Concepts Of Toxicology & Industrial Hygiene Principles- Done Flashcards
Reproductive hazards in the workplace are most associated with these exposures
- Radiation
- Lead
- DBCP
- Ethylene glycol ethers
Nephrotic ins are most associated with exposures to
Heavy metals and mercury
Toxicology defined
Study of adverse effects on biological systems
Definition of industrial hygiene includes
- Anticipation
- Recognition
- Evaluation
- Control
Example of a simple asphyxiate
Methane
Permissible exposure limits (PELs) outline by OSHA are considered safe
False
A chemical asphyxiant has no effect on other organs of the body
False
Pertains to an action of two or more substances, organs or organisms to achieve an effect greater than the additive effect of the separate elements
Synergistic effect
Interdisciplinary members of the occupational health and safety team for industrial hygiene
- Management
- Safety/industrial hygiene
- Health care providers
- Engineering/ergonomists/physicists
- Employees, unions others as appropriate
Types of environmental stressors
- Chemical
- Physical
- Biological
- Ergonomic (human)
Chemical stressors
Materials such as:
- Acids
- Alkalis (corrosives)
- Solvents
- Minerals
- Detergents
- Paints
- Pesticides
Types of chemical stressors
- Mists
- Vapors
- Gases
- Smoke
- Dusts
- Aerosol
- Fumes
Physical stressors
Includes conditions produced by environment and processes
Examples of physical stressors
- Noise
- Temperature
- Illumination
- Vibration
- Radiation (ionizing and non-ionizing)
- Pressure
Biological stressors
Includes infectious living matter
Examples of biological stressors
- Bacteria
- Viruses
- Fungus
- Parasites
- Plants
- Insects
- Animals
Ergonomic (human) stressors
Includes man-machine relationships, mental & emotional stresses
Examples of ergonomic stressors
- Posture
- Repetition
- Force
- Fatigue
- Monotony
- Awkward tasks
- Increased physical demands
- Conflict
- Mental stress
Toxicity
The inherent capacity of a substance to cause harm or to produce injury/illness when it enters the body
Hazard
The probability that a substance will produce harm under specific conditions
Dose
-The single factor that determines the degree of harmfulness of a compound
Dose continuum
Point source emission Human contact exposure Potential dose to the body Biologically effective/response dose to the target system Early expression of disease Health effect on endpoint
Response continuum
No response range
Range of increasing response with increasing dose
Maximum response range
Exposure
The quantity and extent of external contact with a toxic substance
Toxic response
An effect considered to be harmful to the biological system as a result of exposure to a chemical, biological or physical agent
BEI’s
- biological exposure indices
- exposure limits based on levels of substances within the body
- based on levels of substances found in the body normally urine, blood or exhaled air
- measures the exposed individuals internal environment
Toxic agent
An agent capable of producing a harmful response in a biological system leading to serious injury, dysfunction or death
Safe limits
The practical certainty that a substance will not produce harm under specific conditions
Permissible exposure limits (PELs)
- used by OSHA
- chemical exposure can be measured, then compared to recognized standards for a healthful environment
Determinants of amount of hazard
- Source of emissions (form)
- How exposed (ventilation, working conditions, presence of other exposures, job activities)
- How much (concentration, frequency)
- How long (duration)
- Temperature
- Personal sensitivity
- Functional condition of target organs and organs of detoxification
- Age
- Gender
- Nutrition
- Health status
Modes of entry of toxic substances into the body
- Inhalation
- Ingestion
- Skin and eye absorption
- Injection
LD50
Dose of toxic substance which will produce death in 50% of the animals
Items that influence LD50
- Species
- Route of administration
- Vehicle
- Time period
Most common route of exposure in test animals
Intraperitoneal
LC50
- Lethal concentration for 50% of the exposed organisms in the air
- Like LD50 it is determined statistically using the proportions of animals killed from several different dose/exposure groups
Factors influencing intensity of toxic action
- Rate of entry
- Additive interaction
- Synergistic effect
- Potentiation
- Antagonism
- Effect of toxins in the body
Types of rate of entry
- Acute
2. Chronic
Acute effects
- Immediate damage to skin, eyes, lungs or stomach etc
- may be felt right away or have a delayed reaction
Chronic effects
Damage may build up from long range exposure over weeks, months, years
Additive interaction
Describes the concept of combined effects from more than one route of exposure
Example of additive interaction
Inhalation and ingestion of the same substance
Synergistic
Pertaining to an action of two or more substances, organs or organisms to achieve a greater effect that he additive effects of the separate element