DOCSLIB.ORG

European List of Notified Chemical Substances Elincs

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
European List of Notified Chemical Substances Elincs EUROPEAN LIST OF NOTIFIED CHEMICAL SUBSTANCES ELINCS th In support of Directive 92/32/EEC, the 7 amendment to Directive 67/548/EEC Baraibar Fentanes Joaquin / Olsson Heidi / Sokull-Klüttgen Birgit EUR 23923 EN - 2009 杭州瑞欧科技有限公司www.tbt123.com 电话:0571-87007555 传真:0571-87007566 免费咨询热线:400-809-5-809 The mission of the JRC-IHCP is to protect the interests and health of the consumer in the framework of EU legislation on chemicals, food, and consumer products by providing scientific and technical support including risk-benefit assessment and analysis of traceability. European Commission Joint Research Centre Institute for Health and Consumer Protection Contact information IHCP Communication Address: Via E. Fermi 2749 21027 Ispra (Varese) - Italy E-mail: [email protected] Tel.: +39 0332 789111 Fax: +39 0332 789059 http://ihcp.jrc.ec.europa.eu/ http://www.jrc.ec.europa.eu/ Legal Notice Neither the European Commission nor any person acting on behalf of the Commission is responsible for the use which might be made of this publication. Europe Direct is a service to help you find answers to your questions about the European Union Freephone number (*): 00 800 6 7 8 9 10 11 (*) Certain mobile telephone operators do not allow access to 00 800 numbers or these calls may be billed. A great deal of additional information on the European Union is available on the Internet. It can be accessed through the Europa server http://europa.eu/ JRC C52455 EUR 23923 EN ISBN X-XXXX-XXXX-X ISSN 1018-5593 DOI XXXXX Luxembourg: Office for Official Publications of the European Communities © European Communities, 2009 Reproduction is authorised provided the source is acknowledged 杭州瑞欧科技有限公司www.tbt123.com Printed in Italy 电话:0571-87007555 传真:0571-87007566 免费咨询热线:400-809-5-809 FOREWORD TO ELINCS Publication In accordance with Commission Decision 85/71/EEC1 [pursuant to Directive 92/32/EEC, the 7th amendment to Directive 67/548/EEC2 (hereinafter "the Directive") on the approximation of the laws, regulations and administrative provisions relating to the classification, packaging and labelling of dangerous substances] the European LIst of Notified Chemical Substances (ELINCS) has been established with publication in the Official Journal of the European Union (OJ). A 5th edition of ELINCS, compiling substances notified in accordance with the Directive until 30th June 1995, is the last available update published in the OJ3. A 6th edition, comprehensive of substances notified until 30th June 1998, and published as a Commission document, is available on-line via Europa EUR-Lex address:http://eur-lex.europa.eu/COMIndex.do, located under ‘COM documents’- Direct access to PDF documents by searching for COM(2003) 642, dated 29.10.2003. Due to resource limitations on translating chemical names into all official EU languages, thereafter ELINCS was maintained in the English language only, and published only as an internet document by the European Chemicals Bureau (ECB)4: http://ecb.jrc.ec.europa.eu/elincs/, where the latest update replaces previous versions. The current version is indicated with compilation date, rather than edition number. ELINCS supplements the European INventory of Existing Commercial Substances (EINECS)5, which lists reported substances on the EU market before 18th September 1981. While EINECS is a definitive inventory of substances exempt from notification, ELINCS does not create analogous exemptions. An original notification is generally designated as file leader for the substance. Additional suppliers of notified substances to the EU market were liable to repeat notification, in accordance with the Directive. This final edition of ELINCS is comprehensive of all notified substances, concluded by expiry of the Directive on 31st May 2008. On 1st June 2008 the notification scheme was revoked and replaced by Regulation (EC) No 1907/2006 concerning the Registration, Evaluation, Authorisation and Restriction of Chemicals (REACH)6. Transitional arrangements regarding new notified substances are laid down in Articles 24 and 135 of the REACH Regulation. These articles stipulate that a notification in accordance with Directive 67/548/EEC and which have been found conforming to the Directive shall be regarded as a registration under REACH. New manufacturers/importers of notified substances to the EU market are required to submit a registration in accordance with the REACH Regulation. In order to facilitate data sharing, avoid unnecessary testing and enable the preparation of a joint registration these new manufacturers/importers have the duty to inquire prior to registration (REACH Article 26). 