetyldeoxynivalenol (15-Ac-DON) throughout the wheat processing chain were systemically evaluated by one-to-one corresponding studies of the whole processing chain. DON and its derivatives were determined by liquid chromatography-mass spectrometry (LC-MS/MS) in wheat grains and corresponding wheat bran, wheat flour, and semi-finished and finished wheat flour-based products. This investigation showed that wheat grain processing to wheat flour significantly decreased the levels of DON by approximately 52.7%-68.2%. Wheat flour processing of wheat flour-based products decreased the DON concentration by approximately 7.0%-70.6%. Among the processing methods, biscuit making showed the largest reduction (70.6%). The co-occurrence frequency of DON with low levels of 3-Ac-DON and 15-Ac-DON was significantly greater in wheat grains and wheat bran than in wheat flour. For wheat flour-based products, only the distribution pattern of 3-Ac-DON was observable in processed wheat flour products prepared using grains heavily contaminated with DON. In China, to the best of our knowledge, the processing factors (PFs) of DON in wheat flour and wheat flour-based products were systematically evaluated for the first time. The average PF of DON was 0.35 for wheat flour and the average PFs were 0.37-0.84 for wheat flour-based products, with biscuits having the smallest PF (0.37), indicating DON significantly decreasing in biscuit making. Furthermore, dietary exposure assessment of DON indicated an acceptable overall health risk in Chinese consumers, with the highest exposure being observed in infants and young children. This study provides important references for classified management of DON limits in wheat and its various products in China.

Facile fabrication of Au-Ag alloy nanoparticles/Ag nanowires SERS substrates with bimetallic synergistic effect for ultra-sensitive detection of crystal violet and alkali blue 6B.

The bimetallic nanostructure of Au and Ag can integrate two distinct properties into a novel substrate compared to single metal nanostructures. This work presents a rapid and sensitive surface-enhanced Raman scattering (SERS) substrate for detecting illegal food additives and dyes of crystal violet (CV) and alkali blue 6B (AB 6B). Au-Ag alloy nanoparticles/Ag nanowires (Au-Ag ANPs/Ag NWs) were prepared by solid-state ionics method and vacuum thermal evaporation method at 5µA direct current electric field (DCEF), the molar ratio of Au to Ag was 1:18.34. Many 40 nm-140 nm nanoparticles regularly existed on the surface of Ag NWs with the diameters from 80 nm to 150 nm. The fractal dimension of Au-Ag ANPs/Ag NWs is 1.69 due to macroscopic dendritic structures. Compared with single Ag NWs, the prepared Au-Ag ANPs/Ag NWs substrates show superior SERS performance because of higher surface roughness, the SERS active of Ag NWs and bimetallic synergistic effect caused by Au-Ag ANPs, so the limit of detections (LOD) of Au-Ag ANPs/Ag NWs SERS substrates toward detection of CV and AB 6B were as low as 10-16mol/L and 10-9mol/L, respectively. These results indicate that Au-Ag ANPs/Ag NWs substrates can be used for rapid and sensitive detection of CV and AB 6B and have great development potential for detection of illegal food additives and hazardous substances in the fields of environmental monitoring and food safety.

Molecular identification, virulence, and antibiotic-resistant genes characteristics of Staphylococcus spp., isolated from milk samples.

