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Osceola District Schools

Osceola District Schools. Laboratory Hygiene Program. Module 2: Occupational Safety and Health. Occupational Safety and Health Act.

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Osceola District Schools

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  1. Osceola District Schools Laboratory Hygiene Program

  2. Module 2: Occupational Safety and Health

  3. Occupational Safety andHealth Act • OSHA established a national policy for safety and health. It was the first comprehensive employee safety and health law in the history of the U.S. Called the Williams Steigers Act Passed in 1970 and was signed into law by President Nixon. Compliance to OSHA regulations has saved thousands of lives and prevented innumerable injuries.

  4. Occupational Safety andHealth Act • The OSH Act created three distinct federal elements for safety management. First is the Division that writes, produces, and manages the regulations. Next is the inspection and enforcement arm of OSHA and finally an Occupational Safety and Health Administration to hear appeals. • OSHA also provides for health and safety research through the National Institute for Occupational Safety and Health which is managed by the Centers for Disease Control.

  5. Occupational Safety andHealth Act • The mission of the Occupational Safety and Health Administration (OSHA) is to save lives, prevent injuries and protect the health of America's workers. To accomplish this, federal and state governments must work in partnership with the more than 100 million working men and women and their six and a half million employers who are covered by the Occupational Safety and Health Act of 1970.

  6. Employees have certain responsibilities to ensure that workplaces are safe. Employees must: Comply with OSHA standards. Employees have certain rights under OSHA such as the right to: Demand safety and health on the job. Request OSHA inspections. Accompany an OSHA officer during an inspection. File a complaint with OSHA anonymously. Be informed of workplace hazards via signs, labels or through training. Receive training which enhances safety Employee Responsibilitiesand Rights

  7. Employers have responsibilities as well such as Keeping employees informed. Displaying OSHA posters. Providing copies of rules and regulations. Maintaining accurate records of accidents. Employers must. Correct violations. Allow employees to refuse abnormally dangerous work. Provide personal protective equipment. Provide training. Enforce rules and regulations. Employer Responsibilities

  8. Emergency Exit Procedures Occupational Noise Exposure Machine Guarding Hazard Communication Control of Hazardous Energy—Lockout/ Tagout Bloodborne Pathogens Confined Space Entry Personal Protective Equipment Process Safety Management Examples of OSHA Regulatory Standards There are many OSHA regulations because there are varying hazards and corrective measures depending upon the industry involved. Some of the most often applied are these:

  9. OSHA Health and Safety Goals • Improve workplace safety and health. • Increase employer and worker awareness of safety and health. • Secure public confidence. For this reason and because of the number of laboratory accidents, OSHA has begun regulating safety in laboratory settings.

  10. Historical Background of Lab Safety Standard Chemical accidents like those described in Module One have demonstrated the need to create and enforce safety regulations that are uniform and consistently applied across the U.S. These regulations follow a pattern of laws designed to protect workers, the environment, and communities against the dangers offered by accidents involving chemicals.

  11. Historical Background of Lab Safety Standard Laws that impact all users of chemicals include: • The Comprehensive Environmental Resource and Liability Act of 1980. This law made EPA a viable force in protecting the environment by allowing it to secure and remediate land contaminated with hazardous waste. • The Superfund Amendments and Reauthorization Act (SARA) provided in Title III - Community Right to Know Act – 1985 as well as the Employee Right to Know requirements that all employees not covered by OSHA must follow.

  12. Historical Background of Lab Safety Standard • Hazard Communication Standard of1986 required employers through OSHA to notify employees as to the hazards of chemicals with which they are required to work. Signing and labeling requirements as well as training specifications mandate how employers must identify hazards. Material Safety Data Sheets are one example. • The OSHA Laboratory Safety Standard of 1991 specifies safe working conditions for employees working in laboratory settings.