1 OJ L 30, 2.2.1985, p. 33 2 OJ 196, 16.8.1967, p. 1 [Directive 7th amendment: OJ L 154, 5.6.1992, p. 1] 3 OJ C 72, 11.3.2000, p. 1 4 ECB coordination of the notification scheme formally terminated on 31.5.2008 with implementation of REACH and transfer of 杭州瑞欧科技有限公司 responsibility to the European Chemicals Agency www.tbt123.com 5 OJ C 146 A, 15.6.1990, p. 1 6 OJ L 396, 30.12.2006, p. 1 [Corrigenda: OJ L 136, 29.5.2007] 电话:0571-87007555 传真:0571-87007566 3 免费咨询热线:400-809-5-809 Explanatory Detail EC Number (analogous to a bar code) is unique to each substance, allocated by the Commission. Registration Number (chronological per member state) is unique to each notification, allocated by a Competent Authority. For multiple notifications of the same substance, the original dossier is designated file leader. ELINCS tabulates substances by EC number, corresponding to single substance entries, listing repeat notifications beginning with the file leader. The registration number has standard format: xx-xx-xxxx. The first two digits represent year of notification, the next two indicate country of notification, and the last four digits allow sequential numbering of individual dossiers respective of the country. The two digit country codes refer to member states (and Norway) as follows: 01. France (FR) 11. Spain (ES) 21. Lithuania (LT) 02. Belgium (BE) 12. Portugal (PT) 22. Hungary (HU) 03. Netherlands (NL) 13. Finland (FI) 23. Malta (MT) 04. Germany (DE) 14. Austria (AT) 24. Poland (PL) 05. Italy (IT) 15. Sweden (SE) 25. Slovenia (SI) 06. United Kingdom (UK) 16. Norway (NO) 26. Slovakia (SK) 07. Ireland (IE) 17. Czech Republic (CZ) 27. Bulgaria (BG) 08. Denmark (DK) 18. Estonia (EE) 28. Romania (RO) 09. Luxembourg (LU) 19. Cyprus (CY) 10. Greece (GR) 20. Latvia (LV) Identification Each substance is identified, either by trade name(s) and chemical name, or by trade name(s) only. The latter is applicable when confidentiality has been granted by a Competent Authority, upon request of a notifier, to protect commercial sensitivity. ELINCS includes all trade names registered for a substance. Chemical names are cited according to the rules of the International Union of Pure and Applied Chemistry (IUPAC). Where allocation of a precise IUPAC name is not possible (e.g., substance composition not completely defined), a name is assigned according to EINECS reporting rules (Manual of Decisions section 27). The 7th Amendment of the Directive defines substances "as chemical elements and their compounds in the natural state or obtained by any production process, including any additive necessary to preserve the stability of the products and any impurity deriving from the process used, but excluding any solvent which may be separated without affecting the stability of the substance or changing its composition". The substance definition in REACH is equal. In both cases the definition goes beyond a pure chemical compound defined by a single molecule. By contrast, preparation refers to a mixture or solution composed of two or more substances. ELINCS lists substances only. 杭州瑞欧科技有限公司 7 The 'Manual of Decisions for implementation of the sixth and seventh amendments to Directiveswww.tbt123.com 67/548/EEC on dangerous substances (Directives 79/831/EEC and 92/32/EEC) – non-confidential version (3.7.2006), EUR 22311' can be downloaded free of charge from the following web-site: http://ecb.jrc.ec.europa.eu/new-chemicals/ 电话:0571-87007555 传真:0571-87007566 4 免费咨询热线:400-809-5-809 By convention for ELINCS, substance components8 are defined as molecules present at ≥ 10%. Impurities are defined as molecules present at < 10%. An individual molecule present at ≥ 80% defines a single component substance9, listed in ELINCS as that one molecule name only. Individual molecules present in the range ≥ 10% to < 80% define components of a reaction mixture substance10, listed with all component molecule names. In previous versions of ELINCS such a substance was named as "mixture of …". In order to harmonise the naming with the 'Guidance for identification and naming of substances under REACH'11 in this version such a substance is named as "reaction mass of …". Impurities are not listed in ELINCS as part of the substance name unless significant contribution is made to the substance hazard classification. Level of confidentiality In practice, options are available to notifiers (subject to Competent Authority approval) determining level of confidentiality to be respected in publishing substance identities in ELINCS, indicated in notification summaries as follows: Non-Classified substances A. IUPAC name and trade name. B1. Trade name only for period of 1year. B2. Trade name only for period of 2 years. B3. Trade name only for period of 3 years. C. Trade name only for an indefinite period, for reasons of commercial secrecy. Classified substances D. IUPAC name and trade name. E. Trade name only, pending inclusion of substance in Annex I of Directive. Options C and E, respective of non-classified and classified substances, would frequently be favourable choices for notifiers. Classification ELINCS quotes substance classifications from official source only (Annex I to the Directive) with insertion of recent classifications in updated editions, as available from official update of the Annex I list of classified substances. Substances unofficially classified, pending formal vote for entry into Annex I, are identified with an asterisk.
