Title: Toxicology Basics
1Toxicology Basics
- An Introduction to the
- Concepts of Toxicology
- Used in APES
- (Building off your knowledge of pesticides to
lead into environmental hazardous chemicals as a
whole) -
2Units Used to Measure Chemicals in the
Environment
- PPM Parts per million (1 in per 1,000,000 ,
10-6 ) - PPB Parts per billion (1 part in 1,000,000,000
, 10-9 ) - PPT Parts per trillion (1 in 1,000,000,000,000
, 10-12 ) - Since parts-per notations are quantity-per-quantit
y measures, they are known as dimensionless
quantities that is, they are pure numbers with
no associated units of measurement.
3Consider A simple cube 1 cubic meter in volume
1m
1m
1m
4formed of 1,000,000 cubes, 1 cubic centimeter
each
100cm
100cm x 100cm x 100cm 1,000,000 cc
100cm
In 1 m3 block 1cc 1ppm
100cm
5One part per million is
- 1 inch in 16 miles
- 1 minute in two years
- 1 cent in 10,000
- 1 ounce of salt in 31 tons of potato chips
- 1 bad apple in 2,000 barrels of apples
6NOWDivide each 1CC block into 1,000 blocks
0.1cM on a side
1cm
0.1cm x 0.1cm x 0.1cm 0.001cm3
In 1 m3 block 0.001cm3 0.001cc or 1/1000 of a
cc 1ppb
1cm
1cm
7One part per billion is
- 1 inch in 16,000 miles
- 1 second in 32 years
- 1 cent in 10,000,000
- 1 pinch of salt in 10 tons of potato chips
- 1 lob in 1,200,000 tennis matches
- 1 bad apple in 2,000,000 barrels of apples
8Next, divide each 0.1cc block into 1,000 blocks
0.01cm on a side
0.1cm
0.01cm x 0.01cm x 0.01cm 0.000001cm3
In 1 m3 block .000,000,001m3 0.000,001cc
or 1/1,000,000 of a cc 1ppt
0.1cm
0.1cm
9One part per trillion is
- 1 postage stamp in the area of the city of Dallas
- 1 inch in 16 million miles (more than 600 times
around the earth) - 1 second in 320 centuries
- 1 flea on 360 million elephants
- 1 grain of sugar in an Olympic sized pool
- 1 bad apple in 2 billion barrels
10Important Concept
- On the left side of the decimal point (? . )
- 1 trillion is bigger than 1 billion
- 1 billion is bigger than 1 million
- 1 million is bigger than 1 thousand
- On the right side of the decimal point ( . ?)
- 1 part per trillion is smaller than 1 part per
billion - 1 part per billion is smaller than 1 part per
million - 1 part per million is smaller than 1 part per
thousand
11Important Relationship
- For water at STP (standard temperature 23oC and
pressure 15 psi) - 1 cc 1ml 1g
12Which means that
- (1000 ml or cc ) ? 1 liter of water 1 kg ?
(1000 g) - (1/1000 g) ? 1 mg / kg ? (1000 g) 1 ppm
- (1/1000 cm3 ) ? 1 mm3 / liter ? (1000 cm3 )
1 ppm - (1/1000 g) ? 1 mg / liter ? (1000 g) 1 ppm
13Measures of Toxicity
- Toxicity of chemicals is determined in the
laboratory - The normal procedure is to expose test animals
- By ingestion, application to the skin, by
inhalation, gavage (forced feeding) or some other
method which introduces the material into the
body, or - By placing the test material in the water or air
of the test animals environment
14Measures of Toxicity
- Toxicity is measured as clinical endpoints
which include - Mortality (death)
- Teratogenicity (ability to cause birth defects)
- Carcinogenicity (ability to cause cancer), and,
- Mutagenicity (ability to cause heritible change
in the DNA) - When using mortality as a clinical endpoint, 2
measures of mortality the LD50 and the LC50
15Measures of Toxicity The Median Lethal Dose
- LD50
- The amount (dose) of a chemical which produces
death in 50 of a population of test animals to
which it is administered by any of a variety of
methods - Substance (1/1000 g) ? mg/kg ? (1000 g) body
weight - Normally expressed as milligrams of substance per
kilogram of animal body weight (same as ppm)
16Measures of Toxicity The Median Lethal
Concentration
- LC50
- The concentration of a chemical in an environment
(generally air or water) which produces death in
50 of an exposed population of test animals in a
specified time frame - Substance (1/1000 ml) ? mg/L ? (1000 ml) body
weight - Normally expressed as milligrams of substance per
liter of air or water (or as ppm)
17Primary Routes of Exposure to Pesticides
- There are three primary routes by which organisms
are exposed to pesticides - Oral
- Dermal
- Inhalation
18Primary Routes of Exposure Oral Exposure
- Any exposure to pesticide which occurs when the
chemical is taken in through the mouth and passes
through the gastrointestinal tract - During oral exposure, although carried within the
body, the pesticide is still outside of the body
proper until it passes through epithelial
cellular membranes.
