DOCSLIB.ORG

Health Hazards in Photography Ebook Free Download

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Health Hazards in Photography Ebook Free Download OVEREXPOSURE: HEALTH HAZARDS IN PHOTOGRAPHY PDF, EPUB, EBOOK Monona Rossol, Susan D. Shaw | 320 pages | 01 Oct 1991 | Allworth Press, U.S. | 9780960711864 | English | New York, United States Overexposure: Health Hazards in Photography PDF Book In practice, competent employees who have the relevant training, knowledge and understanding of the issues may undertake them. Treat your cleaning materials, rags etc, as hazardous waste. Date of Publication: Tuesday, December 31, One area that photographers need to consider is the possibility of people tripping or slipping over. Pay them to accompany you for the whole trip — and they may be able to make themselves even more valuable by pointing out the most beautiful vantage points. Google Books — Loading The measures to control the risks will vary according to the different areas of the location or photo studio and the different activities being undertaken. Under the Management of Health and Safety at Work Regulations , as amended the Management Regulations , employers need to assess the risks to the health and safety of employees and others who may be affected by their activities. About this product Product Information Suggests safety-conscious techniques for the darkroom and lists rules for darkroom use and clean-up. Black-and-white photographic processes: Introduction. Materials that have exceeded their expiration date may become chemically altered and should be considered unsafe and disposed of accordingly. Provides links to resources to help you connect to state health insurance exchanges for policy options Read more…. Necessary cookies are absolutely essential for the website to function properly. Sign up for LibraryThing to find out whether you'll like this book. The proper choice of gloves, masks, respirators and other safety gear is an important matter. Commercial sources for particular types of masks or respirators can easily be found with search engines once you have identified the make and model required. Bring an actual physical map with you, and learn how to read it. Employers must provide appropriate respiratory protection at no cost to workers, provide appropriate training and education regarding its use, and ensure that workers use it properly. It is mandatory to procure user consent prior to running these cookies on your website. You may also need to carry identification and other documents on your person to prove to anyone who may wish to check you on your way. Look for caution labels; avoid such materials. Hazard Recognition Provides references that aid in recognizing hazards associated with chemical hazards and toxic substances. Pierre-Auguste Renoir. Giclee Prints -Stereogram. Provides references that aid in recognizing hazards associated with chemical hazards and toxic substances. Chromogenic color processes. In creating an environment in the photo-studio or photographic location you will need to consider the following points in creating a health and safety framework. Show More Show Less. Artists-Resources for. Your use of the site and services is subject to these policies and terms. Book description. Safety in the darkroom: Darkroom design. Consider the risks and decide if precautions already being taken are enough, or if more needs to be done. Like the Act, they apply to every work activity. Overexposure: Health Hazards in Photography Writer Phenidone is only slightly toxic by skin contact. Decide who might be harmed and how. Darkroom design. The risk factors to consider include:. Stop bath left over from neutralization of developer can be poured down the drain, once mixed with wash water. Dicit possit eam an, liber vocent accusata vim ei. Developing Baths The most commonly used developers are hydroquinone, monomethyl para-amino phenol sulfate, and phenidone. Health Photography Books. Risk assessment should be straightforward in a simple workplace such as a typical photographic studio or location. Consider the risks and decide if precautions already being taken are enough, or if more needs to be done. Chemical hazards and toxic substances pose a wide range of health hazards such as irritation, sensitization, and carcinogenicity and physical hazards such as flammability, corrosion, and explosibility. Standards Chemical hazards and toxic substances are addressed in specific OSHA standards for general industry, maritime, and construction. Common intensifiers include hydrochloric acid and potassium dichromate, or potassium chlorochromate. Art and Creative Materials Institute, Inc. Precautions See previous sections for precautions in handling photographic chemicals. Search this site. Each will need to be assessed separately and a range of practical measures adopted to control the risk depending on the assessment. Chemical information sources. The solvents are usually skin and eye irritants. Make an offer:. Sodium bisulfite decomposes to form sulfur dioxide if the fixing bath contains boric acid, or if acetic acid is transferred to the fixing bath on the surface of the print. Sign up for LibraryThing to find out whether you'll like this book. Publisher: Allworth Press Publication Date: Non-necessary Non-necessary. For more help see the Common Knowledge help page. In practice, competent employees who have the relevant training, knowledge and understanding of the issues may undertake them. Overexposure: Health Hazards in Photography Reviews Sponsored by the Cleveland Institute of Art. Concentrated acids, such as glacial acetic acid, hydrobromic acid, sulfamic acid and p-toluenesulfonic acids are corrosive by skin contact, inhalation and ingestion. Additional Resources Provides