  13. OSHA has tailored this standard for occupational exposure to hazardous chemicals in laboratories referred to as the Laboratory Standard which is found in Title 29 of the Code of Federal Regulations Part 1910, Subpart Z, Section 1450 (29 CFR 1910.1450). Occupational Safety andHealth

  14. The goal of laboratory safety is to keep exposures to hazardous materials or risks from physical hazards to a minimum while making every effort to be informed about the risks and hazards. Achieving a zero-risk environment in the laboratory is an impossible task, however, it is possible to approach an accident free workplace by setting a goal of zero incidents and excuses. Safe practice by laboratory workers requires continuing attention, training, and education. Occupational Safety andHealth

  15. What is a Laboratory? A laboratory is defined by OSHA as a “facility where the use of hazardous chemicals occurs”. It includes workplaces where relatively small quantities of hazardous chemicals are used on a non-production basis. Occupational Safety andHealth

  16. OSHA further defines “the use of hazardous chemicals” as the handling or use of such chemicals in which all of the following conditions are met: chemical manipulations are carried out on a laboratory scale multiple chemical procedures or chemicals are used the procedures involved are not part of the production process, nor in any way simulate a production process, and “protective laboratory practices and equipment” are available and in common use to minimize the potential for employee exposure to hazardous chemicals. Occupational Safety andHealth

  17. The term “hazardous chemical” is a broad definition according to OSHA. If you use a chemical that has any sort of associated health hazard (carcinogens, irritants, sensitizers or anything that can irritate or damage the eyes, skin, or mucous membranes) in the process of working with a sample or product, then you have a laboratory. Common examples of OSHA regulated laboratories include laboratories that analyze commercial samples for the environmental or pharmaceutical industries, product testing laboratories, university; middle; and high school teaching laboratories, and in-house research laboratories. Occupational Safety andHealth

  18. Hazardous chemical – the OSHA definition is a chemical for which there is statistically significant evidence based on at least one study conducted in accordance with established scientific principles that acute or chronic health effects may occur in exposed employees. The term "health hazard" includes chemicals which are carcinogens, toxic or highly toxic agents, reproductive toxins, irritants, corrosives, sensitizers, hepatotoxins, nephrotoxins, neurotoxins, agents which act on the hematopoietic systems, and agents which damage the lungs, skin, eyes, or mucous membranes Occupational Safety andHealth

  19. The School District has certain requirements they must meet as outlined in the Laboratory Standard to protect personnel and ensure a safe workplace. In general, SDOC is required to: determine, to the extent possible, which hazardous chemicals are present in the laboratory (this includes chemicals that are delivered to the laboratory and chemicals produced by the laboratory) monitor any employee exposure to regulated chemicals which may be reasonably expected to exceed the action level write and implement a Chemical Hygiene Plan which is the program that addresses the specific hazards found in the lab and the lab's approach to dealing with the hazards Employer Responsibilities Under the Laboratory Standard

  20. The general employer responsibilities of the Laboratory Standard are quite broad in scope. The Laboratory Standard does detail specific requirements that you need to be familiar with so you can implement them in your laboratory. Listed below are the specific references and requirements found within the Laboratory Standard. Compliance with the Laboratory Standard

  21. 1910.1450 c – that employers assure the laboratory employees’ exposures to OSHA regulated substances do not exceed permissible exposure limits. 1910.1450 d - an employee exposure determination including both initial and periodic monitoring. 1910.1450 e - a written Chemical Hygiene Plan 1910.1450 f – employee information and training 1910.1450 g – medical consultation and medical examinations 1910.1450 h - hazard identification 1910.1450 i – use of respirators 1910.1450 j – recordkeeping Compliance with the Laboratory Standard

  22. The Laboratory Standard is not the only standard that effects teachers in school lab classrooms. Another standard that impacts science teachers is the Bloodborne Pathogens Standard. This standard appears in CFR 29 1910.1030. You can read the standard at OSHA.gov. The standard impacts laboratory classroom teachers since it will be their responsibility to render initial first aid when accidents occur and a student or teacher is cut or burned. Occupational Safety andHealth

  23. Bloodborne Pathogens Standard • 29 CFR 1910.1030, Occupational Exposure to Bloodborne Pathogens was published in December 1991 and effective March 1992. It impacts all occupational exposure to blood and other potentially infectious material (OPIM). Some employees are significantly impacted such as nurses and paramedics. Others are peripherally affected because of certain actions they may take in the course of their work such as rendering first aid.

