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ZeroPM - H2020
Norway
Приєднався 22 бер 2022
The official channel of the H2020 research project ZeroPM: Zero Pollution of Persistent, Mobile Substances.
ZeroPM is all about protecting water from persistent and mobile substances. ZeroPM is the pathfinding project enabling the ambitions of the European Union's Green Deal strategy of zero pollution of persistent and mobile substances of water to become an on-the-ground reality. ZeroPM will interlink and synergize three strategies to protect the environment and human health from persistent, mobile substances: Prevent, Prioritize and Remove.
For more information, visit our website at zeropm.eu
This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 101036756
ZeroPM is all about protecting water from persistent and mobile substances. ZeroPM is the pathfinding project enabling the ambitions of the European Union's Green Deal strategy of zero pollution of persistent and mobile substances of water to become an on-the-ground reality. ZeroPM will interlink and synergize three strategies to protect the environment and human health from persistent, mobile substances: Prevent, Prioritize and Remove.
For more information, visit our website at zeropm.eu
This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 101036756
ZeroPM pieces #26: Assessing Mobility Using Data Science
In ZeroPM pieces #26 Sivani Baskaran, a Postdoctoral Researcher at Norwegian Geotechnical Institute (NGI), presents how data science approaches can be used to assess mobility, as part of #PMT Assessment.
You can download the slides of this presentation here: zenodo.org/records/13946235
Experimental and estimated KOC data was extracted from eChemPortal using the property search. Experimental partition ratios (KOC, KOW, and DOW) and pKa data submitted to REACH dossiers was obtained from the OECD QSAR Toolbox. Additional experimental data was also obtained from the training and validation data used by different property prediction models. The chemical identifiers associated with each of the entries was then processed using the Cleanventory process to obtain the associated InChI value. The KOC is estimated using several existing tools, such as the OPERA model which uses a k-nearest neighbour approach, the US EPA’s EPI Suite KOCWIN models which includes two fragment-based models using the KOW and molecular connectivity index, multiple poly-parameter linear free energy relationships (PP-LFERs), and single-parameter linear free energy relationships (SP-LFERs). These models are parameterized for neutral organic compounds and so may not work so well for ionizable chemicals. Any chemical with a pKa is thus considered ionizable. pKa can be predicted using OPERA and ACD/Labs. KOC values are predicted for all 18M+ SMILES using all available predictions.
As a result of the data extraction and prediction process, we have millions of KOC values associated with the chemicals on the global chemical inventory. The initial analysis of the experimental KOC data indicates that the data reported and extracted from REACH dossiers using the eChemPortal is easily misinterpreted because the nuance and details included in the original dossiers is not included in the extracted files. As a result, it is difficult to identify errors without referring directly to the original REACH dossier. In some instances, the extracted data is indicated to be an experimental value; however, within the original dossier the value is noted to be a prediction. While these extreme cases are easily identified, we can not rely on the data curation of the eChemPortal to filter experimental and estimated data. In addition, the extracted data set includes repeated data which is not filtered out during the data extraction process by eChemPortal. All duplicate values will bias the analysis using the available data. Therefore, the data is cross-referenced with data from the OECD QSAR Toolbox. If property values for a given chemical matched up to 2 decimal places, they were considered duplicated and removed from the dataset. Data obtained directly from peer-reviewed literature sources are considered to be the most reliable, followed by experimental data from the QSAR Toolbox. Finally, data from the REACH Dossiers and estimated data from This process resulted in a dataset of highly reliable property data from published literature and REACH dossiers and less reliable data from eChemPortal.
Much of the experimental data and data obtained from the OECD's eChemPortal and QSAR Toolbox are not reported as point values. These values indicate the value of the property will be above or below a particular threshold or between a particular set of numbers. We use a Bayesian analysis approach to determine a consensus experimental value (and its uncertainty) based on all available data. By including all data in our approach as is, we can use a maximum of data for analysis and can obtain a better understanding of the uncertainty of the final value, and for KOC values in general.
In previous work, we showed in a proof of concept that this Bayesian analysis approach to deriving consensus values can work to determine a probability distribution for the KOC of individual chemicals. With the lack of reliability in "experimental" values extracted from the eChemPortal and a distinct lack of meta data we are currently applying this approach to predict and assess the probability of each of the 340,000 chemicals in the global chemical inventory as being mobile, very mobile, or not mobile. Consensus based physical-chemical property data is preferable to using a single estimated or experimental value where reliable and applicable models are available.