Background: Food safety and food-borne infections are major subjects of global interest. Dairy products are considered as important source for these infections. Aim: The present study was conducted to identify the occurrence and to genotype isolates of Staphylococcus spp. recovered from milk samples in Al-Diwaniyah City, Iraq. Methods: The current study included the collection of 50 milk samples purchased from local stores in the current city. These samples were subjected to bacterial cultivation and biochemical tests. Later, the growth was used to extract the genomic DNA that was exposed to PCR and partial gene sequencing both targeted the 16S rRNA gene at a specific genetic piece. Results: The PCR results demonstrated the amplification of the genetic fragment of five genetic clusters for each of Staphylococcus aureus (SAD11, SAD12, SAD13, SAD14, and SAD15), Staphylococcus epidermidis (SED1, SED2, SED3, SED4, and SED5), and Staphylococcus intermedius (SID1, SID2, SID3, SID4, and SID5). The PCR products were sent out to sequencing and reported that the current isolates were similar in their genetic content with global isolates at 95.34% to 97.59%, 96.21% to 97.57%, and 96.09% to 97.88%, respectively, of identity. Conclusion: The present findings show high genetic variations among isolates of S. aureus, S. epidermidis, and S. intermedius recovered from milk samples, and these genotypes are found in different infection settings related to humans and animals, which may pose high risks to humans and animals.

Carbon nanomaterial-based aptasensors for rapid detection of foodborne pathogenic bacteria.

Each year, millions of people suffer from foodborne illness due to the consumption of food contaminated with pathogenic bacteria, which severely challenges global health. Therefore, it is essential to recognize foodborne pathogens swiftly and correctly. However, conventional detection techniques for bacterial pathogens are labor-intensive, low selectivity, and time-consuming, highlighting a notable knowledge gap. A novel approach, aptamer-based biosensors (aptasensors) linked to carbon nanomaterials (CNs), has shown the potential to overcome these limitations and provide a more reliable method for detecting bacterial pathogens. Aptamers, short single-stranded DNA (ssDNA)/RNA molecules, serve as bio-recognition elements (BRE) due to their exceptionally high affinity and specificity in identifying foodborne pathogens such as Salmonella spp., Escherichia coli (E. coli), Listeria monocytogenes, Campylobacter jejuni, and other relevant pathogens commonly associated with foodborne illnesses. Carbon nanomaterials' high surface area-to-volume ratio contributes unique characteristics crucial for bacterial sensing, as it improves the binding capacity and signal amplification in the design of aptasensors. Furthermore, aptamers can bind to CNs and create aptasensors with improved signal specificity and sensitivity. Hence, this review intends to critically review the current literature on developing aptamer functionalized CN-based biosensors by transducer optical and electrochemical for detecting foodborne pathogens and explore the advantages and challenges associated with these biosensors. Aptasensors conjugated with CNs offers an efficient tool for identifying foodborne pathogenic bacteria that is both precise and sensitive to potentially replacing complex current techniques that are time-consuming.

Home Delivery Meal Kits Online Food Safety-Related Information: A Perspective.

The recent popularity of home delivery meal kits (HMK) has prompted concerns about its integrity and safety. On the basis of a food safety-related information evaluation of the common US-based HMK vendors' websites, this perspective highlights opportunities for improvement with the adequacy and accessibility of relevant information on HMK websites, an important resource for communicating food safety best practices to consumers. Identified gaps in information and inadequate delivery protocols potentially increase the risk of offering unsafe food to consumers. Suggestions for future research and recommendations for vendors, policymakers, and regulators to help protect consumers from potential foodborne illness risks are also discussed.

Research progress on detection of foodborne pathogens: The more rapid and accurate answer to food safety.

In recent years, foodborne diseases have posed a serious threat to human health, and rapid detection of foodborne pathogens is particularly crucial for the prevention and control of such diseases. This article offers a detailed overview of the development of detection techniques for foodborne pathogens, transitioning from traditional microbiological culture methods to the current array of techniques, including immunological, molecular biological, and biosensor-based methods. It summarizes the technical principles, advantages, disadvantages, and research progress of these diverse methods. Furthermore, the article demonstrates that the combination of different methods enhances the efficiency and accuracy of pathogens detection. Specifically, the article focuses on the application and advantages of combining CRISPR/Cas systems with other detection methods in the detection of foodborne pathogens. CRISPR/Cas systems, with their high specificity, sensitivity, and ease of operation, show great potential in the field of foodborne pathogens detection. When integrated with other detection techniques such as immunological detection techniques, molecular biology detection techniques, and biosensors, the accuracy and efficiency of detection can be further improved. By fully utilizing these tools, early detection and control of foodborne diseases can be achieved, enhancing public health and preventing disease outbreaks. This article serves as a valuable reference for exploring more convenient, accurate, and sensitive field detection methods for foodborne pathogens, promoting the application of rapid detection techniques, and ensuring food safety and human health.

