Concepts Of Toxicology & Industrial Hygiene Principles- Done

Question 1

Reproductive hazards in the workplace are most associated with these exposures

Answer 1

1. Radiation
2. Lead
3. DBCP
4. Ethylene glycol ethers

Question 2

Nephrotic ins are most associated with exposures to

Answer 2

Heavy metals and mercury

Question 3

Toxicology defined

Answer 3

Study of adverse effects on biological systems

Question 4

Definition of industrial hygiene includes

Answer 4

1. Anticipation
2. Recognition
3. Evaluation
4. Control

Question 5

Example of a simple asphyxiate

Answer 5

Methane

Question 6

Permissible exposure limits (PELs) outline by OSHA are considered safe

Answer 6

False

Question 7

A chemical asphyxiant has no effect on other organs of the body

Answer 7

False

Question 8

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

Answer 8

Synergistic effect

Question 9

Interdisciplinary members of the occupational health and safety team for industrial hygiene

Answer 9

1. Management
2. Safety/industrial hygiene
3. Health care providers
4. Engineering/ergonomists/physicists
5. Employees, unions others as appropriate

Question 10

Types of environmental stressors

Answer 10

1. Chemical
2. Physical
3. Biological
4. Ergonomic (human)

Question 11

Chemical stressors

Answer 11

Materials such as:

1. Acids
2. Alkalis (corrosives)
3. Solvents
4. Minerals
5. Detergents
6. Paints
7. Pesticides

Question 12

Types of chemical stressors

Answer 12

1. Mists
2. Vapors
3. Gases
4. Smoke
5. Dusts
6. Aerosol
7. Fumes

Question 13

Physical stressors

Answer 13

Includes conditions produced by environment and processes

Question 14

Examples of physical stressors

Answer 14

1. Noise
2. Temperature
3. Illumination
4. Vibration
5. Radiation (ionizing and non-ionizing)
6. Pressure

Question 15

Biological stressors

Answer 15

Includes infectious living matter

Question 16

Examples of biological stressors

Answer 16

1. Bacteria
2. Viruses
3. Fungus
4. Parasites
5. Plants
6. Insects
7. Animals

Question 17

Ergonomic (human) stressors

Answer 17

Includes man-machine relationships, mental & emotional stresses

Question 18

Examples of ergonomic stressors

Answer 18

1. Posture
2. Repetition
3. Force
4. Fatigue
5. Monotony
6. Awkward tasks
7. Increased physical demands
8. Conflict
9. Mental stress

Question 19

Toxicity

Answer 19

The inherent capacity of a substance to cause harm or to produce injury/illness when it enters the body

Question 20

Hazard

Answer 20

The probability that a substance will produce harm under specific conditions

Question 21

Dose

Answer 21

-The single factor that determines the degree of harmfulness of a compound

Question 22

Dose continuum

Answer 22

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

Question 23

Response continuum

Answer 23

No response range
Range of increasing response with increasing dose
Maximum response range

Question 24

Exposure

Answer 24

The quantity and extent of external contact with a toxic substance

Question 25

Toxic response

Answer 25

An effect considered to be harmful to the biological system as a result of exposure to a chemical, biological or physical agent

Question 26

BEI’s

Answer 26

• 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

Question 27

Toxic agent

Answer 27

An agent capable of producing a harmful response in a biological system leading to serious injury, dysfunction or death

Question 28

Safe limits

Answer 28

The practical certainty that a substance will not produce harm under specific conditions

Question 29

Permissible exposure limits (PELs)

Answer 29

• used by OSHA

- chemical exposure can be measured, then compared to recognized standards for a healthful environment

Question 30

Determinants of amount of hazard

Answer 30

1. Source of emissions (form)
2. How exposed (ventilation, working conditions, presence of other exposures, job activities)
3. How much (concentration, frequency)
4. How long (duration)
5. Temperature
6. Personal sensitivity
7. Functional condition of target organs and organs of detoxification
8. Age
9. Gender
10. Nutrition
11. Health status

