Transcript Slide 1

Epidemiology
= the study of mechanisms and factors involved in the spread and
distribution of disease (or injury) within and/or between populations.
Asks “who, when, where, why and how” people get sick or injured.
Epidemiologists partly rely on knowledge of pathology and pathologists.
Pathology = the formal study of disease at the individual level.
* diagnosis based on unique…
- symptoms (patient feels) and
- signs (physician measures);
* identification of cause (= Etiology);
* understanding the pathogenesis (= disease development)
* determining the effects on the body;
Etiology: Studying the Cause of Disease
Koch’s Postulates: 1) same pathogen; 2) isolate and grow in pure culture;
3) cause the same disease in a healthy host; and 4) re-isolate the same.
Doesn’t work for human viruses; non-culturable microbes;
consortial diseases; pneumonias and diarrheal diseases
which both can be caused by the same bacterium;
conversely each of these disease types can be caused by
several different agents.
Types of Infectious Disease
• Communicable:
exogenous bacteria transmitted from one host to
another by direct contact or indirectly contact. Contagious diseases are
easily spread.
• Non-Communicable:
endogenous bacteria of host (normal
microbiota) or bacteria in nature that only produce disease when
introduced into the body.
• Local (specific site) versus Systemic (Body-wide)
• Bacteremia (septicemia), Toxemia, Viremia
(All relate to something in the blood)
• Primary versus Secondary Infections
• Emerging Infectious Disease (SARS)
Stages of Disease Development
Carrier?
Carrier?
Carrier?
Susceptible
to 2º infection
Carriers of Infectious Disease
Causative agent is Salmonella typhi
Frequency of Disease Occurrence
Incidence = number of people that develop disease (new cases) in a given
time period (indicates spread).
Prevalence = total numbers of infected people in a population at a given time.
Classification by Morbidity
* Spordic: occasionally with low prevalence.
* Endemic: constantly present.
• Epidemic: sudden or gradual increase in occurrence
above normal expectations in a population.
– Common source (non-communicable; sudden peak in
incidence at once; cases cluster in time and space)
– Progressive (communicable; gradual exponential rise in
incidence; increasing spatial distribution of cases)
* Pandemic: basically a worldwide epidemic.
Decline (Control) of Incidence
• How can an epidemic be contained or disease
incidence return to expected levels?
• Natural Process: “Herd Immunity”
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Prevalence increases up to a some threshold level.
Much of the population has naturally acquired immunity.
Probability of contact of susceptible individuals is reduced.
Incidence of disease declines.
• Artificial Processes:
– Vaccination Programs
– Chemo-therapeutics
– Incidence of disease declines.
The purposes of epidemiology are:
1. to define distribution and size of disease problems within
and between populations;
2. to understand reservoirs and transmission of infections;
3. to identify contributing factors in pathogenesis of the
disease (who has predisposing factors and are most at
risk?); and
4. to provide a basis for developing & evaluating preventive
procedures and public health practices.
Not just a study of the present human population!
History of Infectious
Diseases:
These Andean mummies
(~2000 yBP) were shown to
have suffered from
Mycobacterium tuberculosis,
the cause of TB.
However, Andean populations
did not suffer from other
infectious diseases found
widespread in contemporary
populations of Northern Africa
(Egypt) and Europe
Reservoirs of Infectious Agents
(= Any continuous source of infectious agent)
• Human: “carriers” (any infected but nonsymptomatic individual); subclinical, latent
disease, ill or convalescent people.
• Animals: zoonoses (wild and domestic;
mammal to insects)
• Non-living reservoirs: soil, water, surfaces
Methods of Transmission
• Contact Transmission:
– Direct:
• person-to-person contact (kissing, sex, casual contact);
• person-to-animal contact (bites from bugs or animals)
– Indirect: via nonliving object (fomite) that infectious persons were in
contact with (money to surgical implements)
– Droplet transmission (droplet nuclei): sneezing and coughing; short
distance (1 m).
• Vehicle Tranmission:
– Foodborne; waterborne; airborne
– Vectors (often arthropods; mechanical or biological)
Portals of Entry and Exit
Entries:
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Respiratory (airborne)
Mouth (water, food, kissing, other foreign objects
Penetration across epithelial barriers (bites, wounds, injections)
Sex
Catheterization
IV fluids and blood transfusions
Exits:
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Sloughed off skin
Insect bites
Pussing or weeping lesions or exposed infection
Sex
Urine
Feces
Respiratory and oral secretions (expectoration; aerosolization)
Nosocomial Infections
Don’t get it until after arriving to hospital; 5-15% all patients.
1. Microorganisms:
36% rise over past 20 years;
attributed largely to rise of
antibiotic resistant strains of
bacteria.
2. Compromised Host:
(worst state of predisposition)
Damaged Defenses: broken skin
or mucus membrane (nonspecific), suppressed immunity
(specific)
Invasive Procedures: surgeries
3. Chain of Transmission: from
direct contact to food, needles,
surgical implements, linens.
Since 1990s the major bugs are:
GRAM POSITIVES: Staphylococcus aureus & Enterococcus spp.
(surgical wounds, urinary, septicemia; pneumonia) 34%;
GRAM NEGATIVES: Escherichia coli, Psuedomonas aeruginosa,
Enterobacter spp., Klebsiella. pneumoniae (surgical wounds, pneumonia) 32%.
Major Target Tissues of Infection:
Descriptive Epidemiology
• To describe the occurrence of a disease, it’s necessary to
answer the questions of who? where? and when? Mostly
retrospective studies (lock back on what happened).
• Person (Who)?
– age, gender, race, culture, socioeconomic status, occupation, marital
status, maternal age.
• Place (Where)?
– Natural (climate; environment);
– Political (less useful as are more arbitrary relative to predisposing
(risk) factors.
• Time (When?) patterns to occurrence of disease over time:
– Secular (long-term); cyclic (e.g. seasonal); short-term (epidemic).
Why is it
important to look
beyond annual
data?
Greater time
resolution of
incidence can
show you what?
When was Typhoid Fever Epidemic
versus Sporatic?
Why did Cholera Spread to the US?
1991 pandemic of cholera by Vibrio cholerae O1 Inaba strain.
Gold states had cases in 1992. Blue area show coastal waters with the
identical strain of the bacterium. This bacterium is common to the marine
environment. Typically transmitted by the fecal-oral route.
Analytical Epidemiology:
• Deals with making comparisons between infected and
unaffected populations with or without certain risk factors
(age, gender, race, etc..).
• The goal is to establish associations between risk factors
& events; may even try to establish probable cause.
• Two approaches to probable cause studies:
1. Case Control Method: find 2 pops. with/without
disease; then compare pops. by specific factors;
retrospective analysis
2. Cohort Method: find 2 pops. with/without a
factor/event; then compare occurrence of disease;
prospective analysis
Experimental Epidemiology:
• Experimentation begins with a hypothesis based
on preexisting data.
• Human subjects are divided into a treatment
population (drug) and a control population
(placebo). A drug trial is a good example.
• Although it has happened over history, the
strategy of infecting human subjects with
infectious disease for the purpose of
experimentation is highly unethical.