Browsing by Author "Jones, Kate"
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- Aplicação da biomonitorização humana para avaliação da exposição ocupacional a hidrocarbonetos aromáticos policíclicos na Europa: uma revisão da literaturaPublication . Louro, Henriqueta; Gomes, Bruno Costa; Saber, Anne Thoustrup; Iamiceli, Anna Laura; Göen, Thomas; Jones, Kate; Katsonouri, Andromachi; Neophytou, Christiana; Vogel, Ulla; Ventura, Célia; Oberemm, Axel; Duca, Radu Corneliu; Fernandez, Mariana F.; Olea, Nicolas; Santonen, Tiina; Viegas, Susana; Silva, Maria JoãoOs hidrocarbonetos aromáticos policíclicos (HAPs) são produtos químicos com impacto em saúde ocupacional, pelo que a avaliação da exposição humana através de estudos de biomonitorização tem aumentado nos últimos anos. No entanto, os dados obtidos são ainda insuficientes para os reguladores e decisores políticos. Este trabalho, no contexto da Iniciativa Europeia em Biomonitorização Humana (HBM4EU), descreve uma revisão da literatura sobre a exposição ocupacional aos HAPs na Europa, entre 2008 e 2022, com o objetivo de identificar as vantagens e limitações dos vários biomarcadores de exposição e /ou de efeito, bem como o conhecimento em falta para melhorar a regulamentação. Os resultados da análise dos 42 artigos elegíveis para inclusão nesta revisão demonstram que o biomarcador de exposição mais utilizado é o 1-hidroxipireno urinário, sendo os biomarcadores de efeito mais comuns, biomarcadores de stresse oxidativo e genotoxicidade. Globalmente, verificou-se a necessidade de desenvolver novas abordagens de recolha de dados e amostras, bem como a seleção apropriada de biomarcadores de forma a obter dados fiáveis e comparáveis em diferentes setores industriais. Além disso, a aplicação de biomarcadores de efeito contribui para a identificação de ambientes de trabalho ou atividades de alto risco, possibilitando medidas de mitigação e gestão de risco.
- Assessment of occupational exposure to hexavalent chromium – recommendations from HBM4EU chromate studyPublication . Santonen, Tiina; Bocca, Beatrice; Bousoumah, Radia; Duca, Radu Corneliu; Galea, Karen S.; Godderis, Lode; Göen, Thomas; Hardy, Emilie; Iavicoli, Ivo; Janasik, Beata; Jones, Kate; Leese, Elizabeth; Leso, Veruscka; Louro, Henriqueta; Majery, Nicole; Ndaw, Sophie; Pinhal, Hermínia; Porras, Simo P.; Scheepers, Paul T.J.; Sepai, Ovnair; Silva, Maria João; van Nieuwenhuyse, An; Verdonck, Jelle; Viegas, Susana; Wasowicz, WojciechIntroduction: Hexavalent chromium (Cr(VI)) is an important occupational carcinogen. In addition to air monitoring biomonitoring is commonly applied to monitor exposure to Cr(VI). Within the EU biomonitoring initiative, HBM4EU, we explored the applicability of different biomonitoring methods in the assessment of occupational exposure to Cr(VI) in welding and surface treatment activities. Materials and Methods: A multi-center cross-sectional study was performed in Belgium, Finland, France, Italy, Poland, Portugal, the Netherlands, Luxembourg and United Kingdom. Harmonized procedures were used to collect biological and industrial hygiene samples. Contextual information was collected using questionnaires. Altogether 602 exposed workers and controls were included in the study. Exposure biomarkers studied included urinary, red blood cell (RBC) and plasma Cr, and exhaled breath condensate (EBC) Cr(VI)/Cr(III). In addition, number of effect biomarkers were studied. Results: All exposure markers showed highest exposure levels among chrome plating workers. U-Cr showed a good correlation with air Cr(VI) in bath platers and welders. Observed low correlations between different exposure biomarkers suggest that these approaches are not interchangeable but rather complementary. Conclusions: U-Cr showed its value as the first approach for the assessment of internal exposure to Cr(VI). We recommend pre- and post-shift samples for low exposure levels. RBC/P-Cr and EBC-Cr(VI)/Cr(III) provide additional information when more specific information on exposure is needed. The current exposure levels require analytical methods with high sensitivity.