Question 31

Modes of entry of toxic substances into the body

Answer 31

1. Inhalation
2. Ingestion
3. Skin and eye absorption
4. Injection

Question 32

LD50

Answer 32

Dose of toxic substance which will produce death in 50% of the animals

Question 33

Items that influence LD50

Answer 33

1. Species
2. Route of administration
3. Vehicle
4. Time period

Question 34

Most common route of exposure in test animals

Answer 34

Intraperitoneal

Question 35

LC50

Answer 35

• 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

Question 36

Factors influencing intensity of toxic action

Answer 36

1. Rate of entry
2. Additive interaction
3. Synergistic effect
4. Potentiation
5. Antagonism
6. Effect of toxins in the body

Question 37

Types of rate of entry

Answer 37

1. Acute

2. Chronic

Question 38

Acute effects

Answer 38

• Immediate damage to skin, eyes, lungs or stomach etc

- may be felt right away or have a delayed reaction

Question 39

Chronic effects

Answer 39

Damage may build up from long range exposure over weeks, months, years

Question 40

Additive interaction

Answer 40

Describes the concept of combined effects from more than one route of exposure

Question 41

Example of additive interaction

Answer 41

Inhalation and ingestion of the same substance

Question 42

Synergistic

Answer 42

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

Question 43

Potentiation

Answer 43

Refers to the action of a substance, thereby maintaining elevated systemic levels of the toxic agent

Question 44

Example of potentiation

Answer 44

Alcohol consumption combined with lead exposure increases the absorption of lead through the GI tract, potentiating the toxicity of lead

Question 45

Antagonism

Answer 45

Refers to an effect that is less severe than expected when a substance prevents the absorption of a toxic substance

Question 46

Modes of excretion

Answer 46

1. Urine
2. Perspiration
3. Milk
4. Spinal fluid
5. Saliva
6. Hair

Question 47

Biotransformation

Answer 47

Transformed into substance that can be excreted

Question 48

Half-life

Answer 48

Where it’s stored and length of storage in the body

Question 49

Location and duration of PCB storage

Answer 49

• fatty tissue

- lifetime

Question 50

Physical states of chemical contaminants

Answer 50

1. Dust
2. Fiber
3. Fume
4. Gas
5. Vapor
6. Mist

Question 51

Dust

Answer 51

Solid particles

Also fibrous

Question 52

Fiber

Answer 52

Regular shape

Usually three times longer than it is wide

Question 53

Examples of fibers

Answer 53

1. Asbestos

2. Fiberglass

Question 54

Fume

Answer 54

Particle in heated gaseous state

Question 55

Gas

Answer 55

Formless matter

Question 56

Vapor

Answer 56

Gaseous form of liquid

Question 57

Mist

Answer 57

Suspended liquid droplets

Question 58

Physiological classifications of chemical contaminants/target organs

Answer 58

1. Irritants
2. Asphyxiants
3. Narcotic
4. Hepatotoxins
5. Nephrotoxins
6. Neurotoxins
7. Hematopoietic agents
8. Agents which damage the lung
9. Carcinogen
10. Mutagen
11. Teratogen
12. Reproductive effects

Question 59

Types of irritants

Answer 59

1. Primary

2. Secondary

Question 60

Primary irritants

Answer 60

No system action

Question 61

Examples of primary irritants

Answer 61

Acids

Question 62

Secondary irritants

Answer 62

Other organs are affected

Question 63

Examples of secondary irritants

Answer 63

Hydrogen sulfide (produces olfactory fatigue)

