PCM 2.07 v2 Environmental and Occupational Toxicology PDF

Summary

This document covers the fundamentals of environmental and occupational toxicology for students of medicine. It discusses the effects of various toxic agents on the environment and human health.

Full Transcript

PREVENTIVE AND COMMUNITY MEDICINE I
Environmental and Occupational Toxicology Block 2
Edmyr M. Macabulos, MD, MPH | October 22, 2024 Trans 2.07

OVERVIEW biologic material
I. History V. Fundamental Rules of
A. Definition of Terms Toxicology Toxic substances produced by biologic systems:
II. Toxicology VI. Factors Affecting Response to Toxin phytotoxin (plant), zootoxin (animal), and
A. Environmental Toxicology Toxic Agents
bacteriotoxin (bacteria)
B. Occupational Toxicology VII. Exposure Concepts
III. Spectrum of Undesired Effects VIII. Common Environmental
A. Allergic Reactions Toxicants Any agent capable of causing serious injury to a
B. Idiosyncratic Reactions A. Pesticides Poison biological system, resulting in loss of function
C. Immediate vs. Delayed B. Metals or death
Toxicology C. Solvents and Vapors
D. Reversible vs. Irreversible D. Tobacco Smoke Toxic substances produced by or a byproduct of
Toxic Effects IX. Individual Practices Toxicant
human activities
E. Local vs. Systemic X. Hierarchical Control of
Toxicity Chemicals
IV. Environmental Health XI. Important Things to Overdose of drugs, medicine, chemicals, or
Poisoning
Paradigm Remember in the Workplace biologic substances
A. Interventions and
Safeguards Probability that a person will be harmed or
experience an adverse effect upon exposure to
LEGEND Risk
⭐: Important information a hazard—potential or likelihood that injury will
occur

LEARNING OBJECTIVES Amount of chemical that is available for
Define toxicology and commonly associated terms. Exposure
absorption
Understand the basic concepts of toxicology and its
sub-discipline of environmental and occupational Probability that harm will not occur under
toxicology. Safety
specified conditions— inverse of risk
Discuss the factors affecting responses to toxic agents.
Discuss exposure situation to toxic agents.
Identify the common types of chemicals and their toxic II. TOXICOLOGY
Table 2. Definition of the two types of toxicology
effects.
Discuss the preventive measures in environmental and Environmental Toxicology Occupational Toxicology
occupational toxicology. Study of the impacts of Study of the adverse effects of
chemical pollutants in the agents encountered by
I. HISTORY environment on non-human workers during the course of
Paracelsus (Theophrastus Bombastus von Hohenheim; biological organisms their employment
1493 - 1541)
○ Swiss physician and alchemist
○ ⭐ Father of Modern Toxicology

A. Environmental Toxicology
Assesses and estimates the fate and effects of toxic
○ “All substances are poisons - there is none which is not
substances on the natural environment to include its fauna
a poison; the right dose differentiates a poison from a
and flora.
remedy”
Focuses on populations, communities, and ecosystems
Non-toxic chemicals (e.g., sugar) can be toxic at high
doses
B. Occupational Toxicology
Highly toxic chemicals can be therapeutic when
Silent Spring by Rachel Carson (1962)
given in appropriate doses
○ “Can anyone believe it is possible to lay down such a
↪ Ipecac is used as an emergency treatment to
barrage of poisons on the surface of the earth without
induce vomiting in cases of poisoning.
making it unfit for all life?”
○ Raised public awareness about the dangers of
A. Definition of Terms
pesticides to both the environment and the health of
Table 1. Definition of terms
animals and humans
TERM DEFINITION
○ In humans, pesticide toxins accumulate in fat, where
Study of adverse effects of toxic chemical, they remain in the body and can lead to disease and
Toxicology physical, and biological agents on living illness.
organisms ○ The outcry that followed its publication forced the
banning of DDT and spurred revolutionary changes in
Person trained to examine the effects of toxic environmental laws.
Toxicologist substances—the cellular, biochemical, and Chemicals pollute the environment to such extent that they
molecular mechanisms constitute potential hazards to man and animals

Toxicity Ability of a substance to cause injury to a

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III. SPECTRUM OF UNDESIRED EFFECTS effects are produced
The spectrum of undesired effects of chemicals is broad ⭐
: Most substances, except

