Journal of Xenobiotics

29 pages, 1841 KB

Open AccessReview

Bisphenol A (BPA) Modifies Cancer Signaling Pathways: A Neglected Global Health Threat

by Minatullah Al-Ani, Yassir Al-Ani, Shahad Sabaawi Ibrahim, Raghad Sabaawi Ibrahim, Peter Kubatka and Dietrich Büsselberg

J. Xenobiot. 2025, 15(6), 207; https://doi.org/10.3390/jox15060207 - 4 Dec 2025

Abstract

Bisphenol A (BPA), a synthetic industrial compound widely found in plastics and other materials, has been linked to cancer development. As human exposure increases, BPA may pose potential carcinogenic concerns. Although BPA binds to estrogen receptors with much lower affinity than natural estrogens, [...] Read more.

Bisphenol A (BPA), a synthetic industrial compound widely found in plastics and other materials, has been linked to cancer development. As human exposure increases, BPA may pose potential carcinogenic concerns. Although BPA binds to estrogen receptors with much lower affinity than natural estrogens, its accumulation in human tissues can cause harmful effects. This review summarizes current evidence on BPA’s role in cancer initiation and progression, with a focus on its effects on cancer signaling pathways. These effects involve modulating pathways involved in cell growth, movement, invasion, survival, and adhesion. BPA acts as an estrogen ligand, binding to estrogen receptors and activating related pathways. The main route of exposure is through dietary intake of canned and plastic-packaged foods, with migration rates increasing at higher temperatures. To raise awareness of BPA’s harmful effects, industries have proposed “BPA-free” alternatives, some of which use derivatives like bisphenol S (BPS) and bisphenol F (BPF), which, unfortunately, may have even worse effects on human health. Given the ongoing challenges of eliminating BPA and similar harmful compounds, future research should focus on identifying safe substitutes, developing more effective removal technologies, and strengthening stringent regulations to mitigate public health risks. Full article

(This article belongs to the Special Issue Impact of Microplastics on Human Health)

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31 pages, 1370 KB

Open AccessReview

Drug-Induced Glucose Metabolism Disorders: Role of Aryl Hydrocarbon Receptor

by Alevtina Y. Grishanova and Maria L. Perepechaeva

J. Xenobiot. 2025, 15(6), 206; https://doi.org/10.3390/jox15060206 - 2 Dec 2025

Abstract

Pharmacological compounds can disrupt glucose homeostasis, leading to impaired glucose tolerance, hyperglycemia, or newly diagnosed diabetes, as well as worsening glycemic control in patients with pre-existing diabetes. Traditional risk factors alone cannot explain the rapidly growing global incidence of diabetes. Therefore, prevention of [...] Read more.

Pharmacological compounds can disrupt glucose homeostasis, leading to impaired glucose tolerance, hyperglycemia, or newly diagnosed diabetes, as well as worsening glycemic control in patients with pre-existing diabetes. Traditional risk factors alone cannot explain the rapidly growing global incidence of diabetes. Therefore, prevention of insulin resistance could represent an effective strategy. Achieving this goal requires a deeper understanding of the mechanisms underlying the development of insulin resistance, with particular attention to the aryl hydrocarbon receptor (AhR). AhR, a transcription factor functioning as a xenobiotic sensor, plays a key role in various molecular pathways regulating normal homeostasis, organogenesis, and immune function. Activated by a range of exogenous and endogenous ligands, AhR is involved in the regulation of glucose and lipid metabolism as well as insulin sensitivity. However, current findings remain contradictory regarding whether AhR activation exerts beneficial or detrimental effects. This narrative review summarizes recent studies exploring the role of the AhR pathway in insulin secretion and glucose homeostasis across different tissues, and discusses molecular mechanisms involved in this process. Considering that several drugs act as AhR ligands, the review also compares how these ligands affect metabolic pathways of glucose and lipid metabolism and insulin sensitivity, producing either positive or negative effects. Full article

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31 pages, 2248 KB

Open AccessReview

From Food to Humans: The Toxicological Effects of Alternaria Mycotoxins in the Liver and Colon

by Rita Sofia Vilela, Francisco Pina-Martins and Célia Ventura

J. Xenobiot. 2025, 15(6), 205; https://doi.org/10.3390/jox15060205 - 2 Dec 2025

Abstract

Alternaria mycotoxins represent a significant and emerging concern in the field of food safety due to their widespread occurrence in diverse food and feed commodities, including cereals, tomatoes, oilseeds, and dried fruits. Among these, alternariol (AOH), alternariol monomethyl ether (AME), tenuazonic acid (TeA), [...] Read more.