Question 64

Types of asphyxiants

Answer 64

1. Simple

2. Chemical

Question 65

Simple asphyxiants

Answer 65

Displace enough oxygen to create a hazard

Question 66

Percent of oxygen in air the creates hazard

Answer 66

Usually below 16%

Question 67

Normal oxygen content in air

Answer 67

21%

Question 68

Oxygen content permissible to enter a confined space

Answer 68

19.5%

Question 69

Example of simple asphyxiant

Answer 69

Methane

Question 70

Chemical asphyxiant

Answer 70

Unable to utilize adequate oxygen supply

Question 71

Examples of chemical asphyxiants

Answer 71

1. Carbon monoxide

2. Cyanide

Question 72

Narcotic

Answer 72

Causes simple anesthesia without serious systemic effects

Question 73

Examples of narcotics

Answer 73

1. Solvents
2. Alcohols
3. Nitrous oxide
4. Glues

Question 74

Hepatotoxins

Answer 74

Liver damage

Question 75

Examples of Hepatotoxins

Answer 75

1. Carbon tetrachloride
2. Chlordane
3. Vinyl chloride

Question 76

Most common Hepatotoxins

Answer 76

Chlorinated solvents

Question 77

Nephrotoxins

Answer 77

Toxins that cause kidney damage

Question 78

Examples of nephrotoxins

Answer 78

1. Heavy metals (commonly mercury)
2. Chlorinated solvents
3. Coke oven emissions
4. Benzedine
5. Arsine

Question 79

Main use for benzidine

Answer 79

Dye

Question 80

Smell of arsine

Answer 80

Garlic

Question 81

Neurotoxins

Answer 81

Toxins that cause nervous system damage

Question 82

Examples of neurotoxins

Answer 82

1. Methyl mercury
2. Carbon disulfide
3. Lead
4. Carbon monoxide
5. Manganese
6. Heavy metals
7. Organophosphates
8. Mercury

Question 83

Common neurological effects of manganese

Answer 83

Parkinson-like effects

Question 84

Common neurological effects of heavy metals

Answer 84

Peripheral neuropathy

Question 85

Common neurological effects of lead

Answer 85

Wrist drop and foot drop

Question 86

Common neurological effects of mercury

Answer 86

“Mad Hatter” syndrome

Question 87

Hematopoietic agents

Answer 87

Agents that act in the blood forming organs

Question 88

Examples of hematopoietic agents

Answer 88

1. Benzene
2. Ionizing radiation
3. Arsine
4. TNT

Question 89

Common hematopoietic effects of benzene

Answer 89

1. Aplastic anemia

2. Leukemia

Question 90

Common hematopoietic effects of ionizing radiation

Answer 90

Leukemia

Question 91

Types of damage toxins can have on the lungs

Answer 91

1. Pneumoconioses
2. Sensitization
3. Fibrosis
4. Carcinogen

Question 92

Examples of pneumoconioses

Answer 92

Hydrogen chloride

Question 93

Examples of sensitization agents

Answer 93

Isocyanates

Question 94

Examples of agents that cause fibrosis

Answer 94

1. Silica
2. Asbestos
3. Beryllium

Question 95

Examples of carcinogens for the lungs

Answer 95

1. Asbestos
2. Arsenic
3. Chromium VI

Question 96

Carcinogen

Answer 96

A substance that can cause cancer

Question 97

Mutagen

Answer 97

A substance that can affect the chromosomes

Question 98

Teratogen

Answer 98

A substance that can affect the fetus

“monster forming”

Question 99

Agents that can affect the reproductive system

Answer 99

1. Ionizing radiation
2. Heat
3. Carbon disulfide
4. Ethylene oxide
5. Rubella
6. Varicella

Question 100

Reproductive effects of ionizing radiation

Answer 100

1. Decreased sperm

2. Decreased female fertility

Question 101

Reproductive effects of heat

Answer 101

Decreased sperm

Question 102

Reproductive effects of carbon disulfide

Answer 102

Decreased female fertility

Question 103

Reproductive effects of ethylene oxide

Answer 103

Spontaneous abortions

Question 104

Reproductive effects of rubella

Answer 104

Congenital defects

Question 105

Reproductive effects of varicella

Answer 105

Congenital defects

Question 106

An aerosol of solid particles generated by welding on heavy metals is…

Answer 106

Fume