DOCSLIB.ORG

Directory of Services Are Our List/Non-Discounted Prices

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Directory of Services Are Our List/Non-Discounted Prices TABLE OF CONTENTS I. GENERAL INFORMATION 1. Introduction 3 2. Mailing/shipping address 3 3. Contact information 3 4. How to use this directory 4 5. Discount program 4 II. INDUSTRIAL HYGIENE SERVICES AND FEES 1. General information and Policies 5 1.1. Standard Turnaround Time 5 1.2. Shipping, Billing and Rush Multipliers 5 1.3. Discounts for Multiple Analytes on Single Media 6 1.4. Blanks and Charges 6 1.5. Method Development 6 1.6. Media 6 1.7. Sampling Instructions 7 1.8. Analytical Reports 9 1.9. No Charge Loaner Pump Program 10 1.10. Laboratory Test Request (Chain of Custody) 12 2. Industrial Hygiene Test Catalog 13 2.1. How to Use the Test Catalog 13 2.2. Alphabetical Listing of Test Methods 16 2.3. Profiles 107 2.4. Media Table 110 III. PHARMACEUTICAL TESTING SERVICES 117 1 IV. ENVIRONMENTAL SERVICES AND FEES 119 1. Introduction 119 2. Standard Turnaround Time 119 3. Billing and Rush Multipliers 119 4. Deliverable Multipliers 119 5. Certifications 119 6. Sample Containers/Shipping Kits 120 7. Sample Kit/Cooler Return Policy 120 8. Sample Kit/Cooler Temperatures 120 9. Sample Collection and Preservation Guidelines 120 10. How to Submit a Sample 121 11. Reports and Deliverables 122 12. Alphabetical Listing of Methods 125 V. MISCELLANEOUS SERVICES AND FEES 147 1. Introduction 147 2. Microbiology: Bacteria in Air 148 3. Microbiology: Bacteria in Water 148 4. Microbiology: Fungal 149 5. Air Quality Testing 150 VI. SERVICE GUIDE SUMMARY 150 1. Standard Terms and Conditions 150 2 I. General Information 1. Introduction Analytics has been a major supplier of industrial hygiene and environmental testing services to Fortune 500 companies, government agencies, and engineering firms since 1977. This experience allows us to provide services that are both high in quality and cost effective. Analytics is proud of the reputation we have earned over the last 30 years as a result of providing our customers the best quality analytical data available in the U.S. and more than 30 countries abroad. We have over 1800 active clients and have done business with most of them for over 10 years. Analytics’ facility is one of the finest industrial hygiene and environmental laboratories in the country. We have in place the certifications, SOPs, insurance, and state-of-the art- instrumentation required to meet OSHA, NIOSH, and EPA analytical requirements. Our standard turnaround time is 3 days for Industrial Hygiene samples, and 5 days for environmental samples. Analytics has no difficulty in meeting 24-hour turnaround time as may be required. 2. Mailing/Shipping Addresses Main Office & Remittance Address Website Laboratory Analytics Corporation www.analyticscorp.com Federal Tax ID #36- Analytics Corporation PO Box 25249 Richmond, VA 23260 4359432 DUNS 10329 Stony Run Lane #151052102 Ashland, VA 23005 800-888-8061 804-365-3000 804-365-3002 (Fax) 3. Contact Information All personnel can be reached via our toll free number – 800-888-8061. James McCarthy, President –5201 Jeffrey Spink, CEO – x5004 Andrew Teague, CIH, Industrial Hygiene Technical Laboratory Director – x5226 Dawn Casto, Environmental Technical Director – x5208 Jack Simila, Sales & No Charge Loaner Pumps – x5108 Customer Service – x0 3 4. How to Use This Directory This directory has been designed so you can find individual industrial hygiene analytes alphabetically and within profiles. Environmental analytes are sorted alphabetically and by regulation. Pharmaceutical APIs and surrogates are sorted alphabetically. The following information is included in the alphabetical listings: Industrial Hygiene: Analyte, CAS #, Recommended Media, Suggested Volume, Sampling Rate, LOQ, Analytical Method, Analytical Technique, Lab Code, and Comments. Environmental: Analyte, Method, Sample Container and Volume Requirements, Preservation, Holding Times, and Limits of Quantitation. Pharmaceutical: Compound, Media, Reporting Limit, Method. Please refer to the Data Deliverables Section at the end of both the IH and Environmental Services and Fees sections for a complete listing of our data package options. We can provide your data via fax, e-mail, or CD-ROM. Our data package turnaround time is contingent upon the data package level required. 5. Discount Program Please note that all prices listed in this Directory of Services are our list/non-discounted prices. Client discounts may be available and are based on your annual volume of business. Please contact our Sales personnel to discuss volume related discounting. 