Suchergebnisse

Abstract
This PDC explores the crucial role of occupational hygiene within the broader context of sustainable development and the United Nations' Sustainable Development Goals (SDGs). Occupational hygiene, as a multidisciplinary field, contributes significantly to several SDGs, including those related to health and well-being, decent work, and responsible consumption and production. In this PDC we examine the intersections between occupational hygiene and various SDGs, and underscores the importance of viewing the SDGs as a dynamic and interconnected framework, where progress in one area can have ripple effects on others. Occupational hygiene is positioned at the nexus of these interrelated goals, offering insights and solutions that contribute to the achievement of sustainable development. By adopting a systems-thinking approach and recognizing the complexity of the global challenges we face, stakeholders can work together to develop more effective and lasting solutions that benefit both society and the environment.
Join this PDC for:
Engaging discussions: Centered around real-world topics.
Global Relevance: Explore how SDGs align with real-world occupational hygiene scenarios, ensuring you're equipped to make an impact on a global scale.
Practical Assignments: Apply your knowledge through hands-on assignments tackling actual workplace situations. From risk assessments to sustainable workplace strategies, you'll gain practical and problem-solving skills that directly benefit your career.
Regional Focus: Tailored assignments will address regional concerns, so you can make a tangible difference while contributing to the broader SDGs.
Networking Opportunities: Build valuable connections with professionals who share your passion for sustainable, safe workplaces. Harness the power of a diverse network for ongoing support and inspiration.

Abstract
Exacerbating novel and known occupational hazards, climate change is threatening the occupational setting and OEHS professionals are being forced to adapt to the quickly changing world. Faced with the question of how to minimize workers exposure to the hazards, many professionals are left wondering if there are others facing similar issues to collaborate with. In this workshop, OEHS professionals from around the world will participate in a world cafe by rotating through 5 tabletop conversations exploring the most pressing challenges addressing climate change exacerbated hazards in the occupational setting. Each table will be representative of a different region of the world and facilitated by an OEHS professional from that region. Facilitators will share their experiences and encourage others to share their experiences and ideas in addressing the hazards. Dialogue will promote collaboration, knowledge sharing that will leave participants with a network of support and new ideas to enact in their workplace. The concerns and ideas taken from the conversation will be used to develop a summary presenting the discussed major occupational hazards exacerbated by climate change and ideas to address occupational hygiene and worker health protection through the minimization of worker exposure to those discussed hazardous agents.

The global energy system is undergoing a major transition, and in energy planning and decision-making across governments, industry and academia, models play a crucial role. Because of their policy relevance and contested nature, the transparency and open availability of energy models and data are of particular importance. Here we provide a practical how-to guide based on the collective experience of members of the Open Energy Modelling Initiative (Openmod). We discuss key steps to consider when opening code and data, including determining intellectual property ownership, choosing a licence and appropriate modelling languages, distributing code and data, and providing support and building communities. After illustrating these decisions with examples and lessons learned from the community, we conclude that even though individual researchers' choices are important, institutional changes are still also necessary for more openness and transparency in energy research.

The global energy system is undergoing a major transition, and in energy planning and decision-making across governments, industry and academia, models play a crucial role. Because of their policy relevance and contested nature, the transparency and open availability of energy models and data are of particular importance. Here we provide a practical how-to guide based on the collective experience of members of the Open Energy Modelling Initiative (Openmod). We discuss key steps to consider when opening code and data, including determining intellectual property ownership, choosing a licence and appropriate modelling languages, distributing code and data, and providing support and building communities. After illustrating these decisions with examples and lessons learned from the community, we conclude that even though individual researchers' choices are important, institutional changes are still also necessary for more openness and transparency in energy research. (C) 2017 The Author(s). Published by Elsevier Ltd. This is an open access article under the CC BY license.