- Developing human biomonitoring as a 21st century toolbox within the European exposure science strategy 2020-2030Publication . Zare Jeddi, Maryam; Hopf, Nancy B.; Louro, Henriqueta; Viegas, Susana; Galea, Karen S.; Pasanen-Kase, Robert; Santonen, Tiina; Mustieles, Vicente; Fernandez, Mariana F.; Verhagen, Hans; Bopp, Stephanie K.; Antignac, Jean Philippe; David, Arthur; Mol, Hans; Barouki, Robert; Audouze, Karine; Duca, Radu-Corneliu; Fantke, Peter; Scheepers, Paul; Ghosh, Manosij; Van Nieuwenhuyse, An; Lobo Vicente, Joana; Trier, Xenia; Rambaud, Loïc; Fillol, Clémence; Denys, Sebastien; Conrad, André; Kolossa-Gehring, Marike; Paini, Alicia; Arnot, Jon; Schulze, Florian; Jones, Kate; Sepai, Ovnair; Ali, Imran; Brennan, Lorraine; Benfenati, Emilio; Cubadda, Francesco; Mantovani, Alberto; Bartonova, Alena; Connolly, Alison; Slobodnik, Jaroslav; Bruinen de Bruin, Yuri; van Klaveren, Jacob; Palmen, Nicole; Dirven, Hubert; Husøy, Trine; Thomsen, Cathrine; Virgolino, Ana; Röösli, Martin; Gant, Tim; von Goetz, Natalie; Bessems, JosHuman biomonitoring (HBM) is a crucial approach for exposure assessment, as emphasised in the European Commission’s Chemicals Strategy for Sustainability (CSS). HBM can help to improve chemical policies in five major key areas: (1) assessing internal and aggregate exposure in different target populations; 2) assessing exposure to chemicals across life stages; (3) assessing combined exposure to multiple chemicals (mixtures); (4) bridging regulatory silos on aggregate exposure; and (5) enhancing the effectiveness of risk management measures. In this strategy paper we propose a vision and a strategy for the use of HBM in chemical regulations and public health policy in Europe and beyond. We outline six strategic objectives and a roadmap to further strengthen HBM approaches and increase their implementation in the regulatory risk assessment of chemicals to enhance our understanding of exposure and health impacts, enabling timely and targeted policy interventions and risk management. These strategic objectives are: 1) further development of sampling strategies and sample preparation; 2) further development of chemical-analytical HBM methods; 3) improving harmonisation throughout the HBM research life cycle; 4) further development of quality control / quality assurance throughout the HBM research life cycle; 5) obtain sustained funding and reinforcement by legislation; and 6) extend target-specific communication with scientists, policymakers, citizens and other stakeholders. HBM approaches are essential in risk assessment to address scientific, regulatory and societal challenges. HBM requires full and strong support from the scientific and regulatory domain to reach its full potential in public and occupational health assessment and in regulatory decision-making.