Dietary glycation compounds - implications for human health.

The term "glycation compounds" comprises a wide range of structurally diverse compounds that are formed endogenously and in food via the Maillard reaction, a chemical reaction between reducing sugars and amino acids. Glycation compounds produced endogenously are considered to contribute to a range of diseases. This has led to the hypothesis that glycation compounds present in food may also cause adverse effects and thus pose a nutritional risk to human health. In this work, the Senate Commission on Food Safety (SKLM) of the German Research Foundation (DFG) summarized data on formation, occurrence, exposure and toxicity of glycation compounds (Part A) and systematically assessed potential associations between dietary intake of defined glycation compounds and disease, including allergy, diabetes, cardiovascular and renal disease, gut/gastrotoxicity, brain/cognitive impairment and cancer (Part B). A systematic search in Pubmed (Medline), Scopus and Web of Science using a combination of keywords defining individual glycation compounds and relevant disease patterns linked to the subject area of food, nutrition and diet retrieved 253 original publications relevant to the research question. Of these, only 192 were found to comply with previously defined quality criteria and were thus considered suitable to assess potential health risks of dietary glycation compounds. For each adverse health effect considered in this assessment, however, only limited numbers of human, animal and in vitro studies were identified. While studies in humans were often limited due to small cohort size, short study duration, and confounders, experimental studies in animals that allow for controlled exposure to individual glycation compounds provided some evidence for impaired glucose tolerance, insulin resistance, cardiovascular effects and renal injury in response to oral exposure to dicarbonyl compounds, albeit at dose levels by far exceeding estimated human exposures. The overall database was generally inconsistent or inconclusive. Based on this systematic review, the SKLM concludes that there is at present no convincing evidence for a causal association between dietary intake of glycation compounds and adverse health effects.

