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Chemical Risk Management

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Title: Chemical Risk Management


1
Chemical Risk Management
  • Session 3
  • Laboratory Safety Training

2
Toxic effects of Laboratory Chemicals
  • In order to minimize the hazards associated with
    chemicals used in the laboratory the researcher
    must investigate many sources of information to
    safely design the experiment. There are many ways
    to do this. The starting point should be with a
    review of the MSDS.

3
Hazard Communication
  • Hazard Communication Standard
  • 29CFR 1910.1200
  • OSHA published in 1988, requires, chemical
    manufacturers or importers to evaluate the
    hazards of the products they supply and summarize
    this information on Material Safety Data Sheets
    (MSDS), shipping labels, and product warnings

4
Hazard Communication
  • Employers must supply this information to their
    employees and provide training on
  • The chemical hazards found in their work place.
    This includes training on reading hazard labels
    and MSDS, physical and health hazards of the
    chemicals, how to detect releases, the use of any
    required personal protective equipment (PPE), and
    the details of the hazard communication program.

5
Hazard Communication
  • Specific laboratory requirements include
  • Ensuring all incoming chemical containers are
    labeled,
  • MSDS are received with incoming chemicals and are
    readily accessible to laboratory employees at all
    times, while working in their labs,
  • Ensure all laboratory, employees are trained on
    the physical and health hazards associated with
    the chemicals used including

6
Hazard Communication
  • Methods and observations that may be used to
    detect the presence or release hazardous
    chemicals in the work area,
  • The measures employees can take to protect
    themselves from chemical hazards, such as work
    practices, emergency procedures, and PPE.

7
Hazard Communication
  • Laboratories that ship hazardous chemicals are
    considered either a chemical manufacturer or
    distributor under this standard and must also
    comply with the shipping requirements, including
    labeling containers, using proper shipping names
    and preparing an MSDS to be provided to the
    recipients

8
Each MSDS must contain the following information
  • Suppliers name, address, ph , date,
  • Chemical name, CAS of all hazardous
    ingredients if it is gt 1 of the product,
  • Physical and chemical characteristics, vp., fp.,
  • Physical hazards, including reactivity,
  • Health hazards, including signs and symptoms of
    exposure, medical conditions that might be
    aggravated by exposure,

9
Each MSDS must contain the following information
  1. Emergency and first aid procedures,
  2. Disposal considerations
  3. Transportation information
  • Primary routes of entry,
  • PELs, RELs, TLVs
  • Toxicity data,
  • Storage and handling data,

10
Additional sources of hazard information
  • National Fire Protection Association NFPA 704
  • National Institute of Occupational Safety and
    Health (NIOSH) RELs.
  • American Council of Governmental Hygienists
    (ACGIH) TLVs
  • International Agency for Cancer Research, (IARC)

11
Additional sources of hazard information
  • National library of Medicine (NLM)
  • Toxline, Medline
  • Hazardous substance Data Base (HSDB)
  • Registry of Toxic Effects of Chemical Substances
    (RTECS)
  • MSDS database e.g. SIRI http//www.SIRI.org

12
Other hazard classification systems
  • The NFPA 704 System is a means of providing
    hazard information for a material. Each of the
    four sections is associated with a particular
    hazard and the higher the number the more
    hazardous the material is for that particular
    characteristic. The fourth section is to give
    information on special hazards. Next are the four
    sections and an explanation of each.

13
RedFlammability
  • 4-Materials with a flashpoint below 73 F (22 C)
    and a boiling point below 100 F.3-Materials
    with a flashpoint below 73 F and a boiling point
    greater than or equal to 100 F (38 C) or a
    flashpoint above 73 F and less than 100 F.
    2-Materials with a flashpoint above 100 F, but
    not exceeding 200 F (93.3 C).1-Materials with a
    flashpoint above 200 F.0-Materials which
    normally won't burn.

14
Blue-Health Hazard
  • 4-Materials with an oral LD50 of less than or
    equal to 5 mg/kg.3-Materials with an oral LD50
    above 5, but less than 50 mg/kg.2-Materials
    with an oral LD50 above 50, but less than 500
    mg/kg.1-Materials with an oral LD50 above 500,
    but less than 2000mg/kg.
  • 0-Materials with an oral LD50 above 2000mg/kg.

15
YellowReactivity Hazard
4-Material is capable of explosion or detonation
at normal temperature and pressure.3-Material
is capable of explosion, but requires a strong
initiating source, or the material reacts with
water.2-Material undergoes violent chemical
changes at elevated temperature and
pressure.1-Normally stable, but can become
unstable at elevated temperatures.0-Normally
stable.
16
White Special Hazard
W Water ReactiveOx OxidizerCOR Corrosive
Radiation

17
Routes of Exposure
  • Inhalation - Most common route of exposure, lungs
    are designed for maximum transport and adsorption
    of vapors, large surface area (1000 sf)
  • Dermal Second most common route of exposure,
    lipid (pass with greater ease) and water soluble
    chemicals can pass through the skin. Has 20 sf
    surface area.