  24. Bloodborne Pathogens Rules & Regulations • OSHA regulations seek to minimize exposures though the use of the following protective measures: • Universal Precautions - the process of treating any blood or OPIM as though is contained a pathogen capable of infecting the worker. • Engineering and Work Practice Controls – managing through design tools and processes that minimize contact with BBPs. • Personal protective equipment – such as latex or other protective gloves, protective eye wear, or gowns. • Housekeeping – controlling how and what is done with waste and used products that may contain BBPs.

  25. Bloodborne Pathogens Rules & Regulations • OSHA Standard - is 29 CFR 1910.1030. Requirements - requires the school district to develop a bloodborne pathogens plan. Also requires training to all employees regularly. High risk employees such as nurses must be trained every year. • Goal - the goal of the program and training is to reduce accidents involving bloodborne pathogens

  26. OSHA STANDARDS • Protects employees • Nurses • Physicians • Health Aids and Technicians • Paramedics • Laboratory technicians • Housekeeping Personnel • Any individual who may have occupational exposure to BBP

  27. OCCUPATIONAL EXPOSURE A brief indoctrination is required at this point. Employees that may (in the performance of employee duties) be reasonably anticipated to come in contact with skin, eye, mucous membrane, or puncture wound (parenteral) contact with blood or Other Potentially Infectious Material (OPIM) are covered by the standard.

  28. BLOODBORNE PATHOGENS • BBPs are pathogenic microorganisms that are present in human blood or OPIMs and can cause disease in humans. • Examples include Hepatitis B virus, Hepatitis C Virus, Human Immunodeficiency Virus. • Human body fluids of concern include the following: • Saliva, semen, vaginal secretions, cerebrospinal fluid, unfixed tissues, any body fluid visibly contaminated with blood. Of greatest concern to classroom teachers would be blood.

  29. Florida DOE Requirements • The DOE specifies a variety of design and process related elements of school laboratories. These are mostly in the construction and operation of school labs. Examples are: • Exhaust and Ventilation • Power • Chemical Storage • Safety • Emergency Control of gases and liquids.

  30. A standard of care (SOC) is one which is created either by a regulatory body or in some cases by a nationally recognized standards writing organization. SOCs are not law (unless adopted by a governmental body) but they still impact how we do business. They do this by establishing a “right” way of doing something. It may not be the way we would prefer to do it but we must give serious consideration to these standards since anyone evaluating our performance in a post-accident setting certainly will. Standards of Care

  31. Some examples of SOCs include The National Fire Protection Association (NFPA) Standard 45 The Standard on Fire Protection for Laboratories Using Chemicals National Research Council Recommendations Concerning Chemical Hygiene in Laboratories. Standards of Care

  32. OSHA and other regulatory entities as well as nationally recognized standards writing organizations impact how school teachers in the laboratory setting perform their job. The goal of this regulation is to limit to number of accidents and their severity to the lowest level possible while still providing for meaningful student experience in the laboratory. It is all of our jobs to make sure that safety is part of everything we do in the lab. Summary Go to the Quiz

  33. (4) Chemical Storage. Rooms used for the storage, handling, and disposal of chemicals used in school and community college laboratories shall comply with the following: (a) Rooms shall be lockable from the outside, but not from the inside. (b) Rooms shall be vented to the exterior. (c) The ventilation system shall not be connected to the air-conditioning return air system. (d) Rooms shall be kept at moderate temperatures. (e) Rooms shall be well illuminated. (f) Rooms shall have shelves with a one-half inch lip on the front. Florida DOE Requirements Back to Module