Load more

Recommended publications
  • TR-499: Indium Phosphide (CASRN 22398-80-7) in F344/N Rats And
    NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF INDIUM PHOSPHIDE (CAS NO. 22398-80-7) IN F344/N RATS AND B6C3F1 MICE (INHALATION STUDIES) NATIONAL TOXICOLOGY PROGRAM P.O. Box 12233 Research Triangle Park, NC 27709 July 2001 NTP TR 499 NIH Publication No. 01-4433 U.S. DEPARTMENT OF HEALTH AND HUMAN SERVICES Public Health Service National Institutes of Health FOREWORD The National Toxicology Program (NTP) is made up of four charter agencies of the U.S. Department of Health and Human Services (DHHS): the National Cancer Institute (NCI), National Institutes of Health; the National Institute of Environmental Health Sciences (NIEHS), National Institutes of Health; the National Center for Toxicological Research (NCTR), Food and Drug Administration; and the National Institute for Occupational Safety and Health (NIOSH), Centers for Disease Control and Prevention. In July 1981, the Carcinogenesis Bioassay Testing Program, NCI, was transferred to the NIEHS. The NTP coordinates the relevant programs, staff, and resources from these Public Health Service agencies relating to basic and applied research and to biological assay development and validation. The NTP develops, evaluates, and disseminates scientific information about potentially toxic and hazardous chemicals. This knowledge is used for protecting the health of the American people and for the primary prevention of disease. The studies described in this Technical Report were performed under the direction of the NIEHS and were conducted in compliance with NTP laboratory health and safety requirements and must meet or exceed all applicable federal, state, and local health and safety regulations. Animal care and use were in accordance with the Public Health Service Policy on Humane Care and Use of Animals.
    [Show full text]
  • Da UNIVERSIDADE DA BEIRA INTERIOR
    da UNIVERSIDADE DA BEIRA INTERIOR ANALYSIS OF ORGANOPHOSPHOROUS PESTICIDES IN POSTMORTEM BIOLOGICAL FLUIDS RAQUEL HELENA CARVALHO SILVA RAPOSO Covilhã, 2009 I UNIVERSIDADE DA BEIRA INTERIOR ANALYSIS OF ORGANOPHOSPHOROUS PESTICIDES IN POSTMORTEM BIOLOGICAL FLUIDS Dissertação apresentada à Universidade da Beira Interior para a obtenção do Grau de Mestre em Bioquímica RAQUEL HELENA CARVALHO SILVA RAPOSO Covilhã, 2009 II Trabalho elaborado sob a supervisão e orientação científica do Mestre Mário João Dias, Director do Serviço de Toxicolgia Forense da Delegação Sul do Instituto Nacional de Medicina Legal e da Prof. Doutora María Eugenia Gallardo Alba, Faculdade de Ciências da Saúde da Universidade da Beira Interior III TABLE OF CONTENTS List of Figures ........................................................................................................................................... VI List of Tables .......................................................................................................................................... VIII Abbreviations ............................................................................................................................................ X Abstract................................................................................................................................................... - 1 - Resumo ................................................................................................................................................... - 3 - Justification and Objectives
    [Show full text]
  • The Atmospheric Chemical Vapour Deposition of Coatings on Glass
    The Atmospheric Chemical Vapour Deposition Of Coatings On Glass. by Kevin David Sanderson, B.Sc. A thesis submitted to Imperial College of Science Technology and Medicine for the degree of Doctor of Philosophy January, 1996 The copyright of this thesis rests with the author and no quotation from it or information derived from it may be published without the prior written consent of the author. Some of the material presented in this thesis is of a confidential nature. It is therefore requested that anyone reading this thesis maintains this confidentiality until the thesis becomes publicly available. Abstract: The deposition of thin films of indium oxide, tin doped indium oxide (ITO) and titanium nitride for solar control applications have been investigated by Atmospheric Chemical Vapour Deposition (APCVD). Experimental details of the deposition system and the techniques used to characterise the films are presented. Results from investigations into the deposition parameters, the film microstructure and film material properties are discussed. A range of precursors were investigated for the deposition of indium oxide. The effect of pre-mixing the vaporised precursor with an oxidant source and the deposition temperature has been studied. Polycrystalline In203 films with a resistivity of 1.1 - 3 x 10-3 ) cm were obtained with In(thd)3 , oxygen and nitrogen. The growth of ITO films from In(thd)3, oxygen and a range of tin dopants is also presented. The effect of the dopant precursor, the doping concentration, deposition temperature and the effect of additives on film growth and microstructure is discussed. Control over the preferred orientation growth of ITO has been achieved by the addition of acetate species during film growth.