Considering the implication of endogenous glycation compounds in aging and disease, dietary exposure via consumption of an "AGE (advanced glycation end product) rich diet" is increasingly suggested to pose a potential health risk. However, studies attempting to assess an association between dietary glycation compounds and adverse health effects frequently suffer from insufficient chemical analysis of glycation compounds, including inadequate structural characterization and limited quantitative data. The Senate Commission on Food Safety (SKLM) of the German Research Foundation (DFG) previously defined quality criteria for studies designed to assess the effects of dietary glycation compounds on human health. The aim of the present work is to summarize data on formation, occurrence, exposure and toxicity of glycation compounds (Part A) and to systematically evaluate if the currently available scientific database allows for a conclusive assessment of potential health effects of defined glycation compounds (Part B).The term "glycation compounds" comprises a wide range of structurally diverse compounds that derive from the Maillard reaction, a chemical reaction between reducing carbohydrates and amino compounds that occurs during food processing. In the first stage of the Maillard reaction, reducing sugars such as glucose and fructose react for instance with the ε-amino group of lysine, which is most abundant in food ("glycation" of lysine). Subsequently, these primary reaction products undergo Amadori rearrangement to yield products (ARP) such as fructosyllysine (FL) from glucose and also Heyns rearrangement products (HRPs) such as glucosyl- and mannosyllysine from fructose. While ARPs are rapidly formed during food processing, they are not stable and undergo degradation reactions, predominantly to 1,2-dicarbonyl compounds such as glyoxal (GO), methylglyoxal (MGO) and 3-deoxyglucosone (3-DG), which are highly reactive. The last stage of the Maillard reaction is characterized predominantly by the reaction of these dicarbonyl compounds with nucleophilic groups of proteins. The side-chains of lysine and arginine residues as well as the N-termini of proteins are important reaction sites. Carboxyalkylated amino acids such as N-ε-carboxymethyllysine (CML) and N-ε-carboxyethyllysine (CEL) result from reaction of the ε-amino group of lysine with the dicarbonyl compounds GO and MGO. Dicarbonyl compounds with C5 or C6 chains can form cyclic pyrrole derivatives at the ε-amino group of lysine. The most important example for this reaction is pyrraline, which is formed from reaction of 3-DG and lysine. The reaction of dicarbonyl compounds with the guanidino group of arginine mainly leads to hydroimidazolones, of which the MGO-derived hydroimidazolone 1 (MG-H1) is best described in food systems.ARPs are the most abundant glycation products found in food. Up to 55% of the lysine residues in food may be modified to ARPs at the side-chain. Food items particularly rich in ARPs include bread, rusk, biscuits, chocolate, and powdered infant formulas. Exposure estimates range between 0.6­1.6 mg/kg body weight (bw), although exposure may be as high as 14.3 mg/kg bw in individuals consuming foods with extreme ARP concentrations. Foods particularly rich in dicarbonyl compounds include heat-treated or long-term stored items rich in reducing sugars such as jams, alternative sweeteners, soft drinks, honey, candies, cookies, and vinegars, especially balsamico-type vinegars. The main contributors to the daily intake of MGO, GO, and 3-DG are coffee and bread. Dietary exposure to dicarbonyl compounds has been estimated to range between 0.02­0.29 mg/kg bw/d for MGO, 0.04­0.16 mg/kg bw/d for GO, 0.14­2.3 mg/kg bw/d for 3-DG, and 0.08­0.13 mg/kg bw/d for 3-deoxygalactosone (3-DGal). Dietary intake of 5-hydroxymethylfurfural (HMF), which can be formed from 3-DG, is estimated to range between 0.0001­0.9 mg/kg bw/d. Exposure estimates for individual glycated amino acids range from 0.03­0.35 mg/kg bw/d for CML, 0.02­0.04 mg/kg bw/d for CEL and 0.19­0.41 mg/kg bw/d for MG-H1. From a model diet consisting of 1 L milk, 500 g bakery products and 400 mL coffee, an intake of pyrraline corresponding to 0.36 mg/kg bw/d for a 70 kg person was estimated.Quantitative analysis of individual glycation compounds or their metabolites in tissues or body fluids as well as their reaction products with amino acids, proteins or DNA may serve to monitor exposure to glycation compounds. However, since glycation compounds are also formed endogenously, these biomarkers reflect the totality of the exposure, making it inherently difficult to define the body burden due to dietary intake against the background of endogenous formation.Information on the toxicokinetics and toxicity of glycation compounds is scarce and mostly limited to the reactive dicarbonyl compounds GO, MGO, 3-DG, HMF, and individual glycated amino acids such as CML and CEL. Acute toxicity of dicarbonyl compounds is low to moderate. There are some data to suggest that rapid detoxification of dicarbonyls in the gastrointestinal tract and liver may limit their oral bioavailability. Biotransformation of GO and MGO occurs predominantly via the glutathione (GSH)-dependent glyoxalase system, and to a lesser extent via glutathione-independent aldo-keto-reductases, which are also responsible for biotransformation of 3-DG. GO, MGO and 3-DG readily react with DNA bases in vitro, giving rise to DNA adducts. There is clear evidence for genotoxicity of GO, MGO and 3-DG. Repeated dose toxicity studies on GO consistently reported reduced body weight gain concomitant with reduced food and water consumption but did not identify compound related changes in clinical chemistry and hematology or histopathological lesions. There is also no evidence for systemic carcinogenicity of GO and MGO based on the available studies. However, initiation/promotion studies indicate that oral exposure to GO may exhibit genotoxic and tumor promoting activity locally in the gastrointestinal tract. From a 2-year chronic toxicity and carcinogenicity study in rats, a NOAEL for systemic toxicity of GO administered via drinking water of 25 mg/kg bw was reported based on reduced body weight and erosions/ulcer in the glandular stomach. Other non-neoplastic and neoplastic lesions were not observed. Acute toxicity of HMF is also low. From a 90-day repeated dose toxicity study in mice, a NOAEL of 94 mg/kg bw was derived based on cytoplasmic alterations of proximal tubule epithelial cells of the kidney. HMF was mostly negative in in vitro genotoxicity tests, although positive findings for mutagenicity were obtained under conditions that promote formation of the chemically reactive sulfuric acid ester 5-sulfoxymethylfurfural. There is some evidence of carcinogenic activity of HMF in female B6C3F1 mice based on increased incidences of hepatocellular adenoma, but not in male mice and rats of both sexes. Although data on oral bioavailability of glycated amino acids are mostly limited to CML, it appears that glycated amino acids may be absorbed from the gastrointestinal tract after oral exposure to their free and protein bound form. Glycated amino acids that are not absorbed in the intestine may be subject to metabolism by the gut microbiome. Glycated amino acids present in the systemic circulation are rapidly eliminated via the urine. Acute oral toxicity of CML is low. Studies in mice and rats reported changes in clinical chemistry parameters indicative of impaired renal and hepatic function. However, these changes were not dose-related and not supported by histopathological evaluation.Previous risk assessments of individual glycation compounds did not identify a health concern at estimated human exposures (GO, HMF) but also noted the lack of data to draw firm conclusions on health risks associated with exposure to MGO.To identify potential associations between dietary intake of defined glycation compounds and disease a systematic review was carried out according to the Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) model, applying the quality criteria previously defined by the SKLM. Using a combination of keywords defining individual glycation compounds and relevant disease patterns linked to the subject area of food, nutrition and diet, a systematic search in Pubmed (Medline), Scopus and Web of Science was performed. Although the present systematic review identified numerous studies that investigated an association between an "AGE-rich