  34. Section 5.4 2 (g) 2 Mechanical (g) Ventilation and Exhaust. Special provisions shall be made in the design of ventilation systems in the areas of high air contamination, such as chemistry labs, paint shops, auto repair shops, small engine repair shops, and cosmetology labs. Special ventilation system designs shall comply with the "Industrial Ventilation Manual." Laboratory and shop spaces shall be provided with appropriate exhaust systems as follows: 1. Chemistry laboratories and science rooms equipped with fume hoods shall be designed with a high capacity emergency exhaust system providing twenty (20) air changes per hour and may be provided with positive ventilation via doors or windows to the exterior. Signs providing instructions shall be permanently installed at the emergency exhaust system fan switch and adjacent to the door or window to be opened. 2. Chemistry labs shall be provided with fume hoods. Fume hood exhaust fans may be included in the air change rate calculations. Fume hood supply fans shall automatically shut down when the emergency exhaust fan is turned on. Florida DOE Requirements Back to Module

  35. Section 3.2 (a) Safety Science, laboratory, and shop spaces must have labeled master control valves and switches for emergency cut-offs. Section 5.3 (11) (a) 2 Fire Extinguishers and Blankets c. Class B extinguishers of at least 20-B:C capacity shall be installed in spaces where flammable liquids are stored, such as science labs, auto shops, boiler rooms, duplicating stations, and bulk storage of paints. Extinguishers shall be located so that the travel distance from any point in the space to an extinguisher shall not exceed fifty (50) feet. Alkaline dry chemical extinguishers, such as sodium bicarbonate or potassium bicarbonate, shall be installed within fifteen (15) feet of cooking equipment. Section 5.3 (11) (a) Fire Extinguishers and Blankets 4. Fire blankets shall be located in each laboratory and each shop where a fire hazard may exist. Florida DOE Requirements Back to Module

  36. Section 5.3 (16) (f) Power 4. a. Every laboratory space which has electrical receptacles at student work stations shall have an emergency shut-off switch within fifteen (15) feet of the instructor's work station. The emergency shut-off switch shall be operable by a single motion and shall interrupt power to all receptacles in the room. Florida DOE Requirements Back to Module

  37. Section 5.5 (p) Laboratories and Shops. Laboratories and shops comply with the general requirements found elsewhere in this section as well as the special safety provisions found herein. 1. Each laboratory type space, such as chemistry, physics, and home economic labs, and each shop type space, such as automobile, wood working, and welding shops, equipped with unprotected gas cocks, compressed air valves, water service, and electric service, easily accessible to students, has master control valves or switches with permanently attached handles. a. The master control valves and switches are clearly labeled and located in a non- lockable place accessible at the instructor's station to allow for emergency cut-off of services, and valves completely shut-off with a one-quarter turn. Florida DOE Requirements Back to Module

  38. Section 5.5 (p) (cont) b. The master control valves and switches are in addition to the regular main gas supply cut-off, and the main supply cut-off is shut down upon activation of the fire alarm system. 2. Every science room, lab, or shop where students handle materials or chemicals potentially dangerous to human tissue is provided with a dousing shower, floor drain, and eye wash facilities. 4. Laboratory and shop spaces, such as the following, are provided with exhaust systems: a. Chemistry laboratories have a high capacity emergency exhaust system and are provided with a source of positive ventilation and signs providing instructions are permanently installed at the emergency exhaust system fan switch. b. Chemistry labs are provided with fume hoods and fume hood supply fans automatically shut down when the emergency exhaust fan is turned on. Florida DOE Requirements Back to Module

  39. Section 5.3 (16) (f) Power 4. a. Every laboratory space which has electrical receptacles at student work stations shall have an emergency shut-off switch within fifteen (15) feet of the instructor's work station. The emergency shut-off switch shall be operable by a single motion and shall interrupt power to all receptacles in the room. Florida DOE Requirements Back to Module