links and references to additional resources related to chemical hazards and toxic substances. Formaldehyde solutions contain some methanol, which is highly toxic by ingestion. Search form Search. Necessary Necessary. Posted by Loaded Landscapes Jun 4, Tips. Upon heating or long standing in solution, it can decompose to form highly toxic sulfur dioxide, which can cause chronic lung problems. Media Type: Book. Make an offer:. Hydroxylamine sulfate is a suspected teratogen in humans since it is a teratogen causes birth defects in animals. Non-necessary Non-necessary. If you get broken down somewhere as in the above example, you could be stuck for a while. Search this site. Other sections contain information or links on subjects such as laboratory safety, and Hazard Communication or Process Safety. This category only includes cookies that ensures basic functionalities and security features of the website. Install ground fault interrupters GFCIs whenever electrical outlets or electrical equipment e. Bleaching uses a number of chemicals, including potassium ferricyanide, potassium bromide, ammonium thiocyanate, and acids. A comprehensive overview on preventing and correcting health hazards of art and craft materials. Continual inhalation of acetic acid vapors, even from the stop bath, may cause chronic bronchitis. Mario on June 5, at pm. Potassium chlorochromate can release highly toxic chlorine gas if heated or if acid is added. Shaw and Monona Rossol Revised edition. When effective engineering controls are not feasible, or while they are being instituted, appropriate respirators shall be used. Symptoms include ringing in the ears tinnitus , nausea, dizziness, muscular twitching, increased respiration, headache, cyanosis turning blue from lack of oxygen due to methemoglobinemia, delirium, and coma. First, explore this Safety and Health Topic webpage that includes links to much of the related information available from OSHA, in addition, near the top of this page is a list of other Safety and Health Topic pages which address specific chemicals. What kind of animals live wild there, and what do you need to look out for? A common after-treatment of negatives and occasionally prints is either intensification or reduction. Examples include the stop bath and fixing bath. Film developing is usually done in closed canisters. Developing Baths The most commonly used developers are hydroquinone, monomethyl para-amino phenol sulfate, and phenidone. Color processing is much more complicated than black and white processing, and there is a wide variation in processes used by different companies. Uranium intensifiers are radioactive, and are especially hazardous to the kidneys. This website uses cookies to improve your experience. Avoid thiourea whenever possible because of its probable cancer status. Organisational task, safety culture etc. If heated or allowed to stand for a long time in water or acid, it decomposes to produce sulfur dioxide, which is highly irritating by inhalation. Chemicals and photography. Resource: 0 bytes. Categories: Creature Comforts. Mel prima vivendum aliquando ut. Overexposure: Health Hazards in Photography Read Online Allworth Press An edition of this book was published by Allworth Press. Keep potassium persulfate and other strong oxidizing agents separate from flammable and easily oxidizable substances. Potassium trioxochlorochromate. Dicit possit eam an, liber vocent accusata vim ei. Health and Safety in Photography. Other Hazards Many other chemicals are also used in black and white processing, including formaldehyde as a pre- hardener, a variety of oxidizing agents as hypo eliminators e. This guide seems to be currently no longer available. Color processing can be either done in trays or in automatic processors. Information available on the pages includes chemical identification and physical properties, exposure limits, sampling information, and additional resources. It is
Load more

Recommended publications
  • How to Handle Cryogenic Liquids
    Photographic Processing Hazards, by Michael McCann, Ph.D., CIH • Black-and-White Photographic Processing o Mixing Photochemicals o Developing Baths o Stop Baths and Fixers o Intensifiers and Reducers o Toners o Other Hazards • Color Processing o Developing Baths o Bleaching, Fixing, and Other Steps Black-and-White Photographic Processing A wide variety of chemicals are used in black and white photographic processing. Film developing is usually done in closed canisters. Print processing uses tray processing, with successive developing baths, stop baths, fixing baths, and rinse steps. Other treatments include use of hardeners, intensifiers, reducers, toners, and hypo eliminators. Mixing Photochemicals Photochemicals can be bought in liquid form, which only need diluting, or powder form, which need dissolving and diluting. Hazards 1. Developer solutions and powders are often highly alkaline, and glacial acetic acid, used in making the stop bath, is also corrosive by skin contact, inhalation and ingestion. 2. Developer powders are highly toxic by inhalation, and moderately toxic by skin contact, due to the alkali and developers themselves (see Developing Baths below). Precautions 1. Use liquid chemistry whenever possible, rather than mixing developing powders. Pregnant women, in particular, should not be exposed to powdered developer. 2. When mixing powdered developers, use a glove box (a cardboard box with glass or plexiglas top, and two holes in the sides for hands and arms), local exhaust ventilation, or wear a NIOSH-approved toxic dust respirator. 3. Wear gloves, goggles and protective apron when mixing concentrated photochemicals. Always add any acid to water, never the reverse. 4. In case of skin contact, rinse with lots of water.