diet" and adverse health effects, only a subset of studies was found to comply with the quality criteria defined by the SKLM and was thus considered suitable to assess potential health risks of dietary glycation compounds.For each adverse health effect considered in this assessment, only limited numbers of human studies were identified. Although studies in humans offer the advantage of investigating effects at relevant human exposures, these studies did not provide compelling evidence for adverse effects of dietary glycation compounds. Animal studies identified in this systematic review provide some evidence for induction of impaired glucose tolerance, insulin resistance, cardiovascular effects and renal injury in response to oral exposure to GO and MGO as representatives of dicarbonyl compounds. Only limited evidence points to a link between high intake of glycated amino acids and metabolic disorders. However, these effects were typically reported to occur at dose levels that exceed human dietary exposure, often by several orders of magnitude. Unfortunately, most studies employed only one dose level, precluding characterization of dose-response and derivation of a point of departure for riskassessment. While in vitro studies provide some evidence for a potential mechanistic link between individual glycation compounds and presumed adverse health effects, the clinical and toxicological relevance of the in vitro findings is often limited by the use of high concentrations of glycation compounds that by far exceed human dietary exposure and by insufficient evidence for corresponding adverse effects in vivo. A key question that has not been adequately considered in most studies investigating systemic effects of glycation compounds is the extent of oral bioavailability of dietary glycation compounds, including the form in which MRPs may be taken up (e.g. free vs. peptide bound glycated amino acids). Understanding how much dietary glycation compounds really add to the significant endogenous background is critical to appraise the relevance of dietary MRPs for human health.While it appears mechanistically plausible that glycation of dietary allergens may affect their allergenic potential, the currently available data do not support the hypothesis that dietary glycation compounds may increase the risk for diet-induced allergies. There are no human studies addressing the immunological effects of dietary AGEs. Accordingly, there are no data on whether dietary AGEs promote the development of allergies, nor whether existing allergies are enhanced or attenuated. In numerous in vitro studies, the IgG/E binding ability of antigens and therefore their allergenic potential has been predominantly reported to be reduced by glycation. However, some in vitro studies showed that glycated proteins bind to receptors of immunological cells, and thus may have promoting effects on immune response and inflammation.Although experimental data from animal studies provide some evidence that high doses of individual glycation compounds such as MGO and protein-bound CML may produce certain adverse health effects, including diabetogenic, cardiovascular, metabolic and renal effects, the doses required to achieve these effects by far exceed human dietary exposures. Of note, in the only long-term study identified, a high dose of MGO administered via drinking water to mice for 18 months had no adverse effects on the kidneys, cardiovascular system, or development of diabetes.Experimental data from animal studies provide evidence that high doses of defined glycation compounds such as MGO or protein-bound CML may affect glucose homeostasis. However, the doses required to produce these effects markedly exceed human dietary exposure. Results from human studies are inconclusive: Three short-term intervention studies suggested that diets rich in AGEs may impair glucose homeostasis, whereas one recent intervention study and two observational studies failed to show such an effect.For the cardiovascular system, there is some evidence from in vitro and in vivo studies that high concentrations of MRPs, well above the dietary exposure of humans, may enhance inflammation in the cardiovascular system, induce endothelial damage, increase blood pressure and increase the risk of thrombosis. Only a limited number of human intervention studies investigated potential effects of short-term exposure and longer-term effects of glycation compounds on the cardiovascular system, and yielded inconsistent results. The few observational studies available either found no association between dietary MRP intake and cardiovascular function or even reported beneficial effects. Therefore, currently no definitive conclusion on potential acute and chronic effects of dietary MRPs on inflammation and cardiovascular function can be drawn. However, there is currently also no convincing evidence that potential adverse effects on the cardiovascular system are triggered by dietary MRP intake.Furthermore, human studies did not provide evidence for an adverse effect of dietary MRPs on kidney function. In animal studies with high levels of oral intake, MGO was reported to cause structural and functional effects in the kidney. Several studies show that the concentration of modified proteins and amino acids, such as CML, increases significantly in kidney tissue after oral intake. One study showed a negative effect of a high-temperature-treated diet containing increased CML concentrations on kidney structure integrity and impaired glomerular filtration. The causative relationship of accumulation of dietary MRPs and a functional decline of the kidneys, however, needs further confirmation.With regard to gut health, there is some evidence for alterations in gut microflora composition and the production of individual short-chain fatty acids (SCFAs) upon dietary exposure to glycation compounds. However, this has not been linked to adverse health effects in humans and may rather reflect adaptation of the gut microbiota to changing nutrients. In particular, a human observational study and several animal studies did not find a correlation between the intake of glycation compounds and increased intestinal inflammation. In animal studies, positive effects of glycation compounds on gut tissue damage and dysbiosis during colitis were described.Considering clear evidence for DNA reactivity and genotoxicity of the dicarbonyl compounds GO, MGO and 3-DG, it is plausible to suspect that dicarbonyl compounds may induce mutations and cancer. Although there is some evidence for tumor promoting activity of GO locally in the gastrointestinal tract, the only guideline-compatible chronic rodent bioassays reported erosions and ulcer in the glandular stomach but no treatment-related neoplastic lesions. A recent multinational cohort study with focus on CEL, CML, and MG-H1 found no evidence to support the hypothesis that dietary AGEs are linked to cancer risk.Evidence for an association between human exposure to dietary glycation compounds and detrimental effects on the brain and on cognitive performance is far from being compelling. No human studies fully complying with the defined quality criteria were identified. A few experimental studies reported neuroinflammation and cognitive impairment following dietary MRP exposure, but these can be considered indicative at best and do not support firm conclusions for human health. In addition to utilizing exceedingly high dosages of individual agents like CML, harsh processing conditions causing a multitude of major process-related changes do not allow to convincingly reconcile effects observed with measured/supposed contents of free and protein-bound CML alone.Overall, although dietary glycation compounds have been claimed to contribute to a wide range of adverse health effects, the present critical evaluation of the literature allows the conclusion that the available data are insufficient, inadequate or inconclusive and do not compellingly support the hypothesis of human health risks being related to the presence of glycation compounds in food. The study limitations detailed above, together with the fact that a large number of studies did not comply with the defined quality criteria and therefore had to be excluded highlight the importance of performing adequately designed human or animal studies to inform scientifically reliable health risk assessment.To achieve this, high quality, dependable scientific cooperation within various disciplines is pivotal.