  40. End of Module References Go to the Quiz

  41. ASE (1996) Safeguards in the School Laboratory (10th ed..), Hatfield: ASE. Borrows, P. (1992) ‘Safety in secondary schools’, in Hull, R. (ed.), ASE Secondary Science Teachers’ Handbook, Hemel Hempstead: Simon & Shuster. (This highlights the common accidents in labs most of which involve chemicals in the eye or mouth or on the body; and describes five ‘main danger areas’ such as burns from alcohol fires and alkali metal explosions.) More recently Borrows has written: ‘Safety in science education’, in Ratcliffe, M. (ed.) (1998). DfEE (1996) Safety in Science Education, London: HMSO. Everett, K. and Jenkins, E. (1991) A Safety Handbook for Science Teachers, London: John Murray. The MSDS Hyperglossary at http://www.ilpi.com/msds/ref/index.html References

  42. 29 CFR 1910.1450 – OSHA’s Laboratory Standard also known as Title 29 of the Code of Federal Regulations Part 1910, Subpart Z, Section 1450 Action Level – a concentration designated in 29 CFR part 1910 for a specific substance, calculated as an eight hour-time weighted average (TWA), which initiates certain required activities such as exposure monitoring and medical surveillance. Action levels are generally set at one half the PEL but the action level may vary from standard to standard. Acute toxicity – is the ability of a chemical to cause a harmful effect such as damage to a target organ or death after a single exposure or an exposure of short duration. American Conference of Governmental Industrial Hygienists (ACGIH) – a non-profit organization consisting of a community of professionals advancing worker health and safety through education and the development and dissemination of scientific and technical knowledge. The ACGIH develops and publishes recommended occupational exposure limits each year called TLVs for hundreds of chemicals, physical agents and biological exposure indices. American National Standard Institute (ANSI) – a non-profit organization that administers and coordinates the US voluntary standardization and conformity assessment system. Biological Materials – Biological or biohazardous materials include all infectious organisms (bacteria, fungi, parasites, viruses, etc.) that can cause disease in humans or cause significant environmental or agricultural impact. Carcinogen - A substance capable of causing cancer. Carcinogens are chronically toxic substances; that is, they cause damage after repeated or long-duration exposure, and their effects may become evident only after a long latency period. Glossary Back to Module

  43. CAS # - Chemical Abstracts Number – a unique number assigned to a chemical by the Chemical Abstracts Service. CFR – Code of Federal Regulations – contains the listings of all US Federal regulations. The CFR, compiled by the Office of the Federal Register, is divided into 50 titles, which cover broad areas subject to Federal regulation. Chemical Hygiene Officer – an employee designated by the employer who is qualified by training or experience to provide technical guidance in the development and implementation of the provisions of the Chemical Hygiene Plan. Note that these duties can be in addition to the other job functions the employee performs in the laboratory. Chemical Hygiene Plan (CHP) – a plan that addresses specific hazards in the laboratory and is required by OSHA’s Laboratory Standard Corrosive – a substance which causes damage to skin, eyes or other parts of the body on contact. Concentrated acids are examples of corrosive substances. Embryotoxin – a substance which retards the growth or affects the development of an unborn child up to and including deformities and death. Mercury compounds, certain heavy metals, aflatoxin, formamide, and radiation are known embryotoxins. Explosive – means a chemical that causes a sudden, almost instantaneous release of pressure, gas and heat when subjected to sudden shock, pressure, or high temperature. Face velocity – the average velocity of air drawn through the face of a chemical fume hood and generally calculated as the total volumetric exhaust flow rate for the hood divided by the area of the open face, less an adjustment for hood air leakage. Glossary Back to Module