    [Show full text]
  • Massachusetts Chemical Fact Sheet
    Massachusetts Chemical Fact Sheet Hexavalent Chromium Table 1: HEXAVALENT CHROMIUM COMPOUNDS: Compounds SELECTED EXAMPLES* Compound Chemical Formula CAS # This fact sheet is part of a series of chemical fact sheets Ammonium chromate (NH ) Cr0 7788-98-9 developed by TURI to help Massachusetts companies, 4 2 4 community organizations and residents understand the Ammonium dichromate (NH4)2Cr2O7 7789-09-5 chemical’s use and health and environmental effects, as Barium chromate BaCrO4 10294-40-3 well as the availability of safer alternatives. tert-Butyl Chromate [(CH3)3CO]2CrO2 1189-85-1 Hexavalent chromium compounds are a toxic form of Calcium chromate CaCrO4 13765-19-0 chromium and are used in a variety of industrial processes Chromic acid H2CrO4 7738-94-5 and products. Chromium VI chloride CrCl6 14986-48-2 Hexavalent chromium compounds are human carcinogens, Chromic trioxide CrO3 1333-82-0 mutagens and developmental toxicants and are acutely Hexavalent chromium ion Cr6+ 18540-29-9 toxic. Non-hexavalent chromium compounds do not pose Lead chromate PbCrO4 7758-97-6 the same level of concern with regard to either chronic or Lead chromate oxide PbCrO4-PbO 8454-12-1 acute toxicity. Potassium chlorochromate KCrO3Cl 16037-50-6 Until 2011, all chromium compounds were treated as Potassium chromate K2CrO4 7789-00-6 a single category under TURA. Beginning with Potassium dichromate K Cr O 7778-50-9 reporting year 2012, hexavalent chromium 2 2 7 compounds are reportable under TURA as a Silver chromate Ag2CrO4 7784-01-2 separate category and are designated as a Higher Sodium chromate Na2CrO4 7775-11-3 Hazard Substance, which lowers the reporting Sodium dichromate 7789-12-0 threshold to 1,000 lb/year.
    [Show full text]
  • Biophysical Characterization of Protein Interactions by ITC and NMR Xiaochen Lin University of Connecticut - Storrs, [email protected]
    University of Connecticut OpenCommons@UConn Doctoral Dissertations University of Connecticut Graduate School 4-29-2016 Biophysical Characterization of Protein Interactions by ITC and NMR Xiaochen Lin University of Connecticut - Storrs, [email protected] Follow this and additional works at: https://opencommons.uconn.edu/dissertations Recommended Citation Lin, Xiaochen, "Biophysical Characterization of Protein Interactions by ITC and NMR" (2016). Doctoral Dissertations. 1058. https://opencommons.uconn.edu/dissertations/1058 Biophysical Characterization of Protein Interactions by ITC and NMR Xiaochen Lin, PhD University of Connecticut, 2016 Proteins are crucial in virtually all cell activities. The vast majority of proteins interact with other molecules to function properly. The investigation of biomolecular interactions calls for structural and thermodynamic information acquired by a variety of experimental techniques and analytical methods. This dissertation is mainly concentrated on two frequently used and powerful tools, Isothermal Titration Calorimetry (ITC) and Nuclear Magnetic Resonance (NMR) spectroscopy, to investigate protein interactions. p52 Shc, a well-studied cellular adaptor protein, is a positive regulator in the mitogen-activated protein kinases pathway. We have confirmed that Shc interacts with both, integrin tyrosine(s)-phosphorylated cytoplasmic tails and phosphotidylinositol lipids, through the same Phospho-Tyrosine Binding (PTB) domain. The binding to phosphorylated peptides is enthalpy driven and tighter, while Shc interactions with PtdIns are entropy driven and much weaker. Shc interactions with PtdIns and β3-derived peptides are only weakly competitive with partially overlapping bindings sites. We also observed thermodynamic indications for potential intramolecular interactions within Shc, which could be perturbed by the binding to the phosphorylated receptor. BTN3A1, an immunoglobulin superfamily member, was found recently to be critical in Vγ9Vδ2 T cell activation.