Alternaria mycotoxins represent a significant and emerging concern in the field of food safety due to their widespread occurrence in diverse food and feed commodities, including cereals, tomatoes, oilseeds, and dried fruits. Among these, alternariol (AOH), alternariol monomethyl ether (AME), tenuazonic acid (TeA), and altertoxin-I (ATX-I) are the most frequently detected, often co-occurring at varying concentrations, thereby increasing the complexity of exposure and risk assessment. The gastrointestinal tract (GIT) is a crucial target of these toxins, as well as the liver, particularly considering its detoxifying role. Nevertheless, despite being a source of possible gastrointestinal and hepatic toxicity, there is still scarce data on the toxicokinetics of Alternaria toxins, on their mode of action, and respective toxic effects. To date, in vitro studies have shown that different Alternaria mycotoxins exhibit diverse toxicological effects, which may be dependent on their chemical structure. AOH and ATX-I have shown genotoxicity and cytotoxicity, mainly through interaction with the DNA and apoptosis, respectively. Tentoxin (TEN) has displayed hepatotoxic potential via impairment of detoxification pathways, and altenuene (ALT) has revealed lower toxicity. In vivo, AME and ATX-II revealed genotoxicity, while AOH and ATX-I showed context-dependent variability in their effects. Altogether, this review emphasizes that there is still a great lack of knowledge on these mycotoxins and an urgent need for more comprehensive toxicological and occurrence data to support proper risk assessment and, ultimately, regulatory decision-making. Full article

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22 pages, 1463 KB

Open AccessReview

Hazards and Health Risks of the Antibacterial Agent Triclosan to Fish: A Review

by Jiangang Wang, Nannan Ma, Gancong Mo, Xian Qin, Jin Zhang, Xiangping Yao, Jiahua Guo and Zewei Sun

J. Xenobiot. 2025, 15(6), 204; https://doi.org/10.3390/jox15060204 - 2 Dec 2025

Abstract

Triclosan (TCS) is a widely used antimicrobial agent found in personal care products and household cleaners. While valued since the 1960s for its ability to inhibit bacterial fatty acid synthesis, its environmental persistence, ecotoxicity, and bioaccumulative potential have raised significant global concern. The [...] Read more.

Triclosan (TCS) is a widely used antimicrobial agent found in personal care products and household cleaners. While valued since the 1960s for its ability to inhibit bacterial fatty acid synthesis, its environmental persistence, ecotoxicity, and bioaccumulative potential have raised significant global concern. The increased use of disinfectants during the COVID-19 pandemic has further exacerbated its prevalence as an aquatic pollutant. In the environment, TCS is distributed through water bodies and sediments, undergoing processes such as biodegradation and photochemical degradation. Its bioaccumulation poses a substantial threat to aquatic organisms, particularly fish. A growing body of research indicates that TCS acts as an endocrine disruptor and developmental toxicant, with documented adverse effects encompassing impaired embryonic and larval development, skeletal malformations, and induction of oxidative stress, mitochondrial dysfunction, DNA damage, and inflammatory responses. Furthermore, TCS exposure is linked to reproductive toxicity, including altered sex hormone levels and diminished reproductive capacity. This review consolidates current knowledge on the chemical properties, environmental fate, biodegradation pathways, and ecotoxicological impacts of TCS, with a specific emphasis on its multifaceted health risks to fish. The synthesis aims to provide a foundation for future research, inform environmental risk assessments, and support the development of evidence-based regulatory measures. Full article

(This article belongs to the Topic Recent Advances in Veterinary Pharmacology and Toxicology)

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12 pages, 1974 KB

Open AccessArticle

In Vitro Cytotoxic and Genotoxic Evaluation of Nitazenes, a Potent Class of New Synthetic Opioids

by Francesca Rombolà, Sara Bartoletti, Sabrine Bilel, Patrizia Hrelia, Matteo Marti and Monia Lenzi

J. Xenobiot. 2025, 15(6), 203; https://doi.org/10.3390/jox15060203 - 2 Dec 2025

Abstract

In recent years, the expansion of the illicit market for Novel Psychoactive Substances (NPS) has resulted in the emergence of numerous synthetic recreational drugs specifically designed to evade legal control and analytical detection. Among these, nitazenes represent one of the most potent classes [...] Read more.

In recent years, the expansion of the illicit market for Novel Psychoactive Substances (NPS) has resulted in the emergence of numerous synthetic recreational drugs specifically designed to evade legal control and analytical detection. Among these, nitazenes represent one of the most potent classes of new synthetic opioids, although information regarding their toxicological properties remains limited. The present study aimed to assess the genotoxic potential of four nitazenes: clonitazene, etonitazene, isotonitazene and metonitazene in human lymphoblastoid TK6 cells using a flow cytometric version of the In Vitro Mammalian Cell Micronucleus Test, following OECD Guideline No. 487. Cells were exposed to concentrations ranging from 12.5 to 100 μM, and cytotoxicity, cytostasis, and apoptosis were evaluated to identify appropriate doses for micronucleus frequency assessment. Vinblastine, a well-established mutagen, was included as positive control. Our findings demonstrated that clonitazene and isotonitazene exhibit mutagenic potential, suggesting an increased long-term risk of developing chronic degenerative diseases. Furthermore, the results revealed that structurally related molecules can induce markedly different cellular effects, underscoring the importance of compound-specific toxicological evaluations to achieve a comprehensive understanding of the risks associated with their illicit use—risks often presumed to involve only addiction or acute toxicity. Full article

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23 pages, 1183 KB

Open AccessArticle

Investigation of Combined Toxic Metals, PFAS, Volatile Organic Compounds, and Essential Elements in Chronic Kidney Disease

by Aderonke Gbemi Adetunji and Emmanuel Obeng-Gyasi

J. Xenobiot. 2025, 15(6), 202; https://doi.org/10.3390/jox15060202 - 2 Dec 2025

Abstract

Exposure to environmental pollutants, including toxic metals, volatile organic compounds (VOCs), and per- and polyfluoroalkyl substances (PFAS), has been increasingly linked to impaired kidney function. However, the combined effects of these exposures, along with essential elements, on kidney health remain poorly understood. This [...] Read more.