In the ZeroPM pieces video series, individual researchers in the project will tell you about one piece of the ZeroPM puzzle they are working on. These were filmed as mini-lunch time seminars within the ZeroPM project, and are being released in different seasons via this youtube channel.
For more info on ZeroPM, please visit our website at www.zeropm.eu.
#PFAS #PMT #zeropollution #environmentalchemistry #hazard #risk #bioassays #endocrinedisruptors
ZeroPM has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 101036756
You can download the slides of this presentation here: zenodo.org/records/13946235
Experimental and estimated KOC data was extracted from eChemPortal using the property search. Experimental partition ratios (KOC, KOW, and DOW) and pKa data submitted to REACH dossiers was obtained from the OECD QSAR Toolbox. Additional experimental data was also obtained from the training and validation data used by different property prediction models. The chemical identifiers associated with each of the entries was then processed using the Cleanventory process to obtain the associated InChI value. The KOC is estimated using several existing tools, such as the OPERA model which uses a k-nearest neighbour approach, the US EPA’s EPI Suite KOCWIN models which includes two fragment-based models using the KOW and molecular connectivity index, multiple poly-parameter linear free energy relationships (PP-LFERs), and single-parameter linear free energy relationships (SP-LFERs). These models are parameterized for neutral organic compounds and so may not work so well for ionizable chemicals. Any chemical with a pKa is thus considered ionizable. pKa can be predicted using OPERA and ACD/Labs. KOC values are predicted for all 18M+ SMILES using all available predictions.
As a result of the data extraction and prediction process, we have millions of KOC values associated with the chemicals on the global chemical inventory. The initial analysis of the experimental KOC data indicates that the data reported and extracted from REACH dossiers using the eChemPortal is easily misinterpreted because the nuance and details included in the original dossiers is not included in the extracted files. As a result, it is difficult to identify errors without referring directly to the original REACH dossier. In some instances, the extracted data is indicated to be an experimental value; however, within the original dossier the value is noted to be a prediction. While these extreme cases are easily identified, we can not rely on the data curation of the eChemPortal to filter experimental and estimated data. In addition, the extracted data set includes repeated data which is not filtered out during the data extraction process by eChemPortal. All duplicate values will bias the analysis using the available data. Therefore, the data is cross-referenced with data from the OECD QSAR Toolbox. If property values for a given chemical matched up to 2 decimal places, they were considered duplicated and removed from the dataset. Data obtained directly from peer-reviewed literature sources are considered to be the most reliable, followed by experimental data from the QSAR Toolbox. Finally, data from the REACH Dossiers and estimated data from This process resulted in a dataset of highly reliable property data from published literature and REACH dossiers and less reliable data from eChemPortal.
Much of the experimental data and data obtained from the OECD's eChemPortal and QSAR Toolbox are not reported as point values. These values indicate the value of the property will be above or below a particular threshold or between a particular set of numbers. We use a Bayesian analysis approach to determine a consensus experimental value (and its uncertainty) based on all available data. By including all data in our approach as is, we can use a maximum of data for analysis and can obtain a better understanding of the uncertainty of the final value, and for KOC values in general.
In previous work, we showed in a proof of concept that this Bayesian analysis approach to deriving consensus values can work to determine a probability distribution for the KOC of individual chemicals. With the lack of reliability in "experimental" values extracted from the eChemPortal and a distinct lack of meta data we are currently applying this approach to predict and assess the probability of each of the 340,000 chemicals in the global chemical inventory as being mobile, very mobile, or not mobile. Consensus based physical-chemical property data is preferable to using a single estimated or experimental value where reliable and applicable models are available.
In the ZeroPM pieces video series, individual researchers in the project will tell you about one piece of the ZeroPM puzzle they are working on. These were filmed as mini-lunch time seminars within the ZeroPM project, and are being released in different seasons via this youtube channel.
For more info on ZeroPM, please visit our website at www.zeropm.eu.