The global energy system is undergoing a major transition, and in energy planning and decision-making across governments, industry and academia, models play a crucial role. Because of their policy relevance and contested nature, the transparency and open availability of energy models and data are of particular importance. Here we provide a practical how-to guide based on the collective experience of members of the Open Energy Modelling Initiative (Openmod). We discuss key steps to consider when opening code and data, including determining intellectual property ownership, choosing a licence and appropriate modelling languages, distributing code and data, and providing support and building communities. After illustrating these decisions with examples and lessons learned from the community, we conclude that even though individual researchers' choices are important, institutional changes are still also necessary for more openness and transparency in energy research.

The global energy system is undergoing a major transition, and in energy planning and decision-making across governments, industry and academia, models play a crucial role. Because of their policy relevance and contested nature, the transparency and open availability of energy models and data are of particular importance. Here we provide a practical how-to guide based on the collective experience of members of the Open Energy Modelling Initiative (Openmod). We discuss key steps to consider when opening code and data, including determining intellectual property ownership, choosing a licence and appropriate modelling languages, distributing code and data, and providing support and building communities. After illustrating these decisions with examples and lessons learned from the community, we conclude that even though individual researchers' choices are important, institutional changes are still also necessary for more openness and transparency in energy research.

The global energy system is undergoing a major transition, and in energy planning and decision-making across governments, industry and academia, models play a crucial role. Because of their policy relevance and contested nature, the transparency and open availability of energy models and data are of particular importance. Here we provide a practical how-to guide based on the collective experience of members of the Open Energy Modelling Initiative (Openmod). We discuss key steps to consider when opening code and data, including determining intellectual property ownership, choosing a licence and appropriate modelling languages, distributing code and data, and providing support and building communities. After illustrating these decisions with examples and lessons learned from the community, we conclude that even though individual researchers' choices are important, institutional changes are still also necessary for more openness and transparency in energy research.

The global plan to eradicate hepatitis C virus (HCV) led by the World Health Organization outlines the use of highly effective direct‐acting antiviral drugs (DAAs) to achieve elimination by 2030. Identifying individuals with active disease and investigation of the breadth of diversity of the virus in sub‐Saharan Africa (SSA) is essential as genotypes in this region (where very few clinical trials have been carried out) are distinct from those found in other parts of the world. We undertook a population‐based, nested case‐control study in Uganda and obtained additional samples from the Democratic Republic of Congo (DRC) to estimate the prevalence of HCV, assess strategies for disease detection using serological and molecular techniques, and characterize genetic diversity of the virus. Using next‐generation and Sanger sequencing, we aimed to identify strains circulating in East and Central Africa. A total of 7,751 Ugandan patients were initially screened for HCV, and 20 PCR‐positive samples were obtained for sequencing. Serological assays were found to vary significantly in specificity for HCV. HCV strains detected in Uganda included genotype (g) 4k, g4p, g4q, and g4s and a newly identified unassigned g7 HCV strain. Two additional unassigned g7 strains were identified in patients originating from DRC (one partial and one full open reading frame sequence). These g4 and g7 strains contain nonstructural (ns) protein 3 and 5A polymorphisms associated with resistance to DAAs in other genotypes. Clinical studies are therefore indicated to investigate treatment response in infected patients. Conclusion: Although HCV prevalence and genotypes have been well characterized in patients in well‐resourced countries, clinical trials are urgently required in SSA, where highly diverse g4 and g7 strains circulate. ; Supported by the Medical Research Council (MRC) (MC_UU_12014/1) and Wellcome Trust (102789/Z/13/A) (to E.T.). M.S. is funded by the Wellcome Trust Sanger Institute (WT098051), the National Institute for Health Research Cambridge Biomedical Research Centre, the African Partnership for Chronic Disease Research (MRC UK partnership grant number MR/K013491/1), and the UK MRC (G0901213‐92157, G0801566). P.K. is funded by the UK MRC and the UK Department for International Development (DFID) under the MRC/DFID Concordat agreement. J.S. is funded by the MRC Confidence in Concept award to the University of Glasgow (MC PC 16045). G.M. is a Gates Cambridge Scholar supported by the Gates Cambridge Trust.