Exposure to environmental pollutants, including toxic metals, volatile organic compounds (VOCs), and per- and polyfluoroalkyl substances (PFAS), has been increasingly linked to impaired kidney function. However, the combined effects of these exposures, along with essential elements, on kidney health remain poorly understood. This study aimed to evaluate the independent and cumulative or mixture effects of toxic metals (cadmium, lead, and mercury), essential elements (iron, manganese, and selenium), PFAS (PFOA and PFOS), and VOCs (m-/p-xylene and o-xylene) on kidney function as measured by estimated glomerular filtration rate (eGFR). Using data from the National Health and Nutrition Examination Survey (NHANES), we applied multiple imputation to address missing data and implemented statistical techniques, including Bayesian Kernel Machine Regression (BKMR), quantile g-computation, and Weighted Quantile Sum Regression (WQSR) to assess complex exposure–response relationships, including non-linear, potential synergistic, and antagonistic effects. The results indicated that several exposures were correlated, particularly o-xylene with m-/p-xylene (r = 0.77), Cd with Pb (r = 0.46), and PFOS with PFOA (r = 0.61). eGFR was negatively associated with Pb, PFOS, PFOA, and Hg. In the BKMR analysis, overall posterior inclusion probabilities (PIPs) highlighted PFOS, Cd, Se, Mn, and Fe as the most influential exposures. Quantile g-computation highlighted Cd and Mn as major contributors, while WQSR modeling confirmed Mn as a key contributor. The findings underscore the importance of considering complex interactions in environmental exposure assessments. While essential elements may offer protective effects, toxic metals, PFAS, and VOCs remain critical contributors to kidney dysfunction. These insights highlight the need for integrative risk assessment approaches and public health strategies aimed at mitigating harmful exposures while promoting optimal nutrient balance. Full article

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21 pages, 1398 KB

Open AccessArticle

Metabolic Profiling and In Vitro Assessment of the Immunomodulatory Effects of Hydrodistillation-Derived Extracts from the Fruticose Lichen Pseudevernia furfuracea (L.) Zopf. on Human Lymphocytes

by Yasser Essadki, Antonio Casas-Rodríguez, Antonio Cascajosa-Lira, Leticia Diez-Quijada, Alexandre Campos, Vitor Vasconcelos, Fatima El Khalloufi, Brahim Oudra, Ana M. Cameán and Angeles Jos

J. Xenobiot. 2025, 15(6), 201; https://doi.org/10.3390/jox15060201 - 1 Dec 2025

Abstract

Lichens are complex symbiotic systems known for synthesizing diverse secondary metabolites with documented antimicrobial, antioxidant, and antiproliferative activities. The present study focused on Pseudevernia furfuracea, a species widely distributed across Moroccan habitats. Two hydrodistillation-derived extracts (HE1 and HE2) were analyzed through ultra-high-Performance [...] Read more.

Lichens are complex symbiotic systems known for synthesizing diverse secondary metabolites with documented antimicrobial, antioxidant, and antiproliferative activities. The present study focused on Pseudevernia furfuracea, a species widely distributed across Moroccan habitats. Two hydrodistillation-derived extracts (HE1 and HE2) were analyzed through ultra-high-Performance liquid chromatography coupled with tandem mass spectrometry (UHPLC-MS/MS) to characterize their metabolite composition, and their effects were evaluated on Jurkat cells, a representative human cell line of the immune system. As the results of the characterization, the main compounds identified were Caprolactam, N,N-Diethylaniline, Erucamide, and 4-Isopropylaniline. Cytotoxicity assessment revealed that both HE1 and HE2 decreased the viability of Jurkat cells in a concentration-dependent manner. The mean effective concentrations (EC₅₀) after 24 h of treatment were 53.79 ± 2.92 µg/mL for HE1 and 59.76 ± 2.01 µg/mL for HE2. Cell death mechanisms were further examined by flow cytometry, revealing that apoptosis predominated after 24 h of treatment, progressing mainly to late apoptotic stages after 48 h. In parallel, the expression levels of key cytokine genes, including IL-2, TNF-α, and IFN-γ, were quantified at the mRNA level to evaluate potential immunomodulatory effects. Up-regulation was observed in IL-2 after exposure to both extracts for 24 and 48 h, and in the case of IFN-γ after exposure to HE2 for 24 h; in contrast, HE1 and HE2 produced down-regulation in TNF-α at 24 h. These findings suggest that HE1 and HE2 have immunomodulatory activity in Jurkat cells. Further investigations are needed to elucidate the underlying mechanisms and to clarify how HE1 and HE2 influence immune responses in human systems. Full article

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25 pages, 666 KB

Open AccessPerspective

Advancing the One Health Framework in EU Plant Protection Product Regulation: Challenges and Opportunities

by Maura Calliera, Ettore Capri, Nicoleta Alina Suciu and Marco Trevisan

J. Xenobiot. 2025, 15(6), 200; https://doi.org/10.3390/jox15060200 - 1 Dec 2025

Abstract

This paper explores the evolving integration of the One Health framework into the European regulatory landscape for plant protection products, focusing on key scientific and procedural challenges. The analysis addresses three fundamental components of risk evaluation—regulatory complexity, hazard identification, and characterisation—and exposure assessment, [...] Read more.