    [Show full text]
  • INCORPORATING LOW-DOSE EPIDEMIOLOGY DATA in a CHLORPYRIFOS RISK ASSESSMENT Julie E
    Dose-Response: An International Journal Volume 11 | Issue 2 Article 8 6-2013 INCORPORATING LOW-DOSE EPIDEMIOLOGY DATA IN A CHLORPYRIFOS RISK ASSESSMENT Julie E. Goodman Gradient, Cambridge, MA Robyn L. Prueitt Gradient, Cambridge, MA Lorenz R. Rhomberg Gradient, Cambridge, MA Follow this and additional works at: https://scholarworks.umass.edu/dose_response Recommended Citation Goodman, Julie E.; Prueitt, Robyn L.; and Rhomberg, Lorenz R. (2013) "INCORPORATING LOW-DOSE EPIDEMIOLOGY DATA IN A CHLORPYRIFOS RISK ASSESSMENT," Dose-Response: An International Journal: Vol. 11 : Iss. 2 , Article 8. Available at: https://scholarworks.umass.edu/dose_response/vol11/iss2/8 This Article is brought to you for free and open access by ScholarWorks@UMass Amherst. It has been accepted for inclusion in Dose-Response: An International Journal by an authorized editor of ScholarWorks@UMass Amherst. For more information, please contact [email protected]. Goodman et al.: Low-Dose Epidemiology Data in a Chlorpyrifos Risk Assessment Dose-Response, 11:207–219, 2013 Formerly Nonlinearity in Biology, Toxicology, and Medicine Copyright © 2013 University of Massachusetts ISSN: 1559-3258 DOI: 10.2203/dose-response.12-022.Goodman INCORPORATING LOW-DOSE EPIDEMIOLOGY DATA IN A CHLORPYRIFOS RISK ASSESSMENT Julie E. Goodman, Robyn L. Prueitt, and Lorenz R. Rhomberg ᮀ Gradient, Cambridge, MA ᮀ USEPA assessed whether epidemiology data suggest that fetal or early-life chlorpyrifos exposure causes neurodevelopmental effects and, if so, whether they occur at exposures below those causing the current most sensitive endpoint, 10% inhibition of blood acetyl- cholinesterase (AChE). We previously conducted a hypothesis-based weight-of-evidence analysis and found that a proposed causal association between chlorpyrifos exposure and neurodevelopmental effects in the absence of AChE inhibition does not have a substantial basis in existing animal or in vitro studies, and there is no plausible basis for invoking such effects in humans at their far lower exposure levels.