4 II. Industrial Hygiene Services and Fees 1. General Information and Policies As you know, an industrial hygiene laboratory analyzes samples taken in the workplace environment. Since results of these analyses are used to determine the magnitude or presence of a problem in the workplace environment, it is vital that the laboratory analyzing the samples be proficient in producing high quality data on which important health decisions will be based. Our accreditation from AIHA is a mark of that capability. The AIHA accreditation shows that the laboratory has met defined standards for performance based on examination of a variety of criteria. When an IH laboratory is accredited by AIHA, it becomes part of a select group that have proven a high level of professional performance can be achieved and maintained. 1.1 Standard Turnaround Time Analytics standard turnaround time for most industrial hygiene analyses is 3 business days from sample receipt at the laboratory. Faxed, e-mail, or verbal results are available by the close of business on the due date. A hard copy of the report will follow by mail. 1.2 Shipping, Billing and Rush Multipliers Analytics will cover the cost of STANDARD OVERNIGHT FedEx return shipment to the laboratory of six (6) or more samples shipped within the United States. All other overnight delivery services charged on Analytics’ accounts will be billed at the courier’s published rate. Clients may request monthly billing or individual invoices by sample group. Pricing is subject to change based on the current state of the economy. Billing by sample group is assumed unless otherwise requested. Billing terms are payable net 30. Acceptable forms of payment include check, money order, wire transfer, VisaTM, MasterCardTM, DiscoverTM or American ExpressTM. Samples requiring rush or priority turnaround time must be scheduled prior to sample submission. The following charges will apply: 2 Day Turnaround Time 1.75 x price 1 Day Turnaround Time 2.00 x price Same Day Turnaround Time 3.00 x price Weekend Analysis 3.00 x price + $300 Holiday Analysis 3.00 x price + $300 5 1.3 Discounts for Multiple Analytes on Single Media Analysis of multiple compatible analytes captured on one medium is available at a discounted fee. The higher priced analyte is billed at the published fee with additional analytes discounted as follows: Organics by GC 50% of the published fee Inorganics by ICP 50% of the published fee Inorganics by ICP/MS 50% of the published fee Inorganics by GFAA 50% of the published fee Analytes by IC/HPLC 50% of the published fee Other discounts may apply based on the volume and types of samples. 1.4 Blanks and Charges Blanks act as a control for analysis by accounting for contamination that can occur during handling, storage or shipment of samples. Therefore, they are recommended as standard industrial hygiene practice. Please handle them the same as samples, but draw no air through them. Submit one blank with each sample group of 10 or less, two blanks with 11-20 samples, etc. (i.e., 10% blanks). Since blanks are analyzed as any other sample in the laboratory, they are priced according to the analysis requested. Additional support documentation, including instrument calibration, chromatograms, etc. is available at a preparation charge of 20% of the total analytical cost. Analytics reserves the right to refuse to process any sample, which is deemed by the laboratory to be non-compliant with the quality assurance requirements. In such cases, client services will notify the client. If sample issues cannot be resolved, the client may be billed a sample-handling fee for costs incurred up to that point. 1.5 Method Development Analytics has over 500 methods currently in service. It has always been our policy to develop new routine methods at no charge, assuming adequate demand. In addition, we can develop very specific/one of a kind methods for a standard fee plus expenses. 1.6 Media Standard filter cassettes, sorbent tubes, specialized filters and tubes are supplied free if the samples are returned for analysis. Fees for organics are based on small charcoal tube analysis – there is an additional charge of $8.00 for large charcoal tubes. Diffusive (passive) monitor fees are not included in the analytical unit price and are billed at the time of shipment. Media can be shipped via ground service at no charge. A purchase order or credit card authorization may be required prior to the shipment of media. Media that has been supplied free and not returned for analysis to our laboratory after thirty days will be billed at current manufacturer published prices. See Section 2.4 - Media Table, which provides part numbers, descriptions and pricing for sampling media. 