This paper explores the evolving integration of the One Health framework into the European regulatory landscape for plant protection products, focusing on key scientific and procedural challenges. The analysis addresses three fundamental components of risk evaluation—regulatory complexity, hazard identification, and characterisation—and exposure assessment, while providing an up-to-date overview of emerging policies and challenges affecting the sustainable use of plant protection products in Europe. Addressing these issues requires interdisciplinary collaboration among toxicologists, epidemiologists, ecologists, regulatory authorities, industry stakeholders, and public health experts, working synergistically to tackle complex risks. It emphasises that transitioning to more sustainable and resilient agricultural systems in line with One Health principles requires critically reviewing existing policies. By integrating evolving scientific knowledge with communication and agricultural production needs across diverse European contexts, this approach offers valuable insights to inform future policy development and risk management innovation. Full article

(This article belongs to the Special Issue New Challenges in the Monitoring, Risk Assessment and Management of Pesticides and Biocides in the “One Health Era”)

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14 pages, 1220 KB

Open AccessArticle

Environmental Exposure to Cadmium and Lead Exacerbates Kidney Function in People with Diabetes

by Soisungwan Satarug, David A. Vesey, Tanaporn Khamphaya, Donrawee Waeyeng and Supabhorn Yimthiang

J. Xenobiot. 2025, 15(6), 199; https://doi.org/10.3390/jox15060199 - 1 Dec 2025

Abstract

This study investigates the relationship between kidney function and exposure to low-level cadmium (Cd) and lead (Pb) in individuals with and without diabetes. Specifically, it tests the hypothesis that the nephrotoxicity of Cd and Pb reduces the tubular degradation of filtered proteins, namely [...] Read more.

This study investigates the relationship between kidney function and exposure to low-level cadmium (Cd) and lead (Pb) in individuals with and without diabetes. Specifically, it tests the hypothesis that the nephrotoxicity of Cd and Pb reduces the tubular degradation of filtered proteins, namely β₂-microglobulin (β₂M). Data were obtained from a Thai cohort of 137 people, of which 65 were diagnosed with diabetes. Blood Cd, blood Pb, and urinary excretion of Cd (E_Cd) were used as exposure indicators, while urinary N-acetylglucosaminidase (E_NAG) and fractional tubular degradation of β₂M (FrTD_β2M) reflected kidney tubular cell injury and the function of tubular cells, respectively. Spearman’s rank correlation revealed that FrTD_β2M varied directly with the estimated glomerular filtration rate (eGFR; r = 0.434), and inversely with fasting plasma glucose (r = −0.215), E_Cd (r = −0.527), E_NAG (r = −0.536), and Cd/Pb exposure (r = −0.249). In a multiple regression model analysis adjusting for potential confounders, the association between FrTD_β2M and eGFR in those with diabetes was particularly strong (β = 0.476) compared to controls (β = 0.360), whereas an inverse association of FrTD_β2M and E_Cd (β = −0.295) was found only in those with diabetes, along with a positive association of E_NAG with E_Cd (R² = 0.071). A mediation analysis has revealed that tubular injury (E_NAG) mediated 26% of the FrTD_β2M decrease associated with Cd/Pb exposure. These findings suggested that tubular protein degradation pathways may be compromised under combined metabolic and environmental stressors, Cd, and Pb. Full article

(This article belongs to the Special Issue Xenobiotics and Kidney Health: Emerging Challenges in Toxicology and Therapeutics)

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12 pages, 894 KB

Open AccessArticle

The Pyruvate–Glyoxalate Pathway as a Toxicity Assessment Tool of Xenobiotics: Lessons from Prebiotic Chemistry

by François Gagné and Chantale André

J. Xenobiot. 2025, 15(6), 198; https://doi.org/10.3390/jox15060198 - 1 Dec 2025

Abstract

There is an urgent need to evaluate the toxicity of xenobiotics and environmental mixtures for preventing loss in water quality for the sustainability of aquatic ecosystems. A simple prebiotic chemical pathway based on malate formation from pyruvate (pyr) and glyoxalate (glyox) is proposed [...] Read more.

There is an urgent need to evaluate the toxicity of xenobiotics and environmental mixtures for preventing loss in water quality for the sustainability of aquatic ecosystems. A simple prebiotic chemical pathway based on malate formation from pyruvate (pyr) and glyoxalate (glyox) is proposed as a quick and cheap screening tool for toxicity assessment. The assay is based on the pyr and glyox (aldol) condensation reactions, leading to biologically relevant precursors such as oxaloacetate and malate. Incubation of pyr and glyox at 40–70 °C in the presence of reduced iron Fe(II) led to malate formation following the first 3 h of incubation. The addition of various xenobiotics/contaminants (silver, copper, zinc, cerium IV, samarium III, dibutylphthalate, 1,3-diphenylguanidine, carbon-walled nanotube, nanoFe₂O₃ and polystyrene nanoparticles) led to inhibitions in malate synthesis at various degrees. Based on the concentration inhibiting malate concentrations by 20% (IC20), the following potencies were observed: silver < copper ~ 1.3-diphenylguanidine ~ carbon-walled nanotube < zinc ~ samarium < dibutylphthalate ~ samarium < Ce(IV) < nFeO₃ < polystyrene nanoplastics. The IC20 values were also significantly correlated with the reported trout acute lethality data, suggesting its potential as an alternative toxicity test. The pyr-glyox pathway was also tested on surface water extracts (C18), identifying the most contaminated sites from large cities and municipal wastewater effluents dispersion plume. The inhibition potencies of the selected test compounds revealed that not only pro-oxidants but also chemicals hindering enolate formation, nucleophilic attack of carbonyls and dehydration involved in aldol-condensation reactions were associated with toxicity. The pyr-glyox pathway is based on prebiotic chemical reactions during the emergence of life and represents a unique tool for identifying toxic compounds individually and in complex mixtures. Full article