- FAIR environmental and health registry (FAIREHR)- supporting the science to policy interface and life science research, development and innovationPublication . Zare Jeddi, Maryam; Galea, Karen S.; Viegas, Susana; Fantke, Peter; Louro, Henriqueta; Theunis, Jan; Govarts, Eva; Denys, Sébastien; Fillol, Clémence; Rambaud, Loïc; Kolossa-Gehring, Marike; Santonen, Tiina; van der Voet, Hilko; Ghosh, Manosij; Costa, Carla; Teixeira, João Paulo; Verhagen, Hans; Duca, Radu-Corneliu; Van Nieuwenhuyse, An; Jones, Kate; Sams, Craig; Sepai, Ovnair; Tranfo, Giovanna; Bakker, Martine; Palmen, Nicole; van Klaveren, Jacob; Scheepers, Paul T. J.; Paini, Alicia; Canova, Cristina; von Goetz, Natalie; Katsonouri, Andromachi; Karakitsios, Spyros; Sarigiannis, Dimosthenis A.; Bessems, Jos; Machera, Kyriaki; Harrad, Stuart; Hopf, Nancy B.The environmental impact on health is an inevitable by-product of human activity. Environmental health sciences is a multidisciplinary field addressing complex issues on how people are exposed to hazardous chemicals that can potentially affect adversely the health of present and future generations. Exposure sciences and environmental epidemiology are becoming increasingly data-driven and their efficiency and effectiveness can significantly improve by implementing the FAIR (findable, accessible, interoperable, reusable) principles for scientific data management and stewardship. This will enable data integration, interoperability and (re)use while also facilitating the use of new and powerful analytical tools such as artificial intelligence and machine learning in the benefit of public health policy, and research, development and innovation (RDI). Early research planning is critical to ensuring data is FAIR at the outset. This entails a well-informed and planned strategy concerning the identification of appropriate data and metadata to be gathered, along with established procedures for their collection, documentation, and management. Furthermore, suitable approaches must be implemented to evaluate and ensure the quality of the data. Therefore, the 'Europe Regional Chapter of the International Society of Exposure Science' (ISES Europe) human biomonitoring working group (ISES Europe HBM WG) proposes the development of a FAIR Environment and health registry (FAIREHR) (hereafter FAIREHR). FAIR Environment and health registry offers preregistration of studies on exposure sciences and environmental epidemiology using HBM (as a starting point) across all areas of environmental and occupational health globally. The registry is proposed to receive a dedicated web-based interface, to be electronically searchable and to be available to all relevant data providers, users and stakeholders. Planned Human biomonitoring studies would ideally be registered before formal recruitment of study participants. The resulting FAIREHR would contain public records of metadata such as study design, data management, an audit trail of major changes to planned methods, details of when the study will be completed, and links to resulting publications and data repositories when provided by the authors. The FAIREHR would function as an integrated platform designed to cater to the needs of scientists, companies, publishers, and policymakers by providing user-friendly features. The implementation of FAIREHR is expected to yield significant benefits in terms of enabling more effective utilization of human biomonitoring (HBM) data.
- Guidance on minimum information requirements (MIR) from designing to reporting human biomonitoring (HBM)Publication . Jeddi, Maryam Zare; Galea, Karen S.; Ashley-Martin, Jillian; Nassif, Julianne; Pollock, Tyler; Poddalgoda, Devika; Kasiotis, Konstantinos M.; Esteban-López, Marta; Chung, Ming Kei; Kil, Jihyon; Jones, Kate; Covaci, Adrian; Ait Bamai, Yu; Fernandez, Mariana F.; Pasanen Kase, Robert; Louro, Henriqueta; Silva, Maria J.; Santonen, Tiina; Katsonouri, Andromachi; Castaño, Argelia; Quirós-Alcalá, Lesliam; Argelia Castaño; Lesliam Quirós-Alcalá; Lin, Elizabeth Ziying; Pollitt, Krystal; Ana Virgolino; Virgolino, Ana; Scheepers, Paul T.J; Mustieles, Vicente; Cañas-Portilla, Ana Isabel; Viegas, Susana; von Goetz, Natalie; Sepai, Ovnair; Bird, Emily; Gӧen, Thomas; Fustinoni, Silvia; Ghosh, Manosij; Dirven, Hubert; Kwon, Jung-Hwan; Carignan, Courtney; Mizuno, Yuki; Ito, Yuki; Xia, Yankai; Shoji F. Nakayama; Nakayama, Shoji F.; Makris, Konstantinos C.; Parsons, Patrick J.; Gonzales, Melissa; Bader, Michael; Dusinska, Maria; Menouni, Aziza; Duca, Radu Corneliu; Chbihi, Kaoutar; El Jaafari, Samir; Godderis, Lode; van Nieuwenhuyse, An; Qureshi, Asif; Ali, Imran; Costa Trindade, Carla; Teixeira, Joao Paulo; Bartonova, Alena; Tranfo, Giovanna; Audouze, Karine; Verpaele, Steven; LaKind, Judy; Mol, Hans; Bessems, Jos; Magagna, Barbara; Nasution Waras, Maisarah; Connolly, Alison; Nascarella, Marc; Yang, Wonho; Huang, Po-Chin; Heussen, Henri; Goksel, Ozlem; Yunesian, Masud; Yeung, Leo W.Y.; Souza, Gustavo; Vekic, Ana Maria; Haynes, Erin N.; Hopf, Nancy B.Human biomonitoring (HBM) provides an integrated chemical exposures