#PFAS #PMT #zeropollution #environmentalchemistry #hazard #risk #bioassays #endocrinedisruptors
ZeroPM has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 101036756
Переглядів: 58
Відео
ZeroPM pieces #24: Bioassays for PM Substances
Переглядів 38Місяць тому
In ZeroPM pieces #24 Maxim Carlier, a Doctoral Researcher at Vrije Universiteit Amsterdam, presents how he embarked on creating in vitro hazard profiles for 16 triazoles, 9 triazines, and 11 poly- and perfluoroalkyl substances (PFAS) based on their agonistic and antagonistic effects in estrogen receptor (ER), androgen receptor (AR), and thyroid hormone receptor (TR) reporter gene assays, their ...
ZeroPM Prioritization Workshop - NGI promo with Hans Peter Arp
Переглядів 602 місяці тому
Thousands of environmental pollutants are being spread in the environment through water. The cleanup task is immense. The EU project ZeroPM is leading the debate on which substances should be prioritized. On September 19 and 20, regulators and other decision-makers, representatives from the chemical industry, water industry, and researchers will gather in Dessau-Rossau, Germany, to share and di...
Science-Policy Webinar #5 A spotlight on the current policy and science of F-gases
Переглядів 1673 місяці тому
Lise Oulès (Milieu, Belgium), Michael Garry (ATMOsphere, USA) and Dr. Juliane Glüge (ETH Zürich) present the current policy and sciences of F-gases, in relation to the concerns of their global warming potential and being precursors to trifluoroacetic acid (TFA), a very persistent and very mobile substance that is accumulating rapidly in the environment. A particular focus is presented on altern...
ZeroPM Pieces #25: ZeroPM's key exploitable results 2021-2024
Переглядів 923 місяці тому
In ZeroPM pieces #25 - Sarah Hale (DVGW-TZW), the leader of ZeroPM's dissemination, exploitation and communication activities as well as the initial coordinator of the project, highlights many of the key Exploitable results from the first half of the project. The Exploitable results presented include: - The ZeroPM Alternatives Database (for alternatives to #PFAS and #PMT substances) - Alternati...
ZeroPM pieces #23: Characterization Factors & their Importance for Including PMT Substances in LCIA
Переглядів 554 місяці тому
In ZeroPM pieces #23 Rahul Aggarwal, a Doctoral Researcher at Chalmers University of Technology, explores how characterization factors are derived and used for PMT substance evaluation using Life Cycle Inventory analysis. Characterization factors can derive environmental impacts, such as aquatic toxicology, into results for environmental impact analysis alongside carbon footprints (or other imp...
How to remove PFAS with Sustainable Technical Solutions - The ZeroPM test site in Rastatt
Переглядів 3305 місяців тому
Lukas Lesmeister from the German Water Centre (TZW) takes you on a tour of the Rauental waterworks, which has a pilot plant to remove PFAS from the Rastatt region. One key approach being developed is a hybrid approach to combine granular active carbon #GAC and a regenerative ion-exchange resin to handle both the hydrophobic and hydrophilic PFAS. Key to making this approach sustainable is that t...
Science-Policy Webinar #4 Regulating persistent and mobile substances at a European level
Переглядів 2326 місяців тому
Dr. Konstantinos Prevedouros from the European Chemicals Agency #ECHA presents Regulatory developments related to persitent and mobile substances, as well as guidance to comply to the new PMT/vPvM hazard classes in the Chemicals, Labelling and Packaging directive #CLP Slides from the webinar are available here: zenodo.org/records/11278207 About the webinar: The Commission Delegated Regulation (...
ZeroPM Prioritization Workshop September 19th-20th, 2024: Teaser Trailer
Переглядів 5556 місяців тому
Join us 19th and 20th of September 2024 UBA Conference Center in Dessau-Roßlau, Germany Where ZeroPM will proudly host the workshop: Achieving Zero Pollution of Persistent and Mobile Substances: Prioritization through Substance Grouping and Risk Assessment More information and Registration can done by this webpage: zeropm.eu/prioritization-workshop/ About the workshop: The research project Zero...