(This article belongs to the Topic Aquatic Emerging Contaminants and Their Ecotoxicological Consequences, 2nd Edition)

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29 pages, 3634 KB

Open AccessArticle

Indoor Airborne VOCs from Water-Based Coatings: Transfer Dynamics and Health Implications

by Jana Růžičková, Helena Raclavská, Marek Kucbel, Pavel Kantor, Barbora Švédová and Karolina Slamová

J. Xenobiot. 2025, 15(6), 197; https://doi.org/10.3390/jox15060197 - 1 Dec 2025

Abstract

Volatile organic compounds (VOCs) emitted from indoor surface coatings can significantly impact indoor air quality and health. This study compared emissions from water-based polyurethane (PUR) and acrylate–polyurethane (ACR–PUR) coatings, identifying 94 VOCs across 16 chemical classes. Time-resolved concentrations were analysed via Principal Component [...] Read more.

Volatile organic compounds (VOCs) emitted from indoor surface coatings can significantly impact indoor air quality and health. This study compared emissions from water-based polyurethane (PUR) and acrylate–polyurethane (ACR–PUR) coatings, identifying 94 VOCs across 16 chemical classes. Time-resolved concentrations were analysed via Principal Component Analysis (PCA), which revealed distinct temporal emission patterns and chemically coherent clusters. Aromatic hydrocarbons, alcohols, esters, and isocyanates dominated the emission profiles, with ACR–PUR releasing markedly higher concentrations of symptom-relevant compounds. Acute exposure was linked to toluene, styrene, phenol, and methyl butyl ketone (MBK), which decreased sharply within 60 days, while compounds such as 1,3-dioxolane, isopropylbenzene, and ethenyl acetate exhibited persistent emissions, suggesting increased chronic risk. Although total VOC levels remained below the German UBA “excellent” threshold (<200 µg/m³), neurotoxic and carcinogenic compounds remained detectable. The combination of PCA-based temporal insights with toxicological profiling and emission transfer dynamics offers a refined framework for indoor air risk assessment. These results underscore the need to complement total VOC indices with symptom-oriented, time-resolved screening protocols to better evaluate SBS risk in indoor environments using water-based coatings. Full article

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24 pages, 2741 KB

Open AccessArticle

PLA Nanoplastics Accumulate but Do Not Cause Acute Toxicity to Marine Rotifers, Brine Shrimps, and Zebrafish Embryos

by Doyinsola Suliat Mustapha, Olga Rodríguez-Díaz, Miren P. Cajaraville and Amaia Orbea

J. Xenobiot. 2025, 15(6), 196; https://doi.org/10.3390/jox15060196 - 12 Nov 2025

Abstract

Conventional plastics are widely utilised across industrial sectors and in consumer products. However, the growing use of plastics has led to plastic pollution, including the formation of nanoplastics (NPs), which are harmful to aquatic organisms. Bioplastics are emerging alternatives. They are renewable and/or [...] Read more.

Conventional plastics are widely utilised across industrial sectors and in consumer products. However, the growing use of plastics has led to plastic pollution, including the formation of nanoplastics (NPs), which are harmful to aquatic organisms. Bioplastics are emerging alternatives. They are renewable and/or biodegradable and are supposed to be more environmentally friendly. However, the toxicity and environmental fate of bioplastics are not yet fully understood. This study evaluated the toxicity and fate of commercially available plain or fluorescent polylactic acid (PLA) NPs (250 nm) on aquatic organisms. Confocal microscopy demonstrated the uptake of fluorescent PLA NPs by the test organisms, marine rotifers (Brachionus plicatilis), brine shrimps (Artemia salina) and zebrafish (Danio rerio) embryos. However, the results of the bioassays indicate that plain PLA NPs did not induce acute toxicity in either of the two zooplankton species and did not cause substantial mortality, malformations, or hatching delays in zebrafish embryos at the tested concentrations (up to 100 mg/L). However, brine shrimp showed a significant decrease in ingestion capability. The biochemical biomarkers, catalase activity induction, as an indicator of oxidative stress, and acetylcholinesterase inhibition, as a marker of neurotoxicity, showed no significant alterations compared to the control of both zooplankton species and that of zebrafish embryos. Overall, the findings suggest a pattern of no acute and low sublethal toxicity for the tested plain PLA NPs in the studied organisms. Nonetheless, further research is imperative to comprehensively assess the environmental fate of bioplastics found in various consumer products, as these may contain harmful chemical additives, as well as the effects of prolonged exposure and their impact on physiological parameters, ensuring informed decisions before their widespread commercialisation and presence in the environment. Full article