    [Show full text]
  • Art Studio Safety Manual
    Art Studio Safety Manual St. Louis Community College Manual prepared on Jan 27, 2016 by the STLCC EHS Specialist, John Snider CHMM (Certified Hazardous Material Manager), CIHT (Certified Industrial Hygiene Technician), Registered Radiation Protection Technologist (RRPT) Art Safety Manual The visual arts can pose Chemicals, compressed significant risks to the health gases, machines and and safety of artists. This electrical hazards are the guide provides an overview most common health and of some of the most safety risks associated with common risks associated the visual arts. with painting, drawing, It is in the artists’ best photography, ceramics, interest to be informed of lithography, and sculpture. the toxic hazards of their All effort has been made to medium and how to use keep this document up to their materials safely. date with new non-toxic products and innovations as well as rediscovered traditional practices. TOXIC EFFECTS The health hazards associated with painting and drawing have been known since Ramazzini described them in his book, De Morbis Artificum Diatriba, in 1713. Working safely can involve changes in how you select your art materials, how you handle and dispose of them. Jay DeFeo, died at the age of sixty due, in large part, to her exposure to lead paints. Many artists of her day did not know what was in the materials they were using. In fact, manufacturers were not required to disclose that information until, for the first time in 1984, California legislation was introduced forcing manufactures to reveal the health hazards within their products. Jay DeFeo working on the painting, The Rose.
    [Show full text]
  • Sd0000029 Evaluation of Chromfte Ore and The
    SD0000029 EVALUATION OF CHROMFTE ORE AND THE OPTIMUM METHODS FOR INDUSTRIAL EXTRACTION OF CHROMIUM A TI1HSIS SUBMITTED BY Bakheit Mustafa Mohamed Salih IN CANDIDATURE FOR TIU:DI:GRFJ:OI MASTER OF SC1HNCT DEPARTMENT OF CHEMISTRY FACULTY OF SCIENCE (P.O.BOX 321) OCTOBER 1999 UNIVERSITY OF KHARTOUM 31/ 28 ABSTRACT Samples of chromite ore, collected from Gam and Cheikay mining area (Ingessana Hills) in east Sudan, were analysed to assess the chromium content. Methods for extraction and analysis of chromium metal were developed and established. Analysis were carried out using atomic absorption spectroscopy (AAS) to estimate the contents of chromium, iron, calcium, and magnesium. X-ray fluorescence (XRF) was used to evaluate the levels of chromium, iron, and calcium in the ore. Volumetric analysis was performed to assess chromium and iron, whilst gravimetric analysis was employed to measure the amounts of calcium, magnesium, aluminum and silicon present in the ore. The data was chemically and statistically analyzed to compare the results obtained by the given analytical methods. The results are in good agreement except iron oxide, which displayed a significantly different value when measured by x-ray fluorescence. The data obtained exhibited similarity in almost all cases, when compared with local and global researches, reports, and literature. The study has revealed the average contents of Cr2O3, FeO, CaO, MgO, A12O3, and SiO2 as 40.66. 11.96, 11.94. 0.36. 16.94, 11.45% respectively. MnO and NiO were detected in trace amounts, the corresponding levels in the ore being 72 and 27 ppm. The average chromium content in extracted potassium dichromate measured by using AAS, XRF, and volumetric methods was found to be 31.7%.