    [Show full text]
  • Mother/Child Organophosphate and Pyrethroid Distributions T ⁎ Natalia Bravoa, Joan O
    Environment International 134 (2020) 105264 Contents lists available at ScienceDirect Environment International journal homepage: www.elsevier.com/locate/envint Mother/child organophosphate and pyrethroid distributions T ⁎ Natalia Bravoa, Joan O. Grimalta, , Darja Mazejb, Janja Snoj Tratnikb,c, Dimosthenis Andreas Sarigiannisd, Milena Horvatb,c a Institute of Environmental Assessment and Water Research (IDAEA-CSIC), Department of Environmental Chemistry, Jordi Girona, 18, 08034 Barcelona, Catalonia, Spain b Department of Environmental Sciences, Jožef Stefan Institute, Jamova cesta 39, 1000 Ljubljana, Slovenia c International Postgraduate School Jožef Stefan, Jamova cesta 39, 1000 Ljubljana, Slovenia d Environmental Engineering Laboratory, Department of Chemical Engineering and HERACLES Research Centre on the Exposome and Health, Centre for Interdisciplinary Research and Innovation, Aristotle University of Thessaloniki University Campus, Bldg. D, Rm 201, 54124 Thessaloniki, Greece ARTICLE INFO ABSTRACT Handling Editor: Adrian Covaci The present study reports one of the few cases in which organophosphate (OP) and pyrethroid (PYR) pesticide Keywords: human exposure is evaluated in family contexts by the analysis of mother/child pair samples. Urinary con- Organophosphorus pesticides centrations of 6 organic metabolites of organophosphates and 2 pyrethroids were measured in mothers and their Pyrethroids 7-to 8-year-old children (n = 168) in a general population from the central area of Slovenia. The results were Human Biomonitoring adjusted for specific gravity and creatinine. Children The most abundant OP metabolite in children was 4-nitrophenol (PNP) (median 0.7 ng/ml) and in mothers Women (0.45 ng/ml), representing parathion exposure. 3-Phenoxibenzoic acid (3-PBA) (0.26 ng/ml), the general me- Child-mother pairs tabolite of pyrethroids, and 3,5,6-trichloro-2-pyridinol (TCPY) (0.16 ng/ml; chlorpyriphos) were the second most abundant compounds in children and mothers, respectively.
    [Show full text]
  • Part I Biopharmaceuticals
    1 Part I Biopharmaceuticals Translational Medicine: Molecular Pharmacology and Drug Discovery First Edition. Edited by Robert A. Meyers. © 2018 Wiley-VCH Verlag GmbH & Co. KGaA. Published 2018 by Wiley-VCH Verlag GmbH & Co. KGaA. 3 1 Analogs and Antagonists of Male Sex Hormones Robert W. Brueggemeier The Ohio State University, Division of Medicinal Chemistry and Pharmacognosy, College of Pharmacy, Columbus, Ohio 43210, USA 1Introduction6 2 Historical 6 3 Endogenous Male Sex Hormones 7 3.1 Occurrence and Physiological Roles 7 3.2 Biosynthesis 8 3.3 Absorption and Distribution 12 3.4 Metabolism 13 3.4.1 Reductive Metabolism 14 3.4.2 Oxidative Metabolism 17 3.5 Mechanism of Action 19 4 Synthetic Androgens 24 4.1 Current Drugs on the Market 24 4.2 Therapeutic Uses and Bioassays 25 4.3 Structure–Activity Relationships for Steroidal Androgens 26 4.3.1 Early Modifications 26 4.3.2 Methylated Derivatives 26 4.3.3 Ester Derivatives 27 4.3.4 Halo Derivatives 27 4.3.5 Other Androgen Derivatives 28 4.3.6 Summary of Structure–Activity Relationships of Steroidal Androgens 28 4.4 Nonsteroidal Androgens, Selective Androgen Receptor Modulators (SARMs) 30 4.5 Absorption, Distribution, and Metabolism 31 4.6 Toxicities 32 Translational Medicine: Molecular Pharmacology and Drug Discovery First Edition. Edited by Robert A. Meyers. © 2018 Wiley-VCH Verlag GmbH & Co. KGaA. Published 2018 by Wiley-VCH Verlag GmbH & Co. KGaA. 4 Analogs and Antagonists of Male Sex Hormones 5 Anabolic Agents 32 5.1 Current Drugs on the Market 32 5.2 Therapeutic Uses and Bioassays