(This article belongs to the Section Ecotoxicology)

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8 pages, 452 KB

Open AccessCommunication

Polybrominated Diphenyl Ethers (PBDEs) in PM₁ of Residential Indoor Air: Levels, Seasonal Variability, and Inhalation Exposure Assessment

by Darija Klinčić, Karla Jagić Nemčić, Ivana Jakovljević, Marija Jelena Lovrić Štefiček and Marija Dvoršćak

J. Xenobiot. 2025, 15(6), 195; https://doi.org/10.3390/jox15060195 - 12 Nov 2025

Abstract

Indoor exposure to polybrominated diphenyl ethers (PBDEs), particularly those bound to fine particulate matter (PM₁, particles < 1 µm), may pose a health concern, especially in light of prolonged indoor occupancy and the capacity of ultrafine particles to reach the lower [...] Read more.

Indoor exposure to polybrominated diphenyl ethers (PBDEs), particularly those bound to fine particulate matter (PM₁, particles < 1 µm), may pose a health concern, especially in light of prolonged indoor occupancy and the capacity of ultrafine particles to reach the lower respiratory tract. This study investigates indoor exposure to PBDEs associated with PM₁ in residential homes in Zagreb, Croatia, across warm and cold seasons. BDE-47 was consistently detected in all samples, while BDE-183 was consistently absent. Elevated concentrations and increased detection frequencies of BDE-99 and BDE-100 were observed during the colder season. Consequently, total PBDE (ΣPBDE) levels in the cold season were approximately 2.5 times higher than in the warm season. Although estimated daily inhalation intakes were below established oral reference doses, the potential for deep pulmonary deposition and systemic distribution underscores the need for further investigation. These findings represent the first reported data on indoor PM₁-associated PBDEs in Europe, emphasizing the impact of seasonal dynamics on inhalation exposure due to variation on indoor contaminant levels. Full article

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24 pages, 1244 KB

Open AccessSystematic Review

A Systematic Review: Migration of Chemical Compounds from Plastic Material Containers in Food and Pharmaceutical Fields

by Laura Culleré, Estela Sangüesa, Laura Lomba, María Pilar Ribate, Estefanía Zuriaga and Cristina B. García

J. Xenobiot. 2025, 15(6), 194; https://doi.org/10.3390/jox15060194 - 11 Nov 2025

Abstract

A systematic review was conducted on the migration of compounds from plastic containers in the food and pharmaceutical industries, using Web of Science databases and following PRISMA guidelines (Preferred Reporting Items for Systematic Reviews and Meta-Analyses). The protocol has been registered with the [...] Read more.

A systematic review was conducted on the migration of compounds from plastic containers in the food and pharmaceutical industries, using Web of Science databases and following PRISMA guidelines (Preferred Reporting Items for Systematic Reviews and Meta-Analyses). The protocol has been registered with the OSF registry, with the DOI 10.17605/OSF.10/UQ3T2. This review included only review articles in English published within the last fifteen years. Four reviewers independently screened titles and abstracts, discussing inclusion criteria. In this comprehensive evaluation of the information present in an Excel spreadsheet, a substantial number of records were discarded because they were not representative of the topic under study. Following the review process, a total of twenty-eight key records were selected, primarily focusing on migration in the food and pharmaceutical sectors. Of these, twenty-four addressed only food, just two addressed only pharmaceutical sector, and two covered both fields, highlighting limited information on migration in pharmaceuticals, cosmetics, and related products. The analysis emphasized the types of compounds studied, the analytical methods employed, the migration tests conducted, and the toxicity assessments undertaken. The most frequently assessed compounds included phthalates, endocrine disruptors like bisphenol A, and non-intentionally added substances (NIAS). Analytical methods used typically involved pre-treatment steps, such as liquid–liquid or solid-phase extraction, followed by gas or liquid chromatography, depending on compound volatility. Full article

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23 pages, 1479 KB

Open AccessArticle

Bioaccumulation and Transfer of Potentially Toxic Elements in the Yam-Soil System and Associated Health Risks in Kampala’s Luzira Industrial Area

by Gabson Baguma, Gadson Bamanya, Hannington Twinomuhwezi, Allan Gonzaga, Timothy Omara, Patrick Onen, Simon Ocakacon, Christopher Angiro, Wilber Waibale and Ronald Ntuwa

J. Xenobiot. 2025, 15(6), 193; https://doi.org/10.3390/jox15060193 - 11 Nov 2025

Abstract

Rapid industrialization in peri-urban centers has accelerated the accumulation of potentially toxic elements (PTEs) in agricultural soils, with implications for food safety and public health concerns. This study quantified PTEs (Cu, Cd, Cr, Pb, and Zn) in soils and yam (Colocasia esculenta [...] Read more.