    [Show full text]
  • Hazardous Materials Orientation and Training
    1 Rev. 8/03 Department of Art Hazardous Materials Orientation and Training Introduction The Department of Art’s Environmental Health and Safety Policies are in effect for each studio area beginning Fall 2003. 1. Faculty are asked to require each undergraduate student to purchase a copy of the Policies at Addam’s University Bookstore: the price this year is $3.95. The Policies will be revised each year, as needed. 2. All students are required to acknowledge in writing receipt of the Policies each year. The Department of Art will keep copies of all the signed acknowledgement forms. 3. ALL art materials, including failed art projects, are assumed to be environmentally hazardous and shall NOT be disposed of in ordinary trash. All art material waste, including wash water (see 7, below) will be collected and stored in appropriate containers by the Department of Art, for pick-up and disposal by the University Office of Safety. 4. Sinks are for hand washing only. Sinks are not to be used for washing brushes or tools, or the disposal of waste material. 5. Faculty supervisors are responsible for completing the “Chemical Waste Removal Form” supplied by the Office of Safety for each container of waste that will be collected for disposal. This form must be completed each time there is a new waste container collected for disposal. 6. Faculty supervisors are also responsible for the labeling of hazardous waste containers with the appropriately filled out label—the yellow sticker—from the Office of Safety. These stickers are available through the departmental secretary or by contacting the Office of Safety at 334-5179.
    [Show full text]
  • Art Safety Manual
    Environmental Health and Safety ART SAFETY MANUAL I. Introduction a. Artists use a variety of art media including hazardous and industrial chemicals. This program provides basic information on how to work safely with chemicals and how to control hazardous operations while creating and displaying art. b. The purpose of Tennessee Tech University’s Art Safety Manual is to establish a program that provides guidance to personnel who are involved in art at Tennessee Tech University including the Appalachian Center for Craft. The manual offers technical support for regulatory compliance as well as information on required training and periodic inspections of health and safety practices. The Art Safety Manual can also be used as a training tool for students. II. Document History VERSION DATE COMMENTS 1 July 2015 Initial Art Safety Manual 2 September 2017 Addition of Photography (VI. b.) a. This Art Safety Manual is reviewed annually and amended as necessary and whenever: New art procedures are introduced. There is a significant change to existing processes or techniques. Applicable regulations are revised. An employee or contractor is exposed or injured while working. A "near miss" accident occurs. Property or the environment is negatively impacted. b. Environmental Health and Safety (EHS) will evaluate this Art Safety Manual at least annually and update it as needed to ensure continued program effectiveness and compliance with applicable regulations and industry standards. All revisions to this Art Safety Manual will be shared with the various parties identified in this document. III. Roles and Responsibilities SEPTEMBER 2017 1 a. All employees in the Art Department are responsible for following the guidance provided within this document.
    [Show full text]
  • Art and Craft Safety Guide
    Art and Craft Safety Guide U. S. Consumer Product Safety Commission 4330 East West Highway Bethesda, MD 20814 Pub. No. 5015 In partnership with The Art & Creative Materials Institute (ACMI) Arts, Crafts & Theater Safety, Inc. (ACTS) The National Art Education Association (NAEA) Table of Contents How to Use This Guide........................................................................................................................................... 3 Regulation of Art Materials .................................................................................................................................... 3 Sources of Health and Hazard Information............................................................................................................. 3 Section I Children’s Arts and Crafts ......................................................................................... 5 Guidelines for Selecting Art and Craft Materials for Children ........................................................................ 5 Safety Rules to Be Followed When Children Are Using Art Materials .......................................................... 5 Section II General Hazards Associated with Art and Craft Materials ................................... 6 Types of Hazards .............................................................................................................................................. 6 General Precautions: Storage, Housekeeping, Protective Gear, and Safety Rules .......................................... 6 General
    [Show full text]
  • Art Safety Manual