assessment considering all routes and sources of exposure. The accurate interpretation and comparability of biomarkers of exposure and effect depend on harmonized, quality-assured sampling, processing, and analysis. Currently, the lack of broadly accepted guidance on minimum information required for collecting and reporting HBM data, hinders comparability between studies. Furthermore, it prevents HBM from reaching its full potential as a reliable approach for assessing and managing the risks of human exposure to chemicals. The European Chapter of the International Society of Exposure Science HBM Working Group (ISES Europe HBM working group) has established a global human biomonitoring community network (HBM Global Network) to develop a guidance to define the minimum information to be collected and reported in HBM, called the “Minimum Information Requirements for Human Biomonitoring (MIR-HBM)”. This work builds on previous efforts to harmonize HBM worldwide. The MIR-HBM guidance covers all phases of HBM from the design phase to the effective communication of results. By carefully defining MIR for all phases, researchers and health professionals can make their HBM studies and programs are robust, reproducible, and meaningful. Acceptance and implementation of MIR-HBM Guidelines in both the general population and occupational fields would improve the interpretability and regulatory utility of HBM data. While implementation challenges remain—such as varying local capacities, and ethical and legal differences at the national levels, this initiative represents an important step toward harmonizing HBM practice and supports an ongoing dialogue among policymakers, legal experts, and scientists to effectively address these challenges. Leveraging the data and insights from HBM, policymakers can develop more effective strategies to protect public health and ensure safer working environments.
- HBM4EU chromates study - Overall results and recommendations for the biomonitoring of occupational exposure to hexavalent chromiumPublication . Santonen, Tiina; Porras, Simo P.; Bocca, Beatrice; Bousoumah, Radia; Duca, Radu Corneliu; Galea, Karen S.; Godderis, Lode; Göen, Thomas; Hardy, Emilie; Iavicoli, Ivo; Janasik, Beata; Jones, Kate; Leese, Elizabeth; Leso, Veruscka; Louro, Henriqueta; Majery, Nicole; Ndaw, Sophie; Pinhal, Hermínia; Ruggieri, Flavia; Silva, Maria João; van Nieuwenhuyse, An; Verdonck, Jelle; Viegas, Susana; Wasowicz, Wojciech; Sepai, Ovnair; Scheepers, Paul T.J.; Aimonen, Kukka; Antoine, Guillaume; Anzion, Rob; Burgart, Manuella; Castaño, Argelia; Cattaneo, Andrea; Cavallo, Domenico Maria; De Palma, Giuseppe; Denis, Flavien; Gambelunghe, Angela; Gomes, Bruno; Hanser, Ogier; Helenius, Riikka; Ladeira, Carina; López, Marta Esteban; Lovreglio, Piero; Marsan, Philippe; Melczer, Mathieu; Nogueira, Ana; Pletea, Elisabeta; Poels, Katrien; Remes, Jouko; Ribeiro, Edna; Santos, Sílvia Reis; Schaefers, Françoise; Spankie, Sally; Spoek, Robert; Rizki, Mohamed; Rousset, Davy; van Dael, Maurice; Veijalainen, Henna; HBM4EU chromates study teamExposure to hexavalent chromium [Cr(VI)] may occur in several occupational activities, e.g., welding, Cr(VI) electroplating and other surface treatment processes. The aim of this study was to provide EU relevant data on occupational Cr(VI) exposure to support the regulatory risk assessment and decision-making. In addition, the capability and validity of different biomarkers for the assessment of Cr(VI) exposure were evaluated. The study involved nine European countries and involved 399 workers in different industry sectors with exposures to Cr(VI) such as welding, bath plating, applying or removing paint and other tasks. We also studied 203 controls to establish a background in workers with no direct exposure to Cr(VI). We applied a cross-sectional study design and used chromium in urine as the primary biomonitoring method for Cr(VI) exposure. Additionally, we studied the use of red blood cells (RBC) and exhaled breath condensate (EBC) for biomonitoring of exposure to Cr(VI). Personal measurements were used to study exposure to inhalable and respirable Cr(VI) by personal air sampling. Dermal exposure was studied by taking hand wipe samples. The highest internal exposures were observed in the use of Cr(VI) in electrolytic bath plating. In stainless steel welding the internal Cr exposure was clearly lower when compared to plating activities. We observed a high correlation between chromium urinary levels and air Cr(VI) or dermal total Cr exposure. Urinary chromium showed its value as a first approach for the assessment of total, internal exposure. Correlations between urinary chromium and Cr(VI) in EBC and Cr in RBC were low, probably due to differences in kinetics and indicating that these biomonitoring approaches may not be interchangeable but rather complementary. This study showed that occupational biomonitoring studies can be conducted successfully by multi-national collaboration and provide relevant information to support policy actions aiming to reduce occupational exposure to chemicals.