Rapid industrialization in peri-urban centers has accelerated the accumulation of potentially toxic elements (PTEs) in agricultural soils, with implications for food safety and public health concerns. This study quantified PTEs (Cu, Cd, Cr, Pb, and Zn) in soils and yam (Colocasia esculenta) tubers from Kampala’s Luzira Industrial Area. Soil contamination levels were evaluated using the geoaccumulation index (I_geo), contamination factor (CF), and pollution load index (PLI), while soil-to-crop transfer of the PTEs was assessed using the biological accumulation factor (BAF). Statistical analyses (One Way Analysis of Variance, Pearson bivariate correlation, and Principal Component Analysis) were applied to identify relationships among PTEs and sampling sites. Soils exhibited marked industrial influence, with PTE concentrations in the order Zn > Pb > Cu > Cr > Cd. The PLI values above unity confirmed cumulative pollution, with hotspots dominated by Zn, Pb, and Cu. Yam tubers contained lower PTE concentrations but reflected a similar contamination pattern as in the soils. The BAF values were <1 for all the PTEs except Zn, pointing to its greater solubility and mobility in the area’s acidic soils. Health risk assessment indicated that yam consumption was the dominant exposure pathway, with hazard indices (HI) for children exceeding the safe threshold at all industrial sites (HI = 1.14–2.06), and total cancer risks (TCR) ranging from 1.27 × 10⁻⁴ to 5.83 × 10⁻⁴, well above the US EPA limit. For adults, the TCR also surpassed 1 × 10⁻⁴ at sampling points SP3 and SP4. These results found potential transfer of the PTEs from soils into yam tubers, with Cd and Cr being the key drivers of dietary risk. Full article

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14 pages, 483 KB

Open AccessArticle

Temporal Trends, Multiple Residue Incidence, and Chronic Health Risk of Pesticides in Egyptian Onions: A Four-Year Market Surveillance

by Farag Malhat, Shokr Shokr, Sara Heikal and Nour El-Hoda Zidan

J. Xenobiot. 2025, 15(6), 192; https://doi.org/10.3390/jox15060192 - 10 Nov 2025

Abstract

This study analyzed 5731 Egyptian onion samples collected from 2021 to 2024 to detect 430 pesticide residues and evaluate occurrence patterns, EU Maximum Residue Limits (MRLs) compliance, multiple residue prevalence, and consumer health implications. The analysis revealed temporal fluctuations in contamination, with residue-free [...] Read more.

This study analyzed 5731 Egyptian onion samples collected from 2021 to 2024 to detect 430 pesticide residues and evaluate occurrence patterns, EU Maximum Residue Limits (MRLs) compliance, multiple residue prevalence, and consumer health implications. The analysis revealed temporal fluctuations in contamination, with residue-free samples ranging from 51.19% (2023) to 75.59% (2022) and MRL exceedances varying from 1.34% (2022) to 8.33% (2023). Throughout 2021–2024, fungicides dominated pesticide residues, declining from 70% to 50%, while insecticides increased from 30% to 40%. Pesticide detection patterns shifted significantly over the study period, with carbendazim decreasing from 20.99% to 2.35%, azoxystrobin fluctuating between 3.86% and 18.78%, and dimethomorph rising to 16.67%, reflecting evolving agricultural practices. Multiple residue occurrence fluctuated dramatically, from 9.76% (2022) to a peak of 30.82% (2023), while single residue occurrence remained more stable, ranging between 14.06% and 22.90%. Several pesticides exceeded EU MRLs, including imazalil, chlorpropham, chlorpyrifos, imidacloprid, and profenofos. Despite these violations, the EFSA PRIMo 3.1 model’s chronic risk assessment showed that exposure levels for all population groups remained well below Acceptable Daily Intake (ADI) thresholds, with a maximum %ADI of 2.27% for chlorpyrifos in high-consumption regions. Full article

(This article belongs to the Special Issue New Challenges in the Monitoring, Risk Assessment and Management of Pesticides and Biocides in the “One Health Era”)

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17 pages, 6618 KB

Open AccessArticle

Sustainable Biochar–Alumina Composites for Electroanalytical Sensing of Herbicide and Antibiotic

by Nataša Jović-Jovičić, Tatjana Novaković, Tanja Barudžija, Marija Ajduković, Natalia Czerwinska, Chiara Giosuè and Zorica Mojović

J. Xenobiot. 2025, 15(6), 191; https://doi.org/10.3390/jox15060191 - 10 Nov 2025

Abstract

The problem of water pollution by various xenobiotics has gained a lot of interest due to their persistence, bioaccumulation potential, and toxic effects on ecosystems and humans. Electrochemical sensors offer a rapid, sensitive, and cost-effective method for on-site monitoring. In this research, an [...] Read more.

The problem of water pollution by various xenobiotics has gained a lot of interest due to their persistence, bioaccumulation potential, and toxic effects on ecosystems and humans. Electrochemical sensors offer a rapid, sensitive, and cost-effective method for on-site monitoring. In this research, an electrochemical sensor for xenobiotics based on a biochar–alumina composite is developed. The biochar–alumina composites were obtained by the air-limited pyrolysis of oak sawdust in the presence of alumina. Two types of alumina were mixed with oak sawdust in three ratios and subjected to thermal treatment. The resulting composites were characterized by SEM, N₂ adsorption isotherm, XRD, and electrochemical characterization. The detection of the herbicide pendimethalin and the antibiotic ciprofloxacin was investigated, and the composite with the optimal biochar/alumina ratio was selected for each of the xenobiotics studied. A linear current response was obtained for pendimethalin in the concentration range 0.7 μM to 70.0 μM with an LOD of 0.5 μM. A linear current response was obtained for ciprofloxacin in the concentration range 1.6 μM to 55.4 μM with an LOD of 0.63 μM. A comparison of the characterization results with the electroanalytical performance implied the importance of the hydrophobic/hydrophilic nature of the electrode surface for detecting the analyte under investigation. Full article

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25 pages, 1241 KB

Open AccessReview

A Double Challenge for Fish: The Combined Stress of Warming and Pharmaceuticals in Aquatic Systems

by Tiago Lourenço, Maria João Rocha, Eduardo Rocha and Tânia Vieira Madureira

J. Xenobiot. 2025, 15(6), 190; https://doi.org/10.3390/jox15060190 - 8 Nov 2025

Abstract

Aquatic ecosystems are increasingly threatened by multiple anthropogenic stressors, notably climate change and pollution by pharmaceuticals. Global warming is predicted to raise water temperatures by 2–5 °C by the end of the century. As ectotherms, fish are particularly vulnerable due to limited thermal [...] Read more.