18
Routes of Exposure
  • Ingestion can occur through food contamination,
    eating drinking in lab, poor hygiene, mucociliary
    transport of vapors trapped in upper air ways,
  • Injection Can occur through injury and needle
    sticks

19
Lethal Concentration
  • Lethal Concentration- LC-50, pertains to
    inhalation hazards. It is the concentration of a
    material in air that will kill 50 of the test
    subjects when administered as a single exposure
    (typically 1 to 4 hours). This value gives you an
    idea of the relative toxicity of the material.
    This value applies to vapors, dusts, mists and
    gases.

20
Lethal Dose
  • An LD50 value is the amount of a solid or liquid
    material that it takes to kill 50 of test
    animals in one dose. The dose may be administered
    orally (by mouth), or injection into various
    parts of the body. The value is usually reported
    along with the administration method.

21
Acute Toxicity Levels
 
Mg//kg body weight
22
Acute Toxins
  • Acute toxicity is the ability of a chemical to
    cause harm after a single exposure. They can
    cause local, or systemic effects or both.
    Chemicals that have a high level of acute
    toxicity (very low LD, LC-50s) are defined as
    particularly hazardous substances by the Lab
    Standard and require special handling procedures
    to be added to the lab CHP.

23
Acute Toxins
  • These include acrolein, arsine, chlorine,
    diborane, diazomethane, hydrogen cyanide,hydrogen
    floride, sodium cyanide, dimethyl mercury, etc.

24
Chronic Toxicity
  • Harm occurs through repeated usually lower levels
    of exposure. Includes most carcinogens,
    reproductive hazards, some heavy metals. Many
    have a long latency period. Generally the longer
    the exposure the greater the hazard.

25
Factors affecting toxicity
  • The potential for toxic effects is determined by
    the dose, the duration, the frequency and the
    route of exposure.
  • Synergistic effects - the combination of the
    toxic effects of two substances may be
    significantly greater than the toxic effect of
    either substance alone.

26
Reproductive toxins
  • Reproductive toxins are those that have an
    adverse effect on reproduction including
    fertility, gestation, lactation and general
    reproduction performance. Mutagens affect the
    genetic material. Teratogens effect the
    development of the fetus. Ethylene dibromide and
    dibromochloropropane are well known male
    reproductive toxins. Others include

27
Reproductive toxins cont.
  • vacetaldehyde, acrylicacid, aflatoxins, aniline
    arsenic, benzene, benzo(a)pyrene, cadmium,
    carbondisulfide, chromic acid, chloroform,
    chloroprene, N,N-dimethylacetamide,
    dimethylformamide (DMF), dimethyl sulfoxide
    (DMSO), dinitrooctylphenol ,di-sec-octyl-phthalate
    , diphenylamine, dithane, estradiol, 2-ethoxyl
    ethanol, 2-ethoxyetyl acetate, ethyl thiourea,
    2-ethylhexanol, formaldehyde, formamide, glycol
    ethers, halothane, hexachlorobenzene,
    hexafluoroacetone, hydrazine(s),

28
Reproductive toxins cont.
  • iodoacetic acid, karathane, lead compounds,
    mercury compounds, 2-methoxy ethanol, 2-methoxy-
    ethylacetate, methylchloride, N-methyl-2-pyrolido
    ne, nitrobenzene, nitrousoxide, phenol,
    polychlorinated and polybrominated biphenyls,
    propylene glycol, monomethyl ether, propylene
    glycol, monomethyl ether acetate, propylene
    oxide, systhane, TOK(herbicide),toluene,
    trichloroethylene, vinyl- chloride, xylene
  • Additional information _at_ Reproductive Hazards

29
Medical Surveillance programs
  • Use of certain chemicals at particular exposure
    levels require the participation a medical
    surveillance programs.
  • Medical Screening/Surveillance

30
Carcinogens
  • Chemical capable of causing changes in the DNA
    resulting in uncontrolled growth of cells or
    cancer. They are insidious because no immediate
    harmful effects are felt. Latency period can be
    from 20-30 years
  • Usually results from chronic exposures

31
Carcinogens
  • Defined in the Lab Standard as a chemical that
    is
  • Regulated by OSHA as a carcinogen,
  • It is listed by the National Toxicology Program,
  • It is listed as a group 1 under IARC
    (international agency on cancer research),
  • It is listed as a group 2A, or 2B under IARC
    probable and possibly carcinogenic to humans.

32
Carcinogens
  • Examples of "Select Carcinogens
  • Examples of Classes of Carcinogens

33
Conclusion
  • Risk assessment for use of hazardous chemicals
    includes
  • Identify chemicals to be used and circumstances
    of use,
  • Consult sources of information,
  • Evaluate type of toxicity,

34
Conclusion
  • Consider possible routes of exposure,
  • Evaluate quantitative information on toxicity,
  • Select appropriate procedures to minimize
    exposure following hierarchy of protection,
  • Eliminate the hazard
  • Substitute or reduce the hazard

35
Conclusion
  • Engineering Controls Fume Hood, Glove boxes
  • Administrative Controls CHP, SOPs
  • Personal Protective Equipment gloves, goggles
  • Prepare for contingencies.
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