6 1.7 Sampling Instructions The Analytics technical staff is available to discuss sampling strategies, sample requirements, and laboratory capabilities. Please direct inquiries through client services. The volume of air to be collected for your samples is based on a number of factors, including: • Threshold Limit Value (TLV) or Permissible Exposure Limit (PEL) • Sensitivity of the analytical procedure • Capacity of the collection device • Concentration range to be measured The recommendations for air volumes, sampling rates and suggested media within this directory are provided for your convenience and are intended only as a guide to sample collection. With few exceptions, these air volumes enable the laboratory to report one- tenth of the TLV as the detection limit.
Load more

Recommended publications
  • Factors Influencing Pesticide Resistance in Psylla Pyricola Foerster and Susceptibility Inits Mirid
    AN ABSTRACT OF THE THESIS OF: Hugo E. van de Baan for the degree ofDoctor of Philosopbv in Entomology presented on September 29, 181. Title: Factors Influencing Pesticide Resistance in Psylla pyricola Foerster and Susceptibility inits Mirid Predator, Deraeocoris brevis Knight. Redacted for Privacy Abstract approved: Factors influencing pesticide susceptibility and resistance were studied in Psylla pyricola Foerster, and its mirid predator, Deraeocoris brevis Knight in the Rogue River Valley, Oregon. Factors studied were at the biochemical, life history, and population ecology levels. Studies on detoxification enzymes showed that glutathione S-transferase and cytochrome P-450 monooxygenase activities were ca. 1.6-fold higherin susceptible R. brevis than in susceptible pear psylla, however, esterase activity was ca. 5-fold lower. Esterase activity was ca. 18-fold higher in resistant pear psylla than in susceptible D. brevis, however, glutathione S-transferase and cytochrome P-450 monooxygenase activities were similar. Esterases seem to be a major factor conferring insecticideresistance in P. Pvricola. Although the detoxification capacities of P. rivricola and D. brevis were quite similar, pear psylla has developed resistance to many insecticides in the Rogue River Valley, whereas D. brevis has remained susceptible. Biochemical factors may be important in determining the potential of resistance development, however, they are less important in determining the rate at which resistance develops. Computer simulation studies showed that life history and ecological factors are probably of greater importancein determining the rate at which resistance develops in P. pvricola and D. brevis. High fecundity and low immigration of susceptible individuals into selected populations appear to be major factors contributing to rapid resistance development in pear psylla compared with D.
    [Show full text]
  • OSPAR Background Document on Methoxychlor ______
    Hazardous Substances Series --------------------------------------------------------------------------------------------------------------------- Methoxychlor1 OSPAR Commission 2002 (2004 Update) 1 Secretariat’s note: A review statement on methoxychlor (Publication 352d/2008) was adopted in 2008, highlighting new developments since the adoption of the Background Document. OSPAR Commission, 2002: OSPAR Background Document on Methoxychlor _______________________________________________________________________________________________________ The Convention for the Protection of the Marine Environment of the North-East Atlantic (the “OSPAR Convention”) was opened for signature at the Ministerial Meeting of the former Oslo and Paris Commissions in Paris on 22 September 1992. The Convention entered into force on 25 March 1998. It has been ratified by Belgium, Denmark, Finland, France, Germany, Iceland, Ireland, Luxembourg, Netherlands, Norway, Portugal, Sweden, Switzerland and the United Kingdom and approved by the European Community and Spain. La Convention pour la protection du milieu marin de l'Atlantique du Nord-Est, dite Convention OSPAR, a été ouverte à la signature à la réunion ministérielle des anciennes Commissions d'Oslo et de Paris, à Paris le 22 septembre 1992. La Convention est entrée en vigueur le 25 mars 1998. La Convention a été ratifiée par l'Allemagne, la Belgique, le Danemark, la Finlande, la France, l’Irlande, l’Islande, le Luxembourg, la Norvège, les Pays-Bas, le Portugal, le Royaume-Uni de Grande Bretagne et d’Irlande du Nord, la Suède et la Suisse et approuvée par la Communauté européenne et l’Espagne. © OSPAR Commission, 2002. Permission may be granted by the publishers for the report to be wholly or partly reproduced in publications provided that the source of the extract is clearly indicated. © Commission OSPAR, 2002.