Aquatic ecosystems are increasingly threatened by multiple anthropogenic stressors, notably climate change and pollution by pharmaceuticals. Global warming is predicted to raise water temperatures by 2–5 °C by the end of the century. As ectotherms, fish are particularly vulnerable due to limited thermal tolerance and temperature-dependent physiology. Pharmaceuticals are introduced into aquatic systems at concentrations ranging from ng·L⁻¹ to µg·L⁻¹, including widely prescribed classes such as antibiotics, hormones, analgesics, antifungals, and neuropsychiatric drugs. This narrative review synthesizes experimental evidence on the interactive effects of warming and pharmaceutical exposure in fish. Thirty-nine peer-reviewed studies published since 2005 were analyzed. The findings indicate that higher temperatures often exacerbate pharmaceutical-induced toxicity, altering oxidative stress, metabolism, reproduction, and behavior. Antibiotic-focused studies showed temperature-dependent acceleration of absorption, distribution, metabolism, and excretion, with shorter half-lives and reduced tissue persistence at higher temperatures. Estrogenic hormones and antifungals have been shown to interact with thermal regimes, disrupting reproductive physiology and skewing sex ratios, particularly in species exhibiting temperature-dependent sex determination. Neuropsychiatric drugs exhibited altered uptake and metabolism under warming conditions, resulting in increased brain bioaccumulation and behavioral alterations affecting ecological fitness. Analgesics and anti-inflammatories remain understudied despite their widespread use, with evidence suggesting synergistic effects on oxidative stress at elevated temperatures. Significant research gaps persist regarding chronic exposures, early developmental stages, ecologically relevant temperature scenarios, and underrepresented or absent drug classes, such as hypolipidemic drugs. Ultimately, broader and integrated approaches are needed to better understand and predict the ecological risks of pharmaceutical pollution in a warming world. Full article

(This article belongs to the Topic Aquatic Emerging Contaminants and Their Ecotoxicological Consequences, 2nd Edition)

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26 pages, 3817 KB

Open AccessArticle

Low Concentrations of Sulfoxaflor Do Not Adversely Affect mRNA Levels in Various Testicular Cells When Administered to Either Mature or Immature Mice

by Hayato Terayama, Kenta Nagahori, Daisuke Kiyoshima, Tsutomu Sato, Yoko Ueda, Masahito Yamamoto, Kaori Suyama, Tomoko Tanaka, Midori Yamamoto, Akifumi Eguchi, Emiko Todaka, Kenichi Sakurai, Shogo Hayashi, Haruki Yamada and Kou Sakabe

J. Xenobiot. 2025, 15(6), 189; https://doi.org/10.3390/jox15060189 - 7 Nov 2025

Abstract

Sulfoxaflor, an insecticide, acts on nicotinic acetylcholine receptors. It has a functional group similar to that of neonicotinoid insecticides, which are testicular toxicants. Recently, the adverse effects of sulfoxaflor on the testes have been reported in rats. This study aimed to address the [...] Read more.

Sulfoxaflor, an insecticide, acts on nicotinic acetylcholine receptors. It has a functional group similar to that of neonicotinoid insecticides, which are testicular toxicants. Recently, the adverse effects of sulfoxaflor on the testes have been reported in rats. This study aimed to address the lack of reports on sulfoxaflor administration in mice and its effects on the testes. ICR mice (3- and 10-week-old) were treated ad libitum with two different concentrations (10 and 100 mg/kg) of sulfoxaflor for 4 and 8 weeks. Histological analysis and real-time reverse transcription polymerase chain reaction were performed. Testis weights relative to body weights in the sulfoxaflor groups showed no significant difference compared to the control group. Testicular tissue in the sulfoxaflor groups was unchanged compared to that in the control group. The sulfoxaflor-treated group showed no significant differences in the mRNA expression of luteinizing hormone and follicle-stimulating hormone in the pituitary gland compared to the control group. Furthermore, no significant differences were noted in the mRNA expression levels of various gene markers in the testes between the sulfoxaflor-treated and control groups. These markers include those related to Leydig cells, testosterone synthesis, Sertoli cells, proliferating cells, meiotic cells, pachytene spermatocytes, round spermatids, apoptotic cells, antioxidant enzymes, oxidative stress factors, and mitochondrial function. In contrast to findings in rats, which showed testicular toxicity, sulfoxaflor administration at low concentrations did not adversely affect intratesticular cells in either mature or immature mice at the doses and time points examined. In the future, we would like to conduct research on high concentrations of sulfoxaflor by changing the administration method. Full article

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