In therapeutics, each drug produces a number of effects, but for highly reactive materials,
usually only one effect is associated with the primary produce systemic effects
objective of the therapy. Distant sites from point of
All the other effects are referred to as Side Effects contact may involve many
○ Some side effects may be desired for another therapeutic organ systems
indication EXAMPLES
○ Other side effects of drugs are always deleterious to the Consumption of lead
well-being of humans, referred to as Adverse, causing damage to the
Deleterious, or Toxic effects of the drug Contact with acid creating a
kidneys
chemical burn
Exposure to hydrogen
A. ALLERGIC REACTIONS Ozone exposure causing
fluoride causing pulmonary
Also referred to as: Hypersensitivity, Allergic reaction, lung irritation
edema
Sensitization reaction Aldehyde splash in the eyes
Exposure to arsine causing
Immunologically-mediated adverse reaction to a chemical hemolysis of RBCs
resulting from previous sensitization to that chemical or to a
structurally similar one
○ ⭐ : Once sensitization has occurred, allergic reactions
IV. ENVIRONMENTAL HEALTH PARADIGM

may result from exposure to relatively low doses of
chemicals

B. IDIOSYNCRATIC REACTIONS
⭐: Chemical Idiosyncrasy refers to a genetically-
determined abnormal reactivity to a chemical
The response observed is equally qualitatively similar to
that observed in all individuals
○ May have extreme sensitivity to low doses or extreme
insensitivity to high doses of the chemical

Figure 1. Environmental health paradigm.
C. IMMEDIATE VS DELAYED TOXICITY
Table 3. Immediate vs Delayed Toxicity
Table 6. Paradigm portions and their descriptions
IMMEDIATE DELAYED
PORTION DESCRIPTION
Occurs after some time upon
Occurs rapidly after a single In order for a toxic
the administration of the
administration of the substance substance to affect
substance
people, it must come into
Table 4. Acute vs Chronic Toxicity contact with them and
ACUTE CHRONIC enter the body.
Cumulative damage to specific The environmental health
Occurs immediately (hours or organ systems after months or paradigm shows how
days after exposure) years before having a xenobiotic chemicals, like
recognizable clinical disease toxic substances, can be
emitted by a polluting
EXAMPLES source and move through
Skin Absorption: the environment to reach
Inhalation: exposure to
absorption of phenol people.
hydrogen fluoride causing
through the skin creating a
pulmonary edema
chemical burn When contaminants are
Inhalation: asbestos
Inhalation: formaldehyde released into the
causing cancer to the
causing irritation to environment, they can
lungs
mucous membranes enter the air, water or soil
(Exposure Pathways)
D. REVERSIBLE VS IRREVERSIBLE EFFECTS ○ When >1 is identified,
⭐: If the chemical produces pathological injury to a tissue, they are called Multiple
Pathways
the ability of the tissue to regenerate determines whether
the effect is reversible or irreversible.

E. LOCAL VS SYSTEMIC TOXICITY
All these pathways can
Table 5. Local vs Systemic Toxicity
contaminate food sources
LOCAL SYSTEMIC
⭐: Occur at the site of Require absorption and
and affect the flora and
fauna of ecosystems.
contact between the dissolution of toxicant from
biological system and the its entry point to a distant
toxicant site at which its adverse

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 PCM 2.07 Environmental Toxicology

Contaminants can only
affect health when they
enter the body through an
entry route, and this can
happen through multiple
entry routes (shown in
Table 7)

