Title: Nature of Environmental Health Hazards
1Nature of Environmental Health Hazards
- Didi Supardi, dr.
- Dept. of Public Health Preventive Medicine
2OBJECTIVE
- To describe the difference between hazard risk
- To explain the logic of the various methods of
classifying environmental hazards - To describe a scheme for identifying the level of
hazard toxicity - To explain why knowledge of the toxicology,
microbiology, or physical properties of an
environmental hazard is essential to determining
the most appropriate approach to its risk
assessment - To identify different experimental investigative
methods - To explain the biological significance of
bio-transformation process - To list the basic characteristics of chemical,
physical, biological, mechanical, psychosocial
hazards
3? Required Reading ?
- Yassi A, Kjellström T, de Kok T, Guidotti TL.
Basic Environmental Health. Chapter 2 Nature of
Environmental Health Hazards. New York Oxford
University Press, 2001
4Definition
- Hazard
- a factor or exposure that may adversely affect
health (Last, 1995) - a source of danger
- a qualitative term expressing the potential of
an environmental agent to harm the health of
certain individuals if the exposure level is high
enough /or if other conditions apply
5Definition (contd)
- Risk
- the probability that an event will occur, e.g.
that an individual will become ill or die within
a stated period of time or before a given age
the probability of a (generally) unfavorable
outcome (Last, 1995) - ? the quantitative probability that a health
effect will occur after an individual has been
exposed to a specified amount of a hazard
6Types of EH Hazards
- Biological hazards
- e.g. bacteria, viruses, parasites
- Chemical hazards
- e.g. toxic metals, air pollutants, solvents,
pesticides - Physical hazards
- e.g. radiation, temperature, noise
- Mechanical hazards
- e.g. motor vehicle, sports, home, agriculture,
workplace injury hazards - Psychosocial hazards
- e.g. stress, lifestyle disruption, workplace
discrimination, effects of social change,
marginalization, unemployment
7Types of EH Hazards (contd)
- Classified according to
- nature
- natural vs anthropogenic
- traditional vs modern
- route of exposure
- setting
8- Traditional Hazards
- Disease vectors
- Infectious agents
- Inadequate housing shelter
- Poor-quality drinking water sanitation
- Indoor air pollution from cooking
- Dietary deficiencies
- Hazards of child birth
- Wildlife domestic animals
- Injury hazards in agriculture
- Modern Hazards
- Tobacco smoking
- Transport hazards
- Pollution from sewage industry
- Outdoor air pollution from industry motorcars
- Overuse or misuse of chemicals
- Industrial machinery
- Unbalanced diet
9Biological, chemical physical hazards by
routes of exposure
10BIOLOGICAL HAZARDS
- Include all of the forms of life (as well as the
nonliving products they produce) - plants, insects, rodents, other animals, fungi,
bacterial, viruses, protozoa, a wide variety of
toxins allergens prion - Routes of exposure
- Air
- Water
- Food
- Direct penetration
- Biting
- Person exposed ? the agent distributed via
blood, lymph, or other body fluids to the parts
of the body most favorable for it to grow
11- Prions (proteinaceous infectious particles)
- Infectious agents (not organisms) made of protein
(yet to be fully characterized) - Multiply by converting normal protein molecules
into dangerous ones by changing their shapes - Responsible for the various forms of spongiform
encephalopathy, e.g. - - bovine spongiform encephalopathy (BSE) or
mad-cow disease) - - Creutzfeldt-Jakob disease (CJD)
- - kuru (transmitted by ritual handling of
bodies brains of the dead) - Symptoms of the human prion diseases dementia,
loss of coordination
12- Viruses
- a piece of nucleic acid (either DNA or RNA),
which makes its progeny by orchestrating the
production of virus particles by a cell - viruses that lack a lipoprotein envelope (e.g.
hepatitis A, gastroenteritis viruses) can grow in
the human gut be spread by food water - viruses with a lipoprotein envelope have limited
survival outside a host so are spread in
aerosols or inoculations of body fluids from
person to person (e.g. measles) - reproduces only inside a host cell
- viral diseases do not respond to antibiotics, but
some respond to specific antivirals
13- Bacteria
- most have sufficient energy supply to reproduce
outside a cell - have genetic material but no nucleus
- divide by splitting in half
- exist singly or in short chains of two or more
- classified by shape, oxygen requirement ability
to take up a special stain
14- Fungi
- simple plant plant organisms that lack the
chlorophyll needed to use carbon dioxide
sunlight to build sugars structural molecules - classified into yeast (single-celled) or moulds,
which grow as branching filaments called hyphae - yeast reproduce by budding, moulds by branching
longitudinal growth of hyphae, as well as by
producing sexual spores
15- Protozoa
- the simplest class of animal consisting of a
single nucleated cell - each cells has organelles that carry on such
functions as locomotion, nutrition, excretion,
respiration - e.g. plasmodium, cryptosporidium, giardia
- Arthropods
- the large phylum of animal life that includes
insects, spiders, mites ticks (as well as crabs
lobsters) - some of these creatures bite, sting, cause
allergic reactions, and may serve as vectors for
viruses other infectious agents
16(No Transcript)
17Growth of biological agents are slowed down or
stopped by
- defense mechanisms of the body
- drugs
18CHEMICAL HAZARDS
- Inorganic Substances
- halogens (e.g. fluorine, chlorine, bromine,