    [Show full text]
  • A10 Anabolic Steroids Hardcore Info
    CONTENTS GENERAL INFORMATION 3 Anabolic steroids – What are they? 4 How do they Work? – Aromatisation 5 More molecules – More problems 6 The side effects of anabolic steroids 7 Women and anabolic steroids 8 Injecting steroids 9 Abscesses – Needle Exchanges 10 Intramuscular injection 11 Injection sites 12 Oral steroids – Cycles – Stacking 13 Diet 14 Where do steroids come from? Spotting a counterfeit 15 Drug Information – Drug dosage STEROIDS 16 Anadrol – Andriol 17 Anavar – Deca-Durabolin 18 Dynabolon – Durabolin – Dianabol 19 Esiclene – Equipoise 20 Primobolan Depot – Proviron – Primobolan orals – Pronobol 21 Sustanon – Stromba, Strombaject – Testosterone Cypionate Testosterone Enanthate 22 Testosterone Propionate – Testosterone Suspension 23 Trenbolone Acetate – Winstrol OTHER DRUGS 24 Aldactone – Arimidex 25 Clenbuterol – Cytomel 26 Ephedrine Hydrochloride – GHB 27 Growth Hormone 28 Insulin 30 Insulin-Like Growth Factor-1 – Human Chorionic Gonadotrophin 31 Tamoxifen – Nubain – Recreational Drugs 32 Steroids and the Law 34 Glossary ANABOLIC STEROIDS People use anabolic steroids for various reasons, some use them to build muscle for their job, others just want to look good and some use them to help them in sport or body building. Whatever the reason, care needs to be taken so that as little harm is done to the body as possible because despite having muscle building effects they also have serious side effects especially when used incorrectly. WHAT ARE THEY? Anabolic steroids are man made versions of the hormone testosterone. Testosterone is the chemical in men responsible for facial hair, deepening of the voice and sex organ development, basically the masculine things Steroids are in a man. used in medicine to treat anaemia, muscle weakness after These masculine effects surgery etc, vascular are called the androgenic disorders and effects of testosterone.
    [Show full text]
  • Miss.Julie ^ ^ Email:[email protected] Skype:[email protected] Whatsapp:+8618872220730
    Miss.Julie ^ _ ^ Email:[email protected] Skype:[email protected] Whatsapp:+8618872220730 Raw anabolic steroid hormone powders from China with high purity&safe delivery Powder list : Testosterone enanthate Testosterone cypionate Testosterone propionate Testosterone-Sustanon250 Testosterone phenylpropionate Testosterone Acetate Testosterone decanoate Testosterone-Base Testosterone Isocaproate Testosterone undecanoate 17a-Methyl-1-Testosterone Fluoxymesterone(Halotesin) Mesterolone(Proviron) Methyltestosterone Trenbolone Acetate Trenbolone enanthate Trenbolone Base Metribolone Trenbolone Hexahydrobenzyl Carbonate Nandrolone decanoate Nandrolone Propionate Nandrolone phenylpropionate Nandrolone Mestanolone Drostanolone enanthate Drostanolone propionate (Masteron) 17a-Methyl-Drostanolone (Methasterone) Boldenone undecylenate (EQ) Methenolone Acetate Methenolone Enanthate (primobolin) Boldenoe cypionate Boldenoe Acetate Methandrostenolone (Dianabol) Oxandrolone (Anavar) Oxymetholone (Anadrol) Stanozolol (Winstrol) Turinabol Clostebol Acetate Anastrozloe (Arimidex) Clomiphene Citrate(Clomid) Exemestane Letrozole (Femara) Mifepristone Tamoxifen Citrate Semi-finished Injectable / Oral steroids: Test prop-----------100mg/ml 200mg/ml Test enan-----------250mg/ml 300mg/ml 400mg/ml 500mg/ml 600mg/ml Test cyp------------200mg/ml 250mg/ml 300mg/ml Test Sustanon-------200mg/ml 250mg/ml 300mg/ml 400mg/ml Deca----------------200mg/ml 250mg/ml Equipoise-----------200mg/ml 300mg/ml Tren ace------------100mg/ml 200mg/ml Tren enan-----------100mg/ml
    [Show full text]
  • Estimation of Daily Intake and Risk Assessment of Organophosphorus Pesticides Based on Biomonitoring Data