Even if contaminants
come in contact with
people, they may not
cause adverse effects due
to individual susceptibility
Figure 2. Factors affecting responses to toxic agents.
to agents, which varies
between groups of people Table 8. Response-affecting factors and their examples
(depending on genetics, FACTORS EXAMPLES
general health, etc.).
⭐ Less susceptible = More Chemical & Physical Properties
Physical state, solubility,
reactivity, vapor pressure
resistant to chemical toxicity Age, sex, nutritional status,
Individual Factors genetic background, general
Table 7. Typical entry routes for contaminants health status of the individual
ENTRY ROUTE DEFINITION Duration, frequency, route,
Exposure Situation
Inhalation Intake via lungs by breathing dosage
Absorption Passage through skin
Ingestion Entry through mouth VII. EXPOSURE CONCEPTS
Accidental needle sticks by Different toxic responses may rise from different:
Injection ○ Routes of exposure
health care professionals
○ Frequencies of exposure
○ Duration of exposure (acute vs chronic)
If the contaminants do NOT ENTER the environmental
compartments (air, water, or soil) or the body, then they ⭐ Risk = (Toxicity) x (Exposure)
will NOT cause adverse health effects. ○ Risk - potential or likelihood that injury or biological
If a person is NOT SUSCEPTIBLE to the contaminant, damage will occur in a given situation
disease will not occur. ○ Toxicity - ability of a substance to cause injury to
To prevent harm from contaminants, controls may be biologic material
established at key points along the paradigm. ○ Exposure - amount of chemical available for absorption
○ E.g., pollution can be avoided by using nontoxic Occurrence of Toxic Effects:
substances at the source ○ Toxic outcomes typically arise unintentionally
If the source does not produce toxic contaminants, Intentional ingestion
they can be contained, recycled, or modified so that Occupational contact
pollutants do not enter the environment. Environmental exposure
Not all exposures lead to toxic manifestations due to a
V. FUNDAMENTAL RULES OF TOXICOLOGY number of factors:
Exposure must occur for a chemical to present a risk. ○ Sufficient concentration of the chemical agent or a
Magnitude of risk is proportional to both the potency of the metabolite must need to persist at an organ or tissue
chemical and the extent of exposure. where the toxic effect is elicited
“The dose makes the poison” ○ Importance of not just the exposure itself but the
○ Toxicity depends on the amount of chemical at the specific conditions required for toxicity to manifest,
target site. providing insights for preventive measures [Batch 2028]
○ Toxic effects in a biological system are NOT produced by ○ Each of these factors influence the magnitude of the
a chemical agent. dose received
They occur only when the chemical or its metabolic
breakdown or biotransformation products reach the A. TOXIC AGENT CLASSIFICATION
Table 9. Toxic Agent Classification
appropriate site in the body at a sufficient
SOURCE COMMENT
concentration and duration to produce a toxic
manifestation. Target Organ Liver, kidney, lungs
Industrial solvent, pesticide,
Use
VI. FACTORS AFFECTING RESPONSE TO TOXIC AGENTS food additive
Source Plant and animal agents
Toxic response depends on the chemical and physical Carcinogen, teratogen
properties of the agent, the exposure situation, how the Effect (increased risk for birth
agent is metabolized, and the overall susceptibility of the defects), liver damage
biological system or subject. Physical State Solid, liquid, gas, particulates
Chemical Stability or Reactivity –
General Chemical Structure Aromatic amine, halogenated

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hydrocarbon years
Practically non-toxic, super
Poisoning Potential
toxic Critical Factors in Substance Concentration
Labeling requirements Exposure, duration and frequency
Others
(flammable, oxidizer etc.) Concentration levels of a substance within biological
fluids or at specific target sites
B. CHARACTERISTICS OF EXPOSURE Interplay essential for comprehending how substances
ROUTE AND SITE OF EXPOSURE accumulate in biological fluids or specific target locations
[Batch 2028]
Major Routes
Ingestion through the gastrointestinal tract
Challenges in Human Exposure Assessment
Inhalation into the lungs
Frequency and duration of exposures often lack the
Topical, cutaneous, or dermal contact with skin
precision seen in controlled animal studies.
Parenteral administration (e.g. intravenous, intramuscular,
○ Due to the inherent variability in the frequency and
etc.)
duration of exposures
Toxic agents generally produce the greatest effects and the
○ Less clearly defined, necessitating careful consideration
most rapid response when given directly into the
of similar terminologies for describing the overall
bloodstream via the intravenous route
exposure context

⭐️ Descending Order of Toxicity Effectiveness Similar terminology is employed to describe the general
exposure scenario [Batch 2028]
1. Parenteral (most potent)
2. Inhalation
Dosage
3. Intraperitoneal
Dose-Response Relationship
⭐️