    [Show full text]
  • (A) Sources, Including As Appropriate (Provide Summary Information
    UNEP/POPS/POPRC.1/4 Format for submitting pursuant to Article 8 of the Stockholm Convention the information specified in Annex E of the Convention Introductory information Name of the submitting Party/observer NGO Observer: Pesticide Action Network on behalf of the International POPs Elimination Network (IPEN) Contact details Clare Butler Ellis PhD, M.Inst.P, C.Env. Pesticide Action Network UK [email protected] Joseph DiGangi, PhD Environmental Health Fund +001-312-566-0985 [email protected] Chemical name Chlordecone Chemical name: 1,1a,3,3a,4,5,5,5a,5b,6-decachloro-octahydro-1,3,4-metheno-2H- cyclobuta[cd]pentalen-2-one CAS=143-50-0 Common trade names: GC 1189, Kepone, Merex Synonyms: Chlordecone, Chlordecone Kepone, Decachloroketone, Decachlorooctahydro-1,3,4-metheno-2H-cyclobuta(cd)pentalen-2-one, Decachloropentacyclo(5.3.0.0.0.0 2,6,4,10,5,9)decane-3-one, Decachlorotetracyclodecanone decachlorooctahydro- , Date of submission 27 January 2006 (a) Sources, including as appropriate (provide summary information and relevant references) (i) Production data: Quantity 1 “Chlordecone is no longer produced commercially in the United States. Between 1951 and 1975, approximately 3.6 million pounds (1.6 million kg) of chlordecone were produced in the United States (Epstein 1978). During this period, Allied Chemical Annex E information on chlordecone 1 UNEP/POPS/POPRC.1/4 Company produced approximately 1.8 million pounds (816,500 kg) of chlordecone at plants in Claymont, Delaware; Marcus Hook, Pennsylvania and Hopewell, Virginia. In 1974, because of increasing demand for chlordecone and a need to use their facility in Hopewell, Virginia, for other purposes, Allied Chemical transferred its chlordecone manufacturing to Life Sciences Products Company (EPA 1978b).
    [Show full text]
  • Federal Register/Vol. 71, No. 80/Wednesday, April 26
    Federal Register / Vol. 71, No. 80 / Wednesday, April 26, 2006 / Proposed Rules 24615 section for a location to examine the Definition August 2, 1996, that are associated with regulatory evaluation. (h) For the purposes of this AD, an HPT actions proposed herein were module exposure is when the 1st stage HPT previously counted as reassessed at the List of Subjects in 14 CFR Part 39 rotor and 2nd stage HPT rotor are removed time of the completed Reregistration from the HPT case, making the 2nd stage Eligibility Decision (RED), Report of the Air transportation, Aircraft, Aviation HPT vanes and 2nd stage HPT air seal safety, Safety. Food Quality Protection Act (FQPA) assembly accessible in the HPT case. Tolerance Reassessment Progress and The Proposed Amendment Alternative Methods of Compliance Risk Management Decision (TRED), or Federal Register action. Under the authority delegated to me (i) The Manager, Engine Certification by the Administrator, the Federal Office, has the authority to approve DATES: Comments must be received on alternative methods of compliance for this or before June 26, 2006. Aviation Administration proposes to AD if requested using the procedures found amend 14 CFR part 39 as follows: in 14 CFR 39.19. ADDRESSES: Submit your comments, identified by docket identification (ID) PART 39—AIRWORTHINESS Related Information number EPA–HQ–OPP–2005–0459, by DIRECTIVES (j) None. one of the following methods: • Issued in Burlington, Massachusetts, on Federal eRulemaking Portal: http:// 1. The authority citation for part 39 April 19, 2006. www.regulations.gov. Follow the on-line continues to read as follows: instructions for submitting comments.