    Food and Chemical Toxicology 123 (2019) 57–71 Contents lists available at ScienceDirect Food and Chemical Toxicology journal homepage: www.elsevier.com/locate/foodchemtox Review Estimation of daily intake and risk assessment of organophosphorus T pesticides based on biomonitoring data – The internal exposure approach Ioanna Katsikantamia,b, Claudio Colosioc, Athanasios Alegakisb, Manolis N. Tzatzarakisb, ∗ Elena Vakonakib, Apostolos K. Rizosa, Dimosthenis A. Sarigiannisd,e,f, Aristides M. Tsatsakisb, a Department of Chemistry, University of Crete, Foundation for Research and Technology-Hellas, FORTH-IESL, GR-71003, Heraklion, Crete, Greece b Laboratory of Toxicology, Medical School, University of Crete, GR-71003, Heraklion, Crete, Greece c Department of Occupational and Environmental Health of the University of Milan, International Centre for Rural Health of the University Hospital San Paolo, S. Paolo Hospital Unit, Via San Vigilio 43, 20142 Milan, Italy d Environmental Engineering Laboratory, Department of Chemical Engineering, Aristotle University of Thessaloniki, Greece e HERACLES Research Centre on the Exposome and Health, Centre for Interdisciplinary Research and Innovation (KEDEK), Aristotle University of Thessaloniki, Greece f Environmental Health Engineering, Institute for Advanced Study IUSS, Pavia, Italy ARTICLE INFO ABSTRACT Keywords: Human exposure to pesticides can be estimated through different approaches. The approach adopted in this Biomonitoring study is based on internal dose measures. Studies published during 2001 and 2017 were collected from PubMed Dialkyl phosphates and Scopus databases, filtered and organized. The intake of parent compounds is estimated based on theurinary Estimated daily intake excretion of different OP metabolites applying a mathematical model previously used for similar purposes. Once Health effects defined an Estimated Daily Intake (EDI), risk assessment is performed through comparison with specific Organophosphorus pesticides guideline values and hazard index (HI) is calculated to assess cumulative health risk.
    [Show full text]
  • United States Patent (10) Patent No.: US 7,790,910 B2 Macdonald Et Al
    US007790910B2 (12) United States Patent (10) Patent No.: US 7,790,910 B2 MacDonald et al. (45) Date of Patent: Sep. 7, 2010 (54) PROCESS FOR THE PREPARATION OF 2003/0069434 A1 4/2003 Bohlmann et al. 7OALKYLATED 19-NORSTEROIDS 2005, OO33085 A1 2/2005 Warren et al. (75) Inventors: Peter Lindsay MacDonald, Gentilino FOREIGN PATENT DOCUMENTS (CH); Ettore Bigatti, Balerna (CH): DE 24, 29 O40 1, 1975 Pierluigi Rossetto, Balerna (CH) DE 19622 457 11, 1997 EP O138504 T 1988 (73) Assignee: Sicor Inc., Irvine, CA (US) WO WO93/10741 6, 1993 WO WO99/33855 * 7/1999 (*) Notice: Subject to any disclaimer, the term of this WO WO99,42109 8, 1999 patent is extended or adjusted under 35 WO WOO2,32922 4/2002 U.S.C. 154(b) by 1427 days. WO WOO3,O31399 4/2003 WO WOO3,O45972 6, 2003 (21) Appl. No.: 11/192,071 WO WO98,07740 T 2003 (22) Filed: Jul. 27, 2005 OTHER PUBLICATIONS Bucourt, et al., “New Biospecific Adsorbents For The Purification Of (65) Prior Publication Data Estradiol Receptor'. Journal of Biological Chemistry, 1978, pp. 8221-8228, vol. 253, No. 22. US 2006/OO30552 A1 Feb. 9, 2006 Dasilva, et al., “Synthesis And Structure-Affinity Of A Series of 7alpha-Undecylestradiol Derivatives: A Potential Vector For Related U.S. Application Data Therapy And Imaging Of Estrogen-Receptor-Positive Cancers'. Journal of Medicinal Chemistry, 1990, pp. 430-434, vol. 33, No. 1. (60) sy, priat e.sfas: A.i Skaddan, et al., “Synthesis And Binding Affinities Of Novel Re s proV1S1ona application o, o s , Ille Containing 7.Alpha.-Substituted Estradiol Complexes: Models For on Aug.