iodine) - alkaline compounds (e.g. NH3, Ca(OH)2, KOH, NaOH
- ozone (O3)
- NOx and SOx
- metals (e.g. cadmium, chromium, copper, lead,
manganese, mercury, nickel, arsenic)
19- Organic Compounds
- aliphatic hydrocarbons (e.g. methane, ethane,
propane, butane, pentane, hexane, heptane,
octane) - alicyclic hydrocarbons (e.g. cyclohexane,
methylcyclohexane, turpentine) - aromatic hydrocarbons (e.g. benzene, toluene,
styrene, naphthalene) - halogenated hydrocarbons (e.g. chloromethane,
dichloromethane, chloroform, carbon
tetrachloride, trichloroethyene, polyviyl
chloride) - alcohols (e.g. methanol, ethanol, propanol)
20Route of exposures
- Source
- natural events
- man-made industrial, agricultural, commercial,
domestic, manufacturing wastes - Exposure
- inhalation - breastfeeding
- oral ingestion - placental transfer
- absorption via the skin - inoculation direct
penetration - absorption via the eyes
21Air, water, dirt, etc
Food, water, drugs
Air
Exposure Media
inhalation
exhalation
ingestion
Major uptake pathways
Skin
Respiratory tract
GI-tract
bile
exfoliation
Blood
Transport distribution
Other organs
Liver
Kidney
Major excretory pathways
Sweat
Hair
Urine
Faeces
external contamination
22Biotransformation
- Hydrophobic or lipophilic ? hydrophilic
- Phase I - the molecule is altered by the
introduction of electrostatically charged (polar)
groups - - result of oxidation, reduction, or hydrolysis
- Phase II substances are combined w/ hydrophilic
endogenous compounds
23Bioactivation of Benzene
Phase II
Phase I
Benzene (the original chemical)
Phenylglucuronide (hydrophilic easily excreted)
Benzene epoxide (a dangerously toxic product)
Phenol (an intermediate that the body can handle)
24xenobiotics
highly lipophilic metabolically stable
lipophilic
polar
hydrophilic
accumulation in body fat
phase I (bioactivation or inactivation) oxidation,
reduction, hydrolysis
polar
phase II (bioinactivation) conjugation
hydrophilic
extracellular mobilization
plasma circulation
biliary excretion
renal excretion
secretion
25Toxicityany harmful effect of a chemical or a
drug on a target organ
- Systemic toxicity
- Liver toxicity
- Kidney toxicity
- Skin toxicity
- Neurotoxicity
- Immunotoxicity
26- Alteration of genetic
- codes information
- gene mutation
- chromosomal alteration
- gene rearrangements
Biological agents
Chemical agents
DNA
Physical agents
- Gene mutation
- the result of single or multiple base pair
changes (substitutions, deletions, insertions) - in the DNA. Normally, the cell defense
mechanisms can repair DNA damages, recreating - the original structures. Repair can be faulty,
leading to heritable changes - Chromosomal alterations
- via damage by genotoxic agents, leading to
structural aberrations (breaks, deletions,
translocations), - via loss or gain of one or more chromosomes
sometimes changes in the number of chromosomes - Gene rearrangements
- characterized by altered gene expression (gene
amplification, loss of activity). The underlying
causes - might be translocations or inversions of large
parts of chromosomes
Multistage process of carcinogenesis
Initiation
Promotion
Progression
27Toxicity Testing
- Acute toxicity studies
- to predict human effects of short-term,
high-level exposures can provide a measure of
the toxic potential of different compounds - ED50 dose that would cause the effect in half
of the test population - LD50 dose that would kill half of the test
population - LC50 concentration of gas or vapor that kills
half the test population - LD50 LC50 crude indices of toxicity
- Sub-chronic tests
- animals exposed repeatedly to a given chemical
over a relatively long period (28 days or
longer), normally 10 of the lifetime of the
selected animals - Chronic toxicity testing
- performed by exposing animals to the chemical
being tested for the whole of the animals
lifetime - Reproductive studies
- on parents offspring
28Toxicity Testing (contd)
- Genotoxic short-term tests
- short-term tests for gene mutation chromosome
alterations both in vitro in vivo - Human studies
- clinical or epidemiological studies
- Structure-activity relationships
Right-to-know legislation ? hazard identification
control
29PHYSICAL HAZARDS
Forms of potentially harmful energy in the
environment that can result in either immediate
or gradually acquired damage when transferred in
sufficient quantities to exposed
individuals e.g. sound waves, radiation, light
energy, thermal energy, electrical energy
30Noise
- Noise an unwanted sound
- Sound intensity measured in decibels (dB)
- Risk of incurring hearing loss begins w/
prolonged exposure to sound of 75 dB(A) - Rule of thumb
- if a loud voice is not understandable at a
distance of 1 m b/c of excessive background
noise, the background noise level is above 85 dB
likely to be dangerous
31Hearing conservation program
- Regular monitoring of the workplace
- Baseline annual audiograms (for all exposed
workers) - In-service pre-service (worker) education
- Systematic record keeping
- Worker notification
- Provision of hearing protection
32Other physical hazardsvibration, radiation,
light, lasers, pressure, temperatures
What are potential health effects of such hazards?
33Mechanical Hazards
- those posed by the transfer of mechanical or
kinetic energy (the energy of motion) - Injury, trauma, accidents
- Vulnerable groups
- children, the elderly, disadvantaged groups
34The Haddon Matrix
35Psychosocial Hazards
- Potential sources of work-related psychosocial
stress - factors intrinsic to the job
- the role of the worker in the organization
- career development
- interpersonal relationships at work
- organizational structure climate
36Thank you