    [Show full text]
  • Question of the Day Archives: Monday, December 5, 2016 Question: Calcium Oxalate Is a Widespread Toxin Found in Many Species of Plants
    Question Of the Day Archives: Monday, December 5, 2016 Question: Calcium oxalate is a widespread toxin found in many species of plants. What is the needle shaped crystal containing calcium oxalate called and what is the compilation of these structures known as? Answer: The needle shaped plant-based crystals containing calcium oxalate are known as raphides. A compilation of raphides forms the structure known as an idioblast. (Lim CS et al. Atlas of select poisonous plants and mushrooms. 2016 Disease-a-Month 62(3):37-66) Friday, December 2, 2016 Question: Which oral chelating agent has been reported to cause transient increases in plasma ALT activity in some patients as well as rare instances of mucocutaneous skin reactions? Answer: Orally administered dimercaptosuccinic acid (DMSA) has been reported to cause transient increases in ALT activity as well as rare instances of mucocutaneous skin reactions. (Bradberry S et al. Use of oral dimercaptosuccinic acid (succimer) in adult patients with inorganic lead poisoning. 2009 Q J Med 102:721-732) Thursday, December 1, 2016 Question: What is Clioquinol and why was it withdrawn from the market during the 1970s? Answer: According to the cited reference, “Between the 1950s and 1970s Clioquinol was used to treat and prevent intestinal parasitic disease [intestinal amebiasis].” “In the early 1970s Clioquinol was withdrawn from the market as an oral agent due to an association with sub-acute myelo-optic neuropathy (SMON) in Japanese patients. SMON is a syndrome that involves sensory and motor disturbances in the lower limbs as well as visual changes that are due to symmetrical demyelination of the lateral and posterior funiculi of the spinal cord, optic nerve, and peripheral nerves.
    [Show full text]
  • Endosulfan Sulfate Hazard Summary Identification
    Common Name: ENDOSULFAN SULFATE CAS Number: 1031-07-8 RTK Substance number: 2988 DOT Number: UN 2761 Date: May 2002 ------------------------------------------------------------------------- ------------------------------------------------------------------------- HAZARD SUMMARY WORKPLACE EXPOSURE LIMITS The following information is based on Endosulfan: The following exposure limits are for Endosulfan: * Endosulfan Sulfate can affect you when breathed in and may be absorbed through the skin. NIOSH: The recommended airborne exposure limit is 3 * High exposure to Endosulfan Sulfate may cause 0.1 mg/m averaged over a 10-hour workshift. headache, giddiness, blurred vision, nausea, vomiting, diarrhea, and muscle weakness. Severe poisoning may ACGIH: The recommended airborne exposure limit is 3 cause convulsions and coma. 0.1 mg/m averaged over an 8-hour workshift. * Repeated and high exposures may affect the heart causing irregular heartbeats (arrhythmia). * The above exposure limits are for air levels only. When * CONSULT THE NEW JERSEY DEPARTMENT OF skin contact also occurs, you may be overexposed, even HEALTH AND SENIOR SERVICES HAZARDOUS though air levels are less than the limits listed above. SUBSTANCE FACT SHEET ON ENDOSULFAN. WAYS OF REDUCING EXPOSURE IDENTIFICATION * Where possible, enclose operations and use local exhaust Endosulfan Sulfate is a sand-like powder which is not ventilation at the site of chemical release. If local exhaust produced or used commercially. It occurs from the precursor ventilation or enclosure is not used, respirators should be Endosulfan, which is used as a pesticide. worn. * Wear protective work clothing. REASON FOR CITATION * Wash thoroughly immediately after exposure to * Endosulfan Sulfate is on the Hazardous Substance List Endosulfan Sulfate and at the end of the workshift.