Review: Impact of food safety on global trade.

Food safety encompasses the supply and assurance of safe, high-quality food for consumers. It is a crucial aspect of food security, gaining greater global attention due to the increasing number of widespread foodborne incidents. International trade is expanding as countries increasingly rely on each other to secure a sufficient and diverse food supply. Beyond this, concerns about food safety have become more prevalent due to various factors. Therefore, this review aims to investigate the effects of food safety-associated risks on the international trade of food and related products. A total of 37 published studies retrieved using different search engines were included in this review. This review revealed that because of rapid population growth and rising food demand in developing nations, agricultural intensification is growing. It has been found that foodborne illnesses and associated discrepancies can impede the international trade of food commodities. Trade bans due to the fear of foodborne illnesses are growing. The consequences of foodborne diseases are multifaceted and include financial losses from trade restrictions, medical costs for prevention or control, resource depletion and a decline in food production. The overall effects are increased international trade tensions and livelihood vulnerability to poverty, notably for small-scale livestock producers. Potential food contaminants include microbes, pesticides, pharmaceutical residues, heavy metals and fraudulent such as improper food processing, mislabelling, poor packaging, adulteration and substitution. Hence, countries are encouraged to harmonize the rights and duties set by the World Trade Organization under sanitary and phytosanitarys to maximize their advantages in global markets. Based on this evidence, we recommend that each country develop and integrate regulations that would ensure the safety of both domestic and international food production systems. Furthermore, the global community should either revise the current functioning food regulatory and monitoring body or establish a more genuine collaborative network.