ZeroPM pieces #21: Overlapping Definitions of a Wide PFAS Universe
Переглядів 1326 місяців тому
In ZeroPM pieces #21 Luc Miaz, a Doctoral Researcher at Stockholm University, explores how different definitions of PFAS (per- and polyfluoroalkyl substances) overlap and diverge on various lists. The OECD definition, which is the most recent and broadest, is adopted in many OECD countries, contains by far the most, because it includes single isolated -CF3 and -CF2- groups. By contrast the US E...
Remediating contaminated sites with PMT and PFAS substances: H2020 projects case studies & results
Переглядів 917 місяців тому
The three H2020 sister projects ZeroPM, PROMISCES and SCENARIOS Project EU aim to address challenges related to persistent and mobile substances in the environment, while protecting human health and the ecosystem. In an event hoste by the Horizons Results Booster, the three sister projects highlight case studies and results on their work to remediate contaminated sites with PMT and PFAS substan...
ZeroPM Alternative Assesssment Database Walkthrough - with Romain Figuière
Переглядів 1917 місяців тому
Romain Figuière from Stockholm University presents ZeroPM's Alternative Assessment Database for PFAS and PMT substances, which is available here: zeropm.eu/alternative-assessment-database Basis of the Database ZeroPM partners are continuously building a database of alternatives to persistent, mobile and toxic (PMT) substances, and to per- and polyfluoroalkyl substances (PFAS). The current versi...
ZeroPM pieces #20: Essential-use concept and functional substitution
Переглядів 838 місяців тому
In ZeroPM piece #20 Romain Figuière, a Doctoral Researcher at the Stockholm University, presents how to combine the essential-use concept with functional substitution to find safer and more sustainable products to #PFAS and other hazardous substances used in products. Romaine's amazing presentation walks you through the history of both the essential-use concept and how it has been recently inte...
Webinar #3 PFAS removal in sewage sludge and water - with Michalis Fountoulakis and Marcel Riegel
Переглядів 5678 місяців тому
PFAS are commonly detected in water resources, treated wastewater and sweage sludge, meaning sustainable remediation methods are needed for contaminated areas. During drinking water treatment, PFAS are sometimes removed by activated carbon filtration in advanced treatment facilities. However, the removal of certain short chain PFAS is often suboptimal. Treatment efficiency can be improved by us...
ZeroPM pieces #19: Transformation products of persistent and mobile substances
Переглядів 1919 місяців тому
In ZeroPM piece #19 Emma Palm, a Doctoral Researcher at the University of Luxembourg, presents state-of-the-art strategies to tackling the challenge of transformation products. Transformation products tend to be more mobile than their precursors, but are they necessarily more persistent? Emma's amazing research includes the development of a new app, ShinyTP, that can be used to text mine for tr...
ZeroPM pieces #18: Using ion exchange resins to clean PFAS contaminated water
Переглядів 4799 місяців тому
ZeroPM pieces #18: Using ion exchange resins to clean PFAS contaminated water
ZeroPM pieces #17: Expert and Non-Expert Perceptions on PFAS & essentiality in everyday products
Переглядів 1059 місяців тому
ZeroPM pieces #17: Expert and Non-Expert Perceptions on PFAS & essentiality in everyday products
ZeroPM pieces #16: Using Effect Directed Analysis (EDA) to identify PMT other emerging substances
Переглядів 14810 місяців тому
ZeroPM pieces #16: Using Effect Directed Analysis (EDA) to identify PMT other emerging substances
Sister projects aimed address to persistent and mobile substances - ZeroPM, PROMISCES and SCENARIOS
Переглядів 17010 місяців тому
Sister projects aimed address to persistent and mobile substances - ZeroPM, PROMISCES and SCENARIOS
ZeroPM wishes you a Happy New Year 2024!
Переглядів 3810 місяців тому
ZeroPM wishes you a Happy New Year 2024!