- HBM4EU chromates study - Reflection and lessons learnt from designing and undertaking a collaborative European biomonitoring study on occupational exposure to hexavalent chromiumPublication . Galea, Karen S.; Porras, Simo P.; Viegas, Susana; Bocca, Beatrice; Bousoumah, Radia; Duca, Radu Corneliu; Godderis, Lode; Iavicoli, Ivo; Janasik, Beata; Jones, Kate; Knudsen, Lisbeth E.; Leese, Elizabeth; Leso, Veruscka; Louro, Henriqueta; Ndaw, Sophie; Ruggieri, Flavia; Sepai, Ovnair; Scheepers, Paul T.J.; Silva, Maria J.; Wasowicz, Wojciech; Santonen, TiinaThe EU human biomonitoring initiative, HBM4EU, aims to co-ordinate and advance human biomonitoring (HBM) across Europe. As part of HBM4EU, we presented a protocol for a multicentre study to characterize occupational exposure to hexavalent chromium (Cr(VI)) in nine European countries (HBM4EU chromates study). This study intended to collect data on current occupational exposure and to test new indicators for chromium (Cr) biomonitoring (Cr(VI) in exhaled breath condensate and Cr in red blood cells), in addition to traditional urinary total Cr analyses. Also, data from occupational hygiene samples and biomarkers of early biological effects, including genetic and epigenetic effects, was obtained, complementing the biomonitoring information. Data collection and analysis was completed, with the project findings being made separately available. As HBM4EU prepares to embark on further European wide biomonitoring studies, we considered it important to reflect on the experiences gained through our harmonised approach. Several practical aspects are highlighted for improvement in future studies, e.g., more thorough/earlier training on the implementation of standard operating procedures for field researchers, training on the use of the data entry template, as well as improved company communications. The HBM4EU chromates study team considered that the study had successfully demonstrated the feasibility of conducting a harmonised multicentre investigation able to achieve the research aims and objectives. This was largely attributable to the engaged multidisciplinary network, committed to deliver clearly understood goals. Such networks take time and investment to develop, but are priceless in terms of their ability to deliver and facilitate knowledge sharing and collaboration.
- HBM4EU Chromates Study: Determinants of Exposure to Hexavalent Chromium in Plating, Welding and Other Occupational SettingsPublication . Viegas, Susana; Martins, Carla; Bocca, Beatrice; Bousoumah, Radia; Duca, Radu Corneliu; Galea, Karen S.; Godderis, Lode; Iavicoli, Ivo; Janasik, Beata; Jones, Kate; Leese, Elizabeth; Leso, Veruscka; Ndaw, Sophie; van Nieuwenhuyse, An; Poels, Katrien; Porras, Simo P.; Ruggieri, Flavia; Silva, Maria João; Verdonck, Jelle; Wasowicz, Wojciech; Scheepers, Paul T.J.; Santonen, Tiina; HBM4EU Chromates Study TeamWork-related exposures in industrial processing of chromate (chrome plating, surface treatment and welding) raise concern regarding the health risk of hexavalent chromium (Cr(VI)). In this study, performed under the HBM4EU project, we focused on better understanding the determinants of exposure and recognising how risk management measures (RMMs) contribute to a reduction in exposure. HBM and occupational hygiene data were collected from 399 workers and 203 controls recruited in nine European countries. Urinary total chromium (U-Cr), personal inhalable and respirable dust of Cr and Cr(VI) and Cr from hand wipes were collected. Data on the RMMs were collected by questionnaires. We studied the association between different exposure parameters and the use of RMMs. The relationship between exposure by inhalation and U-Cr in different worker groups was analysed using regression analysis and found a strong association. Automatisation of Cr electroplating dipping explained lower exposure levels in platers. The use of personal protective equipment resulted in lower U-Cr levels in welding, bath plating and painting. An effect of wearing gloves was observed in machining. An effect of local exhaust ventilation and training was observed in welding. Regression analyses showed that in platers, exposure to air level of 5 µg/m3 corresponds to U-Cr level of 7 µg/g creatinine. In welders, the same inhalation exposure resulted in lower U-Cr levels reflecting toxicokinetic differences of different chromium species.