19Primary Routes of Exposure Dermal Exposure
- Exposure of the skin to a pesticide
- Most common route of human exposure
- With proper hygiene this type of exposure is
generally not serious unless there is a specific,
rapid toxicological effect (often eye effects)
which is of concern
20Primary Routes of Exposure Inhalation Exposure
- Occurs when a pesticide is breathed into the
lungs through the nose or mouth - Significant route of exposure for aquatic
organisms - Not of toxicological concern until it crosses
from the lung into the body (unless the chemical
is corrosive)
21Duration of Exposure
- Three terms are commonly used to describe the
duration of dose(s) - Acute single exposure of short duration
- Chronic repeated long-term contact
- Subchronic repeated exposure over a
short period
22Duration of Exposure Acute Exposure
- Application of a single or short-term (generally
less than a day) dosing by a chemical - If toxic symptoms are expressed, they are
referred to as symptoms of acute toxicity
23Duration of Exposure Chronic Exposure
- Expression of toxic symptoms only after repeated
exposure to a chemical in doses regularly applied
to the organism for a time greater than half of
its life-expectancy - If toxic symptoms are expressed, they are
referred to as symptoms of chronic toxicity
24Duration of Exposure Subchronic Exposure
- Toxic symptoms are expressed after repeated
applications for a timeframe less than half the
life expectancy of the organism but more often
than a single dose or multiple doses applied for
only a short time - If toxic symptoms are expressed, they are
referred to as symptoms of subchronic toxicity
25Remember
- For pesticides less is more when dealing with
toxicity - The less you need to cause a toxic effect the
more toxic the substance is - Thus an LD50 of 25 mg/kg is more toxic than is
one of 7,000 mg/kg
26Words again
Low Risk
27Signal Words
- The relative acute toxicity of a pesticide is
reflected on the label in the form of a signal
word - The (toxicologically) appropriate signal word
MUST appear on every pesticide label - The three possible signal words are
- CAUTION
- WARNING
- DANGER
28Signal Words CAUTION
- Caution reflects the lowest degree of relative
toxicity - All pesticides with an LD50 of greater than 500
mg/kg must display this word on their label - Actually includes two groups of pesticides
those classed by the EPA as - Relatively nontoxic (gt5,000 mg/kg)
- and those classed as
- Slightly toxic (500 5,000 mg/kg)
29Signal Words WARNING
- Warning reflects an intermediate degree of
relative toxicity - All pesticides with an LD50 of greater than 50
and less than 500 mg/kg must display this word on
their label - Pesticides in this category are classed as
- Moderately toxic (gt50 but lt500 mg/kg)
30Signal Words DANGER
- Danger reflects the highest degree of relative
toxicity - All pesticides with an LD50 of less than 50
- mg/kg must display this word on their label
- Pesticides here are classed as
- Highly toxic (lt 50 mg/kg)
31POISON!!!
- Legally defined term not just anything you
dont like - Any pesticide with an LD50 of 50 mg/kg or less
- Labels must reflect this classification
- Label must have the signal word DANGER plus the
word POISON - Label also must display the skull and crossbones
icon
32Relative toxicity
- Organisms cant differentiate between natural
and synthetic chemicals - Synthetic does not mean toxic or poisonous
- Natural does not mean safe or even low risk
- Chemicals must be evaluated in their biological
context of behavior in organisms - Mode of action, not source, is the concern of
toxicologists and informed users of pesticides
33Relative toxicity
- Most herbicides act on biological pathways not
present in humans - Those approved for use in the Region (much more
about these later!!) have LD50s of 50 mg/kg or
greater they have intermediate or relatively
low toxicity - Some of the insecticides used are highly toxic
34Relative toxicity
- Some examples of pesticides and other chemicals
are given to show relative risk of pesticides in
the environment in which we live - This is NOT to trivialize the pesticides
- Always treat them with caution and respect
- But, have a realistic recognition of their
relative risk in a world of risks
35Relative toxicity Insecticides
- TCDD (Dioxin) 0.1 mg/kg
- Parathion 13.0 mg/kg
- Nicotine 50.0 mg/kg
- Carbaryl 270.0 mg.kg
- Malathion 370.0 mg/kg
36Relative Toxicity Herbicides and Additives
- mg/kg
- Paraquat 95
- 2,4-D 375
- 2,4-DP 532
- Triclopyr 630
- Tebuthiuron 644
- Dicamba 757
- Hexazinone 1,690
- Glyphosate 4,320
- mg/kg
- Limonene 5,000
- Clopyralid gt5,000
- Sulfometuron Met.. gt5,000
- Imazapyr gt5,000
- Diesel oil 7,380
- Picloram 8,200
- Fosamine am.. 24,400
- Kerosene 28,000
37Relative Toxicity Comparative information
- Highly toxic chemicals
- 0 50 mg/kg range
- (taste 1 teaspoonful)
- mg/kg
- Botulinus toxin 0.00001
- Dioxin 0.1
- Parathion 13.0
- Strychnine 30.0
- Nicotine 50.0
- Moderately toxic chemicals
- 50- - 500 mg/kg range
- (teaspoonful 1 ounce)
- mg/kg
- Paraquat 95
- Caffeine 200
- Carbaryl 270
- Malathion 370
- 2,4-D 375
38Relative Toxicity Comparative Information
- Slightly toxic chemicals
- 500 5,000 mg/kg range
- (1 ounce 1 pint)
- mg/kg
- 2,4-DP 532
- Triclpoyr 630
- Tebuthiuron 644
- Dicamba 757
- mg/kg
- Formaldehyde 800
- Hexazinone 1,690
- Asprin 1,700
- Vitamin B3 1,700
- Household bleach 2,000
- Table salt 3,750
- Glyphosate 4,320
- etc.
39Relative Toxicity Are all substances toxic?
- YES!
- All are toxic to some quantifiable degree
- Sugar has an LD50 of
- 30,000 mg/kg
- Ethanol, a party favorite, has an LD50 of only
- 13,700 mg/kg
- Water has a recognized LD50 of slightly greater
than 80,000 mg/kg
40Relative Toxicity The Last Word
- Pesticides are chemicals introduced into the
environment to perform a function - The source of a chemical (synthetic vs. natural)
is irrelevant when considering its toxicity - Pesticides should be treated with care and
proper respect but so should household
cleaners, gasoline and kerosene, bleaches,
paints and all other chemicals