4. Subcutaneous
○ : The intricate connection between exposure
5. Intramuscular
characteristics and the spectrum of events gives rise to a
6. Intradermal
crucial correlation known as the dose-response
7. Oral
relationship.
8. Dermal (least potent)
○ This relationship represents the consistent link between
the degree of response and the quantity of administered
Impact of Vehicle and Formulation
toxin in a biological system, standing as a fundamental
The vehicle or the material in which the chemical is
and pervasive concept in toxicology.
dissolved along with other formulation factors, can
Dosage is the most critical factor in determining whether
markedly alter absorption.
the intrinsic potential of a substance will be expressed
Unit of chemical/unit of biological system (mg/unit body
Route’s Influence on Toxicity
weight; mg/body surface area; mL/unit body weight, etc.)
The route of administration can influence the toxicity of
agents.
VIII. COMMON ENVIRONMENTAL TOXICANTS
○ For example, an agent that acts on the central nervous
A. PESTICIDES
system but is detoxified in the liver, is expected to be
Any substance or mixture of substances intended for
less toxic when administered orally than when inhaled.
preventing, destroying, repelling, or mitigating any pests
○ The oral route allows the substance to pass through the
Proper and safe use of pesticides can benefit the
liver before entering systemic circulation and the central
environment, but they pose a major potential for
nervous system.
environmental pollution
Chemicals are increasingly used by 3rd world countries
DURATION AND FREQUENCY OF EXPOSURE
⭐️ Table 10. Exposure Types Relative to the Duration and Frequency
Most commonly used and manufactured in the Philippines:
organophosphates & organochlorines
EXPOSURE
DURATION DESCRIPTION Most exposed population groups: formulators & farmers
TYPE
6 major areas in the environment that require protection
Single dose or repeated from mishandling and misuse of pesticide:
exposure for slightly toxic or 1. Soil
non-toxic chemicals. 2. Water
Typically resulting from a 3. Air
Less than
Acute Exposure single incident or episode. 4. Beneficial Insects
24 hours
For inhalation route, 5. Plants
continuous exposure for 6. Wildlife
less than 24 hours
(commonly 4 hours)
Repeated exposure to a
Sub-Acute Up to 1
chemical for a duration of one
Exposure month
month or less
Several Repeated exposure extending
Sub-Chronic
weeks to to several weeks or 1 to 3
Exposure
1-3 months months
More than 3 Prolonged exposure to the
Chronic
months or chemical, lasting for more than
Exposure
years 3 months or extending into

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lead-glazed ceramics

MERCURY (Hg)
It is also known as quicksilver or metallic mercury
Liquid state at room temperature - vapor is much more
hazardous in liquid form
Nonflammable
Produces poisonous gas in fire
Evaporation of metallic mercury occurs to some extent at
room temperature

Table 12. Sources of mercury and their categories
CATEGORY SOURCES OF MERCURY
Antiseptics
Calomel teething powders
Dental amalgam
Figure 3. The pesticide cycle. Medicinal
Laxatives
Sphygmomanometers
B. METALS
Thermometers
Heavy metals are ubiquitous, they are neither created nor
Fish
destroyed in the environment.
Food Grains and seed, treated
Unlike plants, animals, and other organisms, metals cannot
Livestock, fed treated grain
be degraded beyond their elemental states.
Concentration of heavy metals in the environment are Button batteries
dependent on natural and anthropogenic cycles, activities, Chemistry sets
removal of metals from natural source, alteration, and Lightbulbs
Other
speciation that can increase its distribution. Self-Injection
Examples: aluminum, arsenic, lead, cadmium, mercury Preservatives
“Magico-religious” use
LEAD (Pb)
First heavy metal classified as toxic with reports dating back MERCURY IN GOLD MINING
to 300 BC Because gold is heavy, miners use mercury to amalgamate it
Characteristics: bluish white, soft metal, gray, strong with the gold, making it easier to capture
reducing agent Enters the environment through mercury-coated sieves
Since 1980s, Pb use in gasoline, paint, and solder have which is used to strain golds from sediments taken from
decreased but not in other parts of the world river bottom and land mining sites
Clinically manifests as seizures or convulsions
MINAMATA DISEASE
Table 11. Sources of Lead In 1908, the Chisso Corporation established a factory in
SOURCE DETAILS Minamata, Japan.
Leaded paint Especially pre-1978 homes ○ The factory produced nitrogenous fertilizers and quickly
⭐ House dust from grew to become the area's main industry.
○ By the mid-1950s, the Chisso Corporation had become
deteriorated lead paint
Dust a leader in its industry.
⭐ Dust from clothes/uniform In 1954, reports began to surface of an unknown
"epilepsy-like affliction" that would later become known as
of workers
Minamata disease.
From yards contaminated by
○ The cause was unknown, so patients were isolated in an
deteriorated lead paint, lead
attempt to stop the spread.
Soil industry emissions, roadways
Minamata disease is a neurological condition caused by
with high leaded gasoline
mercury poisoning.
usage
⭐ Leached from leaded
Mercury poisons the central nervous system, impairing
balance and motor skills.
Water plumbing, cooking utensils,
○ This leads to increasingly intense body convulsions and,
water coolers
eventually, death.
Leaded gasoline, industrial
Air In 1957, the Minamata disease research group at Kumamoto
emissions
University announced that Minamata disease is a toxic
Lead solder in cans, “natural”
disorder of the central nervous system caused by organic
calcium supplements,
mercury compounds. They concluded that the compounds
Food “moonshine” whisky, lead-foil
were transmitted through seafood consumption.
covered wines, contaminated
The research group isolated organic mercury as the sole
flour, paprika
cause of the disease through a series of experiments on
Folk remedies, cosmetics, cats.
ingested foreign bodies, Also in 1957, extremely toxic levels of organic mercury
Exotic
retained lead bullets, were detected in human patients.
substance abuse, leaded ink, ○ A report submitted to the Ministry of Health and