- HBM4EU diisocyanates study – results from a collaborative European human biological monitoring study on occupational exposurePublication . Jones, Kate; Galea, K.S.; Scholten, B.; Loikala, M.; Porras, S.P.; Bousoumah, R.; Ndaw, S.; Leese, E.; Louro, Henriqueta; Silva, Maria João; Viegas, S.; Godderis, L.; Verdonck, J.; Poels, K.; Gӧen, T.; Duca, R.C.; Santonen, T.; HBM4EU diisocyanates study teamDiisocyanates have long been a leading cause of occupational asthma in Europe, and they are now restricted under the REACH regulation. As part of the European Human Biomonitoring project (HBM4EU), we conducted an occupational exposure survey on diisocyanates in five European countries. 116 workers were recruited across four job categories: (1) Use of diisocyanates-based glues, adhesives or sealants; (2) Polyurethane coating of large surfaces; (3) Spray application of urethane foam; (4) Spray coating of vehicles. Fifty controls (within the same companies) were also recruited. The study collected urine samples (analysed for diisocyanate-derived diamines and lysine conjugates), blood samples (analysed for diisocyanate-specific antibodies, inflammatory markers, and diisocyanate-specific haemoglobin adducts), buccal cells (micronucleus analysis) and measured fractional exhaled nitric oxide (FeNO). In addition, occupational hygiene measurements (air monitoring and skin wipe samples) and questionnaires were collected. Initial results showed significant airborne exposures for some tasks (spraying polyurethane foam insulation), with elevated urinary diamine levels compared to controls (p<0.001), and detection of the specific MDI-lysine conjugate. Most workers did not show increased FeNO, but some individuals had elevated results (controls max 30 ppb (n=49), workers max 161 ppb (n=108). Further ongoing data analysis will be presented.
- HBM4EU Diisocyanates Study-Research Protocol for a Collaborative European Human Biological Monitoring Study on Occupational ExposurePublication . Jones, Kate; Galea, Karen S.; Scholten, Bernice; Loikala, Marika; Porras, Simo P.; Bousoumah, Radia; Ndaw, Sophie; Leese, Elizabeth; Louro, Henriqueta; Silva, Maria João; Viegas, Susana; Godderis, Lode; Verdonck, Jelle; Poels, Katrien; Gӧen, Thomas; Duca, Radu-Corneliu; Santonen, Tiina; HBM4EU Diisocyanates Study TeamDiisocyanates have long been a leading cause of occupational asthma in Europe, and recently, they have been subjected to a restriction under the REACH regulations. As part of the European Human Biomonitoring project (HBM4EU), we present a study protocol designed to assessoccupational exposure to diisocyanates in five European countries. The objectives of the study are to assess exposure in a number of sectors that have not been widely reported on in the past (for example, the manufacturing of large vehicles, such as in aerospace; the construction sector, where there are potentially several sources of exposure (e.g., sprayed insulation, floor screeds); the use of MDI-based glues, and the manufacture of spray adhesives or coatings) to test the usability of different biomarkers in the assessment of exposure to diisocyanates and to provide background data for regulatory purposes. The study will collect urine samples (analysed for diisocyanate-derived diamines and acetyl–MDI–lysine), blood samples (analysed for diisocyanate-specific IgE and IgG antibodies, inflammatory markers, and diisocyanate-specific Hb adducts for MDI), and buccal cells(micronucleus analysis) and measure fractional exhaled nitric oxide. In addition, occupational hygienemeasurements (air monitoring and skin wipe samples) and questionnaire data will be collected. The protocol is harmonised across the participating countries to enable pooling of data, leading to better and more robust insights and recommendations.