    [Show full text]
  • Food and Chemical Toxicology 64 (2014) 1–9
    Food and Chemical Toxicology 64 (2014) 1–9 Contents lists available at ScienceDirect Food and Chemical Toxicology journal homepage: www.elsevier.com/locate/foodchemtox Taurine reverses endosulfan-induced oxidative stress and apoptosis in adult rat testis ⇑ Hamdy A.A. Aly a,b, , Rasha M. Khafagy c a Department of Pharmacology and Toxicology, Faculty of Pharmacy, King Abdulaziz University, Jeddah, Saudi Arabia b Department of Pharmacology and Toxicology, Faculty of Pharmacy, Al-Azhar University, Nasr City, Cairo, Egypt c Physics Department, Girls College for Arts, Science and Education, Ain Shams University, Cairo, Egypt article info abstract Article history: The present study was aimed to investigate the mechanistic aspect of endosulfan toxicity and its protec- Received 26 March 2013 tion by taurine in rat testes. Pre-treatment with taurine (100 mg/kg/day) significantly reversed the Accepted 11 November 2013 decrease in testes weight, and the reduction in sperm count, motility, viability and daily sperm produc- Available online 19 November 2013 tion in endosulfan (5 mg/kg/day)-treated rats. Sperm chromatin integrity and epididymal L-carnitine were markedly decreased by endosulfan treatment. Endosulfan significantly decreased the level of serum Keywords: testosterone and testicular 3b-HSD, 17b-HSD, G6PDH and LDH-X. Sperm Dwm and mitochondrial cyto- Endosulfan chrome c content were significantly decreased after endosulfan. Testicular caspases-3, -8 and -9 activities Taurine were significantly increased but taurine showed significant protection from endosulfan-induced apopto- Sperm Apoptosis sis. Oxidative stress was induced by endosulfan treatment as evidenced by increased H2O2 level and LPO Oxidative stress and decreased the antioxidant enzymes SOD, CAT and GPx activities and GSH content.
    [Show full text]
  • Results from Monitoring Endosulfan and Dieldrin in Wide Hollow Creek, Yakima River Drainage, 2005-06
    A D e p a r t m e n t o f E c o l o g y R e p o r t Results from Monitoring Endosulfan and Dieldrin in Wide Hollow Creek, Yakima River Drainage, 2005-06 Abstract Endosulfan and dieldrin were monitored in Wide Hollow Creek near Yakima from July 2005 through June 2006. Wide Hollow Creek is on the federal Clean Water Act Section 303(d) list as water quality limited for historically exceeding aquatic life and/or human health water quality criteria for these pesticides. Results showed that endosulfan no longer qualifies for 303(d) listing. Dieldrin, however, was consistently above human health criteria and should therefore remain listed. Data were also obtained on endosulfan sulfate and aldrin. By Art Johnson and Chris Burke Publication No. 06-03-038 September 2006 Waterbody No. WA-37-1047 Publication Information This report is available on the Department of Ecology’s website at www.ecy.wa.gov/biblio/0603038.html Data for this project are available on Ecology’s Environmental Information Management (EIM) website at www.ecy.wa.gov/eim/index.htm. Search User Study ID, AJOH0053. Ecology’s Study Tracker Code for this study is 06-001. For more information contact: Publications Coordinator Environmental Assessment Program P.O. Box 47600 Olympia, WA 98504-7600 E-mail: [email protected] Phone: (360) 407-6764 Authors: Art Johnson and Chris Burke Watershed Ecology Section Environmental Assessment Program Washington State Department of Ecology E-mail: [email protected], [email protected] Phone: 360-407-6766, 360-407-6139 Address: PO Box 47600, Olympia WA 98504-7600 Any use of product or firm names in this publication is for descriptive purposes only and does not imply endorsement by the author or the Department of Ecology.