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Welfare stated that the underlying cause was organic chemicals
mercury in seafood, and the wastewater discharge Setting exposure standards for workplace chemicals
from the Chisso factory was suspected as the source. ○ Decision as to what level of human exposure is
New patients continued to be discovered until 1960, acceptable for a chemical used in the workplace
including babies who were born with brain damage and Biological monitoring for workplace exposure
extreme physical disabilities. ○ Decision as to what biological fluids and biologic effects
The governor of Kumamoto requested a voluntary ban on should be monitored
catches of seafood from Minamata Bay. Understanding and writing material safety data sheets
(MSDS)
C. SOLVENTS AND VAPORS ○ Recognizing salient information in the MSDS and
Class of organic liquid chemicals relating it to worker conditions and potential risk to
Classified based on variable lipophilicity, volatility poisoning, such as physicochemical properties, and
Examples: methylene chloride, nPB (N-propyl bromide), TCE toxicity data first aid measures
(trichloroethylene), toluene, hexane, xylene Identifying job assignments for workers
Some solvents are halogenated (i.e. TCE, nPB), others are ○ Potential hazards and workers’ existing health
highly addictive conditions should be taken into consideration
Sources of exposure: ○ Reproductive hazards should be given emphasis
○ Paints Managing chemical safety in the workplace
○ Varnishes ○ Development of preventive programs in the workplace
○ Adhesives Establishing medical surveillance
○ Pharmaceuticals ○ Perform initial assessment of fitness to work
○ Preservation agents ○ Evaluate effect of work to exposure to harmful
○ Metal cleaning (degreasing) chemicals
○ Household products ○ Appraise whether the worker can continue work in the
○ Industrial and consumer products hazardous area
○ Surface coatings ○ Allow early interventions before adverse effects occur

D. TOBACCO SMOKE A. Interventions and Safeguards to Promote Healthy
Most preventable cause of death in the world today Environment
○ Kills more than 8M people a year Engineering
1.2M are non smokers exposed to secondhand ○ Actions directed at managing risk-related variables to
smoke interpose in technologies for the at-risk population
Contains nicotine - highly addictive, psychoactive agent Education
○ Action directed towards voluntary change in the
IX. INDIVIDUAL PRACTICES attitudes and behavior of the subject generally by
The following are individual practices that may increase our providing information that will lead to favorable change
contact with chemicals: Enforcement
○ Improper use of drugs and chemicals ○ Actions directed at mandatory regulation to achieve
○ Mispackaged drugs and chemicals favorable outcomes, which can include, review, and
○ Availability of drugs/chemicals advocate the implementation of regulatory policies,
○ Improper storage of drugs/chemicals laws and conventions for chemicals (i.e. Clean Air Act &
○ Recycling of containers used for drugs/chemicals Stockholm Convention)

X. HIERARCHICAL CONTROL OF CHEMICALS REFERENCES
Elimination: simplest way to deal with hazard; to get rid of Edmyr M. Macabulos MD, MPH. Notes from Environmental
it Toxicology.
Substitution: replace a more hazardous chemical/process
with a less hazardous chemical/process (e.g. digital LIST OF EQUATIONS
thermometer instead of using mercury thermometer) Risk = (Toxicity) x (Exposure)
Minimization of inventories: reduce the volume of
chemicals being stored SUMMARY
Engineering Controls: implemented measures such as Define toxicology and commonly associated terms.
segregation of hazardous equipment, alternation, process TERM DEFINITION
enclosure/confining work operations
Study of adverse effects of toxic chemical,
Administrative Controls: job rotations, multiskilling codes
Toxicology physical, and biological agents on living
of practice
organisms
Use of Personal Protective Equipment: select a proper
PPE for a given chemical; preference for PPE should be
indicated in Safe Workplace Policy rather than in Safe Person trained to examine the effects of toxic
Worker Policy Toxicologist substances—the cellular, biochemical, and
molecular mechanisms
XI. IMPORTANT THINGS TO REMEMBER IN THE
WORKPLACE Ability of a substance to cause injury to a
Toxicity
Decision-making within hierarchical control biologic material
○ For control of exposure to toxic substances in the
workplace, based on the hierarchical control of