ZeroPM Results: Rahul Aggarwal presents his research on aquatic ecotoxicity characterization factors
Переглядів 13411 місяців тому
ZeroPM Results: Rahul Aggarwal presents his research on aquatic ecotoxicity characterization factors
ZeroPM - TOXStreams Live Stream on how to prevent, prioritize & remove PFAS and PMT substances
Переглядів 58Рік тому
ZeroPM - TOXStreams Live Stream on how to prevent, prioritize & remove PFAS and PMT substances
TOXstreams visits Maxim Carlier and Timur Baygildiev at VU Amsterdam to see the labs used in ZeroPM
Переглядів 146Рік тому
TOXstreams visits Maxim Carlier and Timur Baygildiev at VU Amsterdam to see the labs used in ZeroPM
Webinar #2 Do you use PFAS in your business? with Anna Lennquist and Jonatan Kleimark
Переглядів 418Рік тому
Webinar #2 Do you use PFAS in your business? with Anna Lennquist and Jonatan Kleimark
Science-Policy Webinar #3 ARChIE - the Australian Regulatory Cheminformatics Engine
Переглядів 5 тис.Рік тому
Science-Policy Webinar #3 ARChIE - the Australian Regulatory Cheminformatics Engine
Reflections on the ZeroPM Prevention Workshop - with Sarah Hale and Hans Peter Arp
Переглядів 149Рік тому
Reflections on the ZeroPM Prevention Workshop - with Sarah Hale and Hans Peter Arp
Science-Policy Webinar #2 Protecting drinking water sources from persistent and mobile substances
Переглядів 11 тис.Рік тому
Science-Policy Webinar #2 Protecting drinking water sources from persistent and mobile substances
Introduction to the ZeroPM Prevention Workshop by Sarah Hale and Hans Peter Arp
Переглядів 101Рік тому
Introduction to the ZeroPM Prevention Workshop by Sarah Hale and Hans Peter Arp
Maria Åkerfeldt from the H&M Group - Moving away from PFAS
Переглядів 67Рік тому
Maria Åkerfeldt from the H&M Group - Moving away from PFAS
Towards Alternative Assessment & Market Transition of PFAS and PMT - Ian Cousins and Anna Lennquist
Переглядів 104Рік тому
Towards Alternative Assessment & Market Transition of PFAS and PMT - Ian Cousins and Anna Lennquist
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There's always excellence in chemistry innovation when Dr Walker is involved!
Its good to be hearing a full range of perspectives on the PFAS restriction proposal - well done ZeroPM for engaging companies too. As you say there is a huge range of views about how to handle PFAS and having more communications like this one you've organised will be really helpful. Keep it up!
This video raises some very good points. PFAS is a real environmental and health hazard. But I do wonder what should be in terms of the trade-off with the green transition given that fluoropolymers are needed for the development of electric car batteries and green hydrogen
Would be great if we can find ways to remove PFAS from water! More collaboration should be done with the private sector on this kind of stuff because they definitely have the means to help with dealing with R&D so we can deal with the PFAS issue together as a society. Mutually beneficial
ZeroPM is doing some great stuff! Especially in light of the ECHA's restriction proposal. What are your thoughts on the 12 year derogation on essential uses like medical drugs?
Thanks!! Regarding your question - I don't think the authorization of medical drugs have been discussed yet. From the restriction proposal "Medical products are considered important for the protection of the health of humans. During theassessment of medicines possible negative effects on the environment are indicated, however they have no decisive effect on the authorization process. A general restriction would have a possible impact on the availability and security of supply of PFAS-containing medicines and their alternatives. By the end of 2022, it will be discussed how the environmental impact will be assessed in the authorisation of medicinal products, and the authorization process may be revised (EC, 2019)." - I think there is a desire to get more environmental impact assessment for persistent pharmaceuticals, but these are regulated seperately than REACH registered substances, etc. But ECHA would no best here, just my interpretation. echa.europa.eu/documents/10162/4e564987-9902-9d7e-3fab-2d7f73753053
The presentation explains how PFAS has contaminated soil and water and the steps that are being taken to counter their nefarious effects. However, the production of some types of PFAS is crucial in the making of certain HIV and Cancer drugs. Do you hence agree that the ECHA’s proposal for derogation limited to 12 years should be reconsidered?
Very useful for an overview of the current status of various initiatives on PFAS and PMT
May you please elaborate on the debate on endocrine disrupting potencies? Many thanks!
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Awesome news and presenters! Where can we see the long version of the battle?
the movement is here: ua-cam.com/video/1q06fUMT_U4/v-deo.html
𝖕𝖗𝖔𝖒𝖔𝖘𝖒 💯
Looking forward to follow this important topic project updates 🙌🏽
Many thanks, Pragnesh!!
Great intro about the project:)
Thank you! Cheers!