    [Show full text]
  • December 12, 1995. Title
    AN ABSTRACT OF THE THESIS OF Sirinmas Intharapanith for the degree of Master of Science in Toxicology presented on December 12, 1995.Title:Effect of Xenoestrogen Exposure on The Expression of Cytocluome P450 Isoforms in Rainbow Trout Liver. Redacted for privacy Abstract approved: Donald R. Buhler Experimental evidence revealsthat xenoestrogens such asorganochlorine pesticides, pharmaceuticals, phenolic compounds and phytoestrogen exhibit reproductive effects on the health of human and wildlife populations. In rainbow trout, injection with 1713-estradiol represses expression of cytochrome P450s (CYP2K1, CYP2M1 and P450 LMC5) and reduces hepatic lauric acid hydroxylase activity. The aim of our study was to examine the effect on the regulation of rainbow trout P450s of four xenoestrogenic chemicals from the following categories:pesticides, pharmaceuticals, surfactants and phytoestrogens. Therefore, four chemicals, methoxychlor (20 mg/kg), diethylstilbestrol (15 mg/kg), 4-tert-octylphenol (25 and 50 mg/kg) and biochanin A (25 and 50 mg/kg) were injected (ip) on days 1,4 and 7 into one-year old juvenile rainbow trout using propylene glycol as vehicle. All fish were sacrificed on day 9.Plasma vitellogenin levels were measured by ELISA and used as an indicator of the estrogenic activity of the four chemicals. Plasma vitellogenin increased in all treated trout to varying degrees, ranging from high to low, in response to the test chemicals in the following order of decreasing of activities: diethylstilbestrol (15 mg/kg), 4-tert-octylphenol (50 mg/kg), 4-tert-octylphenol (25 mg/kg), biochanin A (50 mg/kg), biochanin A (25 mg/kg) and methoxychlor (20 mg/kg), respectively. As found upon treatment with estrogens, all four chemicals treated trout liver microsomes markedly repressed expression of P450's in liver microsomes from treated trout as measured by Western blots.Laurie acid hydroxylase activity also was greatly reduced in trout treated with all four chemicals.
    [Show full text]
  • Developmental Reprogramming of Reproductive and Metabolic Dysfunction in Sheep: Native Steroids Vs
    international journal of andrology ISSN 0105-6263 REVIEW ARTICLE Developmental reprogramming of reproductive and metabolic dysfunction in sheep: native steroids vs. environmental steroid receptor modulators V. Padmanabhan, H. N. Sarma, M. Savabieasfahani, T. L. Steckler and A. Veiga-Lopez Department of Pediatrics and the Reproductive Sciences Program, The University of Michigan, Ann Arbor, MI, USA Summary Keywords: The inappropriate programming of developing organ systems by exposure to bisphenol A, endocrine disrupting chemicals, excess native or environmental steroids, particularly the contamination of our foetal programming, infertility, insulin environment and our food sources with synthetic endocrine disrupting chemi- resistance, metabolic programming, cals that can interact with steroid receptors, is a major concern. Studies with methoxychlor, neuroendocrine, ovary native steroids have found that in utero exposure of sheep to excess testoster- Correspondence: one, an oestrogen precursor, results in low birth weight offspring and leads to Vasantha Padmanabhan, Room 1109, 300 N. an array of adult reproductive ⁄ metabolic deficits manifested as cycle defects, Ingalls Building, University of Michigan, Ann functional hyperandrogenism, neuroendocrine ⁄ ovarian defects, insulin resis- Arbor, MI 48109, USA. tance and hypertension. Furthermore, the severity of reproductive dysfunction E-mail: [email protected] is amplified by excess postnatal weight gain. The constellation of adult repro- ductive and metabolic dysfunction in prenatal testosterone-treated sheep is Received 18 August 2009; revised 25 October similar to features seen in women with polycystic ovary syndrome. Prenatal 2009; accepted 27 October 2009 dihydrotestosterone treatment failed to result in similar phenotype suggesting doi:10.1111/j.1365-2605.2009.01024.x that many effects of prenatal testosterone excess are likely facilitated via aroma- tization to oestradiol.