    George Mason University Art Safety Manual Prepared by: Environmental Health and Safety Office August 2009 Foreword George Mason University has developed the Art Safety Manual to for the purpose of establishing mechanisms, methods, engineering controls, administrative controls and work practice controls that employees must use to safely create and display art. This document outlines George Mason University’s Art Safety Program and describes specific policies and procedures designed to satisfy federal and state safety and health requirements. The components and information required by Virginia Occupational Safety and Health and federal Occupational Safety and Health Administration Standards as they relate to the hazards involved in creating art are contained within this document. Environmental Health and Safety Office i 8/2009 Table of Content Foreword ......................................................................................................................................... i Acronyms ...................................................................................................................................... vi Document History ....................................................................................................................... vii 1.0 Introduction ....................................................................................................................... 1 2.0 Roles and Responsibilities ................................................................................................ 1
    [Show full text]
  • Bennington College Chemical Hygiene Plan
    Bennington College Chemical Hygiene Plan Emergency Contact Information Campus Safety: dial x767 (SOS) from a campus phone • do not call 911, as this will delay the emergency response • non-emergency: Dial x0 from a campus phone or (802)-447-4250 Bennington Fire Department: (802) 442-1051 Bennington Police Department: (802) 442-1030 Southern Vermont Medical Center: (802) 442-6361 Completed: June 2019 Next Review: April 2022 1 Introduction 3 1.1 History of the OSHA Laboratory Standard 3 1.2 Role of the Chemical Hygiene Plan 4 2 Facilities & Personnel to Be Covered Under This Plan 4 3 Responsibilities 5 3.1 President of the College 5 3.2 Dean of the College 5 3.3 Chemical Hygiene Officer 5 3.4 Lab Safety Officers 5 3.5 Students, Student Employees and Researchers 6 4 Standard Laboratory Procedures and Regulations 6 4.1 Basic Rules and Procedures 6 4.2 Control Measures and Equipment 11 4.3 Chemical Procurement, Distribution, and Storage 11 4.4 Housekeeping, Maintenance, and Inspections 13 4.5 Access to Laboratories and Studios 14 4.6 Medical Program 14 4.7 Protective Apparel and Equipment 15 4.8 Records 16 4.9 Spills and Accidents 17 4.10 Waste Disposal Program 17 5 Specific Hazards for Individual Laboratories and Studios 19 6 Training 19 Appendices A. Current Safety Personnel and Contact Information 21 B. Incident Report Form 25 C. Hazardous Waste Management Policy & Procedures 27 D. General Chemical Compatibility Guidelines 31 E. Specific hazards associated with Dickinson Science Building 32 F. Specific hazards associated with VAPA 39 G.
    [Show full text]
  • Toxics Use Reporting Appendices
    Toxics Use Reporting Appendices Developed in collaboration with the Office of Technical Assistance and Technology and the Toxics Use Reduction Institute v. 3/21/2017 Contents Appendix A: Standard Industrial Classification (SIC) Codes and North American Industry Classification System (NAICS) Codes Reportable Under the Massachusetts Toxics Use Reduction Act 1 Appendix B: Guidance for TURA Reporting and Planning for Certain Categories and Chemicals .... 52 Rules for Reporting Water Dissociable Nitrate Compounds Category ........................................................ 52 Guidance on Reporting Hexavalent Chromium (Cr(VI)) Compounds Use in Combustion and Welding Operations (Higher Hazard Substance, Effective Reporting Year 2012) ..................................................... 53 Guidance on Reporting Formaldehyde as Higher Hazard Substance (Effective Reporting Year 2012) and Quantifying its Use in Combustion Operations ............................................................................................ 58 Guidance on Quantifying Use and Reporting Cyanide Compounds under .................................................. 61 the Toxics Use Reduction Act ...................................................................................................................... 61 Guidance on Reporting Hydrofluoric Acid as a Higher Hazard Substance under ....................................... 64 the Toxics Use Reduction Act .....................................................................................................................
    [Show full text]
  • Synthetic Methods for the Preparation of Platinum Anticancer Complexes
    Synthetic Methods for the Preparation of Platinum Anticancer Complexes The MIT Faculty has made this article openly available. Please share how this access benefits you. Your story matters. Citation Wilson, Justin J., and Stephen J. Lippard. “Synthetic Methods for the Preparation of Platinum Anticancer Complexes.” Chemical Reviews 114, no. 8 (April 23, 2014): 4470–4495. As Published http://dx.doi.org/10.1021/cr4004314 Publisher American Chemical Society (ACS) Version Author's final manuscript Citable link http://hdl.handle.net/1721.1/96862 Terms of Use Article is made available in accordance with the publisher's policy and may be subject to US copyright law. Please refer to the publisher's site for terms of use. NIH Public Access Author Manuscript Chem Rev. Author manuscript; available in PMC 2015 April 23. NIH-PA Author ManuscriptPublished NIH-PA Author Manuscript in final edited NIH-PA Author Manuscript form as: Chem Rev. 2014 April 23; 114(8): 4470–4495. doi:10.1021/cr4004314. Synthetic Methods for the Preparation of Platinum Anticancer Complexes Justin J. Wilson and Stephen J. Lippard* Department of Chemistry, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, United States 1. Introduction The demonstration in the 1960's that cis-diamminedichloroplatinum(II), or cisplatin, inhibits cellular division of Escherichia coli1 led to the subsequent discovery that this simple coordination compound is also an effective antitumor agent in mouse models.2 Subsequent studies validated cisplatin as an effective anticancer agent
    [Show full text]