  44. Irritant – a chemical which may cause reversible inflammation upon contact. Laboratory -Any facility where the "laboratory use of potentially hazardous chemicals" occurs.  It is a room where relatively small quantities of potentially hazardous chemicals are used during scientific experimentation. Flammable – means a chemical that falls into one of the following categories: aerosol flammable is an aerosol that when tested by the method in 16 CFR 1500.45, yields a flame protection exceeding 18 inches at full valve opening, or a flashback (a flame extending back to the valve) at any degree of valve opening gas flammable is a gas that at ambient temperature and pressure, forms a flammable mixture with air at a concentration of 13% by volume or less or a gas that at ambient temperature and pressure, forms a range of flammable mixtures with air wider than 12% by volume, regardless of the lower limit. liquid flammable means any liquid having a flashpoint below 100°F (37.8°C), except any mixture having components with flashpoints of 100°C or higher, the total of which make up 99 percent or more of the total volume of the mixture. solid flammable means a solid, other than a blasting agent or explosive as defined in 1910.109(a), that is liable to cause fire through friction, absorption of moisture, spontaneous chemical change, or retained heat from manufacturing or processing, or which can be ignited readily and when ignited burns so vigorously and persistently as to create a serious hazard. A chemical will be considered a flammable solid if, when tested by the method described in 16 CFR 1500.44, it ignites and burns with a self-sustained flame at a rate greater than one-tenth of an inch per second along its major axis. Glossary Back to Module

  45. FM 200 – a Halon replacement extinguishing agent which is a chemical blend (heptafluoropropane), stored as a liquid within the agent cylinder similar to that of Halon-type cylinders. It will not corrode sensitive electronic equipment, and contains no particulates or oily residues. In fact, it leaves very little residue and is a quite popular extinguishing agent in use today for the protection of computer rooms. Fume Hood - a laboratory device, enclosed on five sides with a moveable sash or fixed partial enclosure on the remaining side; constructed and maintained to draw air from the laboratory and to prevent or minimize the escape of air contaminants into the laboratory; and allows chemical manipulations to be conducted in the enclosure without insertion of any portion of the employee’s body other than hands and arms. Hazardous chemical – the OSHA definition is a chemical for which there is statistically significant evidence based on at least one study conducted in accordance with established scientific principles that acute or chronic health effects may occur in exposed employees. The term "health hazard" includes chemicals which are carcinogens, toxic or highly toxic agents, reproductive toxins, irritants, corrosives, sensitizers, hepatotoxins, nephrotoxins, neurotoxins, agents which act on the hematopoietic systems, and agents which damage the lungs, skin, eyes, or mucous membranes. Hazard Communication Standard – 29 CFR 1910.1200 - was first enacted on November 25, 1983, by the OSHA. It was later modified with minor changes and technical amendments to take effect March 11, 1994. The purpose of the standard is to ensure that chemical hazards in the workplace are identified and evaluated, and that information concerning these hazards is communicated through MSDSs and labels. This standard is also known as the Right-to-Know Law. Glossary Back to Module

  46. HEPA - high efficiency particulate air filter – is a filter that is manufactured, tested and certified to meet applicable construction and efficiency standards for high-efficiency filters. The filters are manufactured from an ultra-fine glass-fiber medium designed to capture microscopic particles that can easily pass through most other filters by a combination of diffusion, interception, and inertial impaction. Health Hazard - means a chemical for which there is statistically significant evidence based on at least one study conducted in accordance with established scientific principles that acute or chronic health effects may occur in exposed employees. Inergen - It is an inert gas used for fire extinguishment. It is a mixture of three naturally occurring atmospheric gases: 52% nitrogen, 40% argon, and 8% CO2. The Inergen gas curtails and extinguishes fire by lowering the oxygen content beneath the level that supports combustion. But it should be noted that due to the CO2 present in Inergen, the brain continues to receive the same amount of oxygen in an Inergen atmosphere as it would in a normal atmosphere, for reasonable periods of time. Laboratory Scale - Working with substances in which the containers used for reactions, transfers, and other handling of substances are designed to be easily and safely manipulated by one person.  Laboratory Standard – a standard (29 CFR 1910.1450) issued by OSHA addressing occupational exposures to hazardous chemicals in the laboratory. All laboratories must comply with this standard. Glossary Back to Module