    [Show full text]
  • (12) United States Patent (10) Patent No.: US 8,486,374 B2 Tamarkin Et Al
    USOO8486374B2 (12) United States Patent (10) Patent No.: US 8,486,374 B2 Tamarkin et al. (45) Date of Patent: Jul. 16, 2013 (54) HYDROPHILIC, NON-AQUEOUS (56) References Cited PHARMACEUTICAL CARRIERS AND COMPOSITIONS AND USES U.S. PATENT DOCUMENTS 1,159,250 A 11/1915 Moulton 1,666,684 A 4, 1928 Carstens (75) Inventors: Dov Tamarkin, Maccabim (IL); Meir 1924,972 A 8, 1933 Beckert Eini, Ness Ziona (IL); Doron Friedman, 2,085,733. A T. 1937 Bird Karmei Yosef (IL); Alex Besonov, 2,390,921 A 12, 1945 Clark Rehovot (IL); David Schuz. Moshav 2,524,590 A 10, 1950 Boe Gimzu (IL); Tal Berman, Rishon 2,586.287 A 2/1952 Apperson 2,617,754 A 1 1/1952 Neely LeZiyyon (IL); Jorge Danziger, Rishom 2,767,712 A 10, 1956 Waterman LeZion (IL); Rita Keynan, Rehovot (IL); 2.968,628 A 1/1961 Reed Ella Zlatkis, Rehovot (IL) 3,004,894 A 10/1961 Johnson et al. 3,062,715 A 11/1962 Reese et al. 3,067,784. A 12/1962 Gorman (73) Assignee: Foamix Ltd., Rehovot (IL) 3,092.255. A 6, 1963 Hohman 3,092,555 A 6, 1963 Horn 3,141,821 A 7, 1964 Compeau (*) Notice: Subject to any disclaimer, the term of this 3,142,420 A 7/1964 Gawthrop patent is extended or adjusted under 35 3,144,386 A 8/1964 Brightenback U.S.C. 154(b) by 1180 days. 3,149,543 A 9, 1964 Naab 3,154,075 A 10, 1964 Weckesser 3,178,352 A 4, 1965 Erickson (21) Appl.
    [Show full text]
  • Exploring the Environmental Exposure to Methoxychlor, Α-HCH and Endosulfan–Sulfate Residues in Lake Naivasha (Kenya) Using a Multimedia Fate Modeling Approach
    International Journal of Environmental Research and Public Health Article Exploring the Environmental Exposure to Methoxychlor, α-HCH and Endosulfan–sulfate Residues in Lake Naivasha (Kenya) Using a Multimedia Fate Modeling Approach Yasser Abbasi * and Chris M. Mannaerts Department of Water Resources, Faculty of Geo-Information Science and Earth Observation, University of Twente, Hengelosestraat 99, 7514 AE Enschede, The Netherlands; [email protected] * Correspondence: [email protected] Received: 10 March 2020; Accepted: 13 April 2020; Published: 15 April 2020 Abstract: Distribution of pesticide residues in the environment and their transport to surface water bodies is one of the most important environmental challenges. Fate of pesticides in the complex environments, especially in aquatic phases such as lakes and rivers, is governed by the main properties of the contaminants and the environmental properties. In this study, a multimedia mass modeling approach using the Quantitative Water Air Sediment Interaction (QWASI) model was applied to explore the fate of organochlorine pesticide residues of methoxychlor, α-HCH and endosulfan–sulfate in the lake Naivasha (Kenya). The required physicochemical data of the pesticides such as molar mass, vapor pressure, air–water partitioning coefficient (KAW), solubility, and the Henry’s law constant were provided as the inputs of the model. The environment data also were collected using field measurements and taken from the literature. The sensitivity analysis of the model was applied using One At a Time (OAT) approach and calibrated using measured pesticide residues by passive sampling method. Finally, the calibrated model was used to estimate the fate and distribution of the pesticide residues in different media of the lake.
    [Show full text]