    [Show full text]
  • Download (7Mb)
    A Thesis Submitted for the Degree of PhD at the University of Warwick Permanent WRAP URL: http://wrap.warwick.ac.uk/90802 Copyright and reuse: This thesis is made available online and is protected by original copyright. Please scroll down to view the document itself. Please refer to the repository record for this item for information to help you to cite it. Our policy information is available from the repository home page. For more information, please contact the WRAP Team at: [email protected] warwick.ac.uk/lib-publications Reactions and Co-ordination Chemistry of Indium Trialkyls and Trihalides. Ian Alan Degnan A thesis submitted for the degree of Doctor of Philosophy. University of Warwick, Department of Chemistry. Septem ber 1989 To Mam and Dad -for making this possible. Contents. Page. Chapter 1: Introduction. Group 13 Elements. 4 Co-ordination Chemistry of the Indium Trihalides. 9 Mono-Complexes of Indium Trihalides. 10 Bis-Complexes of Indium Trihalides. 12 Tris-Complexes of Indium Trihalides. 17 Unusual Indium Trihalide Complexes. 20 Phosphine Complexes of Indium Triiodide. 22 Metathetical Reactions of Indium Trihalides. 30 Organometallic Derivatives of Indium. 33 Organoindium Halides. 33 Organoindium Compounds. 37 Reactions of Organoindium Compounds. 39 Control of Oligomerisation in Indium Compounds. 55 Chapter 2. Phosphine Complexes of Indium Trihalides. 58 Introduction. 59 Mono-Phosphine Complexes of Indium Triiodide. 60 X-ray Diffraction Study of InCI3(PMe3)2. 83 Indium Triiodide Complexes of Diphos. 86 Chapter 3. Metathetical Reactions of Indium Trihalides. 94 Introduction. 95 Reaction of Indium Triiodide Phosphine Complexes with Methyllithium. 96 Reaction of Indium Triiodide Triphenylphosphine Complex with Methyllithium.
    [Show full text]
  • These Two Workbooks Are Provided by As a Convenient Introduc
    These two workbooks are provided by www.hansen-solubility.com as a convenient introduc They are Copyright © 2013 Prof Steven Abbott If you find bugs/issues or would like extra functionality, please email Steven Abbott [email protected] ction to some of the basic HSP methods HSP Sphere dD dP dH R Good 11 18.4 9.7 8.0 7.1 Bad 11 Test Value 16 7 8 Total 22 Delta 2.4 11.4 10.4 Distance 5.5 RED 0.77 Solvents dD dP dH MVol Score Distance Acetone 15.5 10.4 7 73.8 1 5.915773 Acetonitrile 15.3 18 6.1 52.9 0 10.52754 n-Amyl Acetate 15.8 3.3 6.1 148 0 n-Amyl Alcohol 15.9 5.9 13.9 108.6 0 Benzene 18.4 0 2 52.9 0 11.38507 Benzyl Alcohol 18.4 6.3 13.7 103.8 0 Benzyl Benzoate 20 5.1 5.2 190.3 0 1-Butanol 16 5.7 15.8 92 0 2-Butanol 15.8 5.7 14.5 92 0 n-Butyl Acetate 15.8 3.7 6.3 132.6 0 t-Butyl Acetate 15 3.7 6 134.8 0 t-Butyl Alcohol 15.2 5.1 14.7 96 0 Butyl Benzoate 18.3 5.6 5.5 178.1 0 Butyl Diglycol Acetate 16 4.1 8.2 208.2 0 Butyl Glycol Acetate 15.3 7.5 6.8 171.2 0 n-Butyl Propionate 15.7 5.5 5.9 149.3 0 Caprolactone (Epsilon) 19.7 15 7.4 110.8 0 Chloroform 17.8 3.1 5.7 80.5 1 7.075453 m-Cresol 18.5 6.5 13.7 105 1 6.563973 Cyclohexane 16.8 0 0.2 108.9 0 12.82752 Cyclohexanol 17.4 4.1 13.5 105.7 0 Cyclohexanone 17.8 8.4 5.1 104.2 0 Di-isoButyl Ketone 16 3.7 4.1 177.4 0 Diacetone Alcohol 15.8 8.2 10.8 124.3 0 Diethyl Ether 14.5 2.9 4.6 104.7 0 10.87429 Diethylene Glycol Monobut 16 7 10.6 170.4 0 Dimethyl Cyclohexane 16.1 0 1.1 140 0 Dimethyl Sulfoxide (DMSO) 18.4 16.4 10.2 71.3 1 7.066692 1,4-Dioxane 17.5 1.8 9 85.7 0 8.160898 1,3-Dioxolane
    [Show full text]