  47. Laboratory use of Potentially Hazardous Chemicals - the handling or use of such chemicals in which all of the following conditions are met: 1)Use of laboratory scale. 2)Multiple chemical procedures or chemicals used. 3)Protective laboratory practices and equipment are available and in common use to minimize the potential for student/teacher exposure to hazardous chemicals. LC50 or lethal concentration 50 – this is a measure of toxicity which corresponds to the concentration in air that kills 50% of the test population. Note that most estimates of human toxicity are based on animal studies, which may or may not relate to human toxicity. LD50 or lethal dose 50 – this is a measure of toxicity which corresponds to the dose required to kill 50% of the test population. Note that most estimates of human toxicity are based on animal studies, which may or may not relate to human toxicity. The LD50 is usually measured in milligrams of the material per kilogram of body weight of the test animal. To estimate a lethal dose for a human based on animal tests, the LD50 must be multiplied by the weight of an average person. Material Safety Data Sheets (MSDS) – is a well-established document for disseminating health and safety information about chemical products to employees, customers, emergency responders, and the public. Information contained in the MSDS includes potential health, safety, and environmental hazards, safe handling practices, and applicable regulatory information. Glossary Back to Module

  48. National Fire Protection Association (NFPA) private non-profit organization, is the leading authoritative source of technical background, data, and consumer advice on fire protection, problems and prevention Organic peroxide - an organic compound that contains the bivalent -OO- structure and which may be considered to be a structural derivative of hydrogen peroxide where one or both of the hydrogen atoms has been replaced by an organic radical. Peroxides can be very dangerous materials and may be shock and thermal sensitive. They are also strong oxidizers. OSHA – Occupational Safety & Health Administration http://www.osha.gov is part of the US Department of Labor. Its mission is to save lives, prevent injuries and protect the health of America's workers. Particularly hazardous substance – is defined by OSHA in the Laboratory Standard and includes “select carcinogens” (strongly indicative of causing cancer in humans), reproductive toxins, and substances which have a high degree of acute toxicity. Permissible exposure limit (PEL) - which represents the maximum amount or concentration of a substance that a worker may be exposed to under OSHA regulations. There are ceiling values (at no time should this value be exceeded) and 8-hour time weighted averages (an average value of exposure over the course of an 8 hour work shift) Personal Protective Equipment (PPE) – is all clothing and other work accessories designed to create a barrier against workplace hazards. Examples include safety goggles, respirators, lab coats, etc. Glossary Back to Module

  49. Pyrophoric – a pyrophoric material is one that ignites spontaneously in air and is derived from the Greek word meaning “fire-bearing”. Many of these materials will also react vigorously with water or high humidity and ignite upon contact. Physical Hazard – A hazard exhibited by certain chemicals due to their physical properties. These chemicals fall into the following classes: combustible liquids, compressed gases, explosives, flammable liquids or solids, organic peroxide, oxidizers, pyrophoric materials, and unstable (reactive) or water reactive materials. Reproductive toxins – per OSHA any chemical that affects the reproductive chemicals which affect the reproductive capabilities including chromosomal damage/mutations and effects on fetuses (teratogenesis). Select carcinogens – per OSHA any substance that meets one of the following criteria: regulated by OSHA as a carcinogen listed under the category, “known to be carcinogens” in the Annual Report on Carcinogens published in the latest edition by the National Toxicology Program (NTP) listed under Group 1 (“carcinogenic to humans”) by the International Agency for Research on Cancer Monographs (IARC) listed in either Group 2A or 2B by IARC or under the category, “reasonably anticipated to be carcinogens” by NTP and causes statistically significant tumor incidence in experimental animals in accordance with any of the following criteria: after inhalation exposure of 6-7 hours per day, 5 days per week, for a significant portion of a lifetime to dosages of less than 10 mg/m3, after repeated skin application of less than 300 mg/kg of body weight per week, or after oral dosages of less than 50 mg/kg of body weight per day. Glossary Back to Module

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