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water coolers
Toxic substances produced by biologic systems:
Leaded gasoline, industrial
Toxin phytotoxin (plant), zootoxin (animal), and Air
emissions
bacteriotoxin (bacteria)
Lead solder in cans, “natural”
calcium supplements,
Any agent capable of causing serious injury to a
Food “moonshine” whisky, lead-foil
Poison biological system, resulting in loss of function
covered wines, contaminated
or death
flour, paprika
Toxic substances produced by or a byproduct of Folk remedies, cosmetics,
Toxicant ingested foreign bodies,
human activities
Exotic retained lead bullets,
substance abuse, leaded ink,
Overdose of drugs, medicine, chemicals, or
Poisoning lead-glazed ceramics
biologic substances

CATEGORY SOURCES OF MERCURY
Probability that a person will be harmed or
experience an adverse effect upon exposure to Antiseptics
Risk Calomel teething powders
a hazard—potential or likelihood that injury will
occur Dental amalgam
Medicinal
Laxatives
Amount of chemical that is available for Sphygmomanometers
Exposure Thermometers
absorption
Fish
Probability that harm will not occur under Food Grains and seed, treated
Safety Livestock, fed treated grain
specified conditions— inverse of risk
Button batteries
Chemistry sets
Understand the basic concepts of toxicology and its Lightbulbs
sub-discipline of environmental and occupational toxicology. Other
Self-Injection
Environmental Toxicology Occupational Toxicology Preservatives
Study of the impacts of Study of the adverse effects of “Magico-religious” use
chemical pollutants in the agents encountered by
environment on non-human workers during the course of Sources of exposure to solvents and vapors:
biological organisms their employment ○ Paints
○ Varnishes
○ Adhesives
Discuss the factors affecting responses to toxic agents.
○ Pharmaceuticals
FACTORS EXAMPLES ○ Preservation agents
Physical state, solubility, ○ Metal cleaning (degreasing)
Chemical & Physical Properties
reactivity, vapor pressure ○ Household products
Age, sex, nutritional status, ○ Industrial and consumer products
Individual Factors genetic background, general ○ Surface coatings
health status of the individual
Duration, frequency, route, Identify the common types of chemicals and their toxic effects.
Exposure Situation
dosage TYPE TOXIC EFFECT
Accumulate in fat, causing
The toxic response depends on the properties of the agent, Pesticides long-term health issues +
the exposure conditions, how the body metabolizes it, and environmental pollution
the susceptibility of the organism. Cause CNS disorders that
manifests as seizures/
Discuss exposure situation to toxic agents. Metals convulsions, impairing balance
LEAD and motor skills and eventually
SOURCE DETAILS causing death
Leaded paint Especially pre-1978 homes
⭐
Respiratory irritation, central
House dust from Solvents & Vapors nervous system depression,
deteriorated lead paint skin irritation.
Dust
⭐ Dust from clothes/uniform
Tobacco Smoke Lung cancer, addiction

of workers Discuss the preventive measures in environmental and
From yards contaminated by occupational toxicology.
deteriorated lead paint, lead Elimination: simplest way to deal with hazard; to get rid of
Soil industry emissions, roadways it
with high leaded gasoline Substitution: replace a more hazardous chemical/process
usage
⭐
with a less hazardous chemical/process (e.g. digital
Leached from leaded thermometer instead of using mercury thermometer)
Water
plumbing, cooking utensils, Minimization of inventories: reduce the volume of

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 PCM 2.07 Environmental Toxicology

chemicals being stored
Engineering Controls: implemented measures such as
segregation of hazardous equipment, alternation, process
enclosure/confining work operations
Administrative Controls: job rotations, multiskilling codes
of practice
Use of Personal Protective Equipment: select a proper
PPE for a given chemical; preference for PPE should be
indicated in Safe Workplace Policy rather than in Safe
Worker Policy

FREEDOM WALL

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CORRECTIONS HISTORY
Nov 2
p3 VII Exposure Concepts (4th bullet, 1st sub-bullet)
○ Deleted “such as.” Note that no information is
missing.
Version 2 [Nov 3]
Table 8 Response-affecting factors and their examples
○ “Individual factors” and “Exposure situation”
were switched

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