Assessment of the knowledge, attitude, and practice of childbearing mothers in the geographically coastal region of Bangladesh for cleanliness and food safety of food security.

Objectives: Household hygiene and food safety are essential parts of food security; better food safety and hygiene will help reduce the chances of illness for young children and family members rarely studied in the selected area of coastal Bangladesh. The study aimed to discover the knowledge, attitude, and practice levels for cleanliness, hygiene, and food safety in the household. Methods: In this study, we employed a cross-sectional survey with simple random sampling to collect data from 384 childbearing mothers. The survey used the pretested, validated, and standardized (knowledge, attitude, and practice) questionnaire-model-based interview guide. Results: According to our study analysis, the knowledge, attitude, and practice scores among mothers were inadequate for household cleanliness and hygiene management. In the area context, knowledge efficiency was related to family type (joint and nuclear). Family economic conditions strongly influenced mothers' attitudes and behavior toward knowledge, attitude, and practice score. Unemployed and illiterate mothers have lower knowledge, attitude, and practice scores. Educated mothers have better knowledge, attitude, and practice score compared to illiterate mothers (p < 0.014). Nuclear family knowledge, attitude, and practice attitude was much greater (p < 0.04) and wealthier families showed better practice (p < 0.001) toward cleanliness and food safety in the household level. Conclusions: The study discovered the mothers' and household members' attention need to improve the knowledge, attitude, and practice toward proper hygiene and food safety at the household level of marginalized populations in coastal Bangladesh.