Epi Classes 1 & 2

Question 1

“The Epidemiologic Transition”

Answer 1

The disease of concern to populations are constantly shifting.

A population shift in disease and mortality patterns in high income countries:
- before transition (low income countries): most deaths from infection and malnutrition; high infant mortality rates; short life expectancy.

-after transition (high income countries): most deaths from heart disease, cancers and stroke; low infant mortality rates; long life expectancy

Question 2

20th century epi

Answer 2

Refinement of epidemiological methods: outbreak investigation, study design for chronic diseases, clinical trials, biostatisical analysis

Cigarette smoke found unhealthy (1951-1963)

Eradication of smallpox (1978)

Increased focus on chronic disease and not just infectious disease/life expectancy

Question 3

Analytic Epidemiology

Answer 3

“Agent” “Host” “Environment”

Why?/How?

Looks for causes/test hypotheses

Question 4

Arthropod vectors

Answer 4

Bugs like mesquitos that carry disease. Discovered in 19th century as a carriers for diseases such as malaria, yellow fever, sleeping sickness and typhus

Question 5

Asymptomatic Carrier

Answer 5

Person that carries and spreads disease but shows no symptoms. Discovered in 19th century as a contributor to disease spread.ex. typhoid mary

Question 6

Bernardo Ramzzini

Answer 6

1633-1714: published comprehensive “disease of workers” detailing environmental hazards for 52 occupations.

Question 7

Bias

Answer 7

An over or underestimation of something (value, factor)A miscalulation by the system

Question 8

Case Fatality Rate (CFR)

Answer 8

deaths from a specific cause/# with the specific disease

The proportion of reported cases of a specified disease or condition which are fatal within a specific time.

CFR is a measure of the severity of a disease

Question 9

Cohort

Answer 9

A group of people that can be followed over time

Question 10

Criteria for a Risk Factor

Answer 10

1. The frequency of disease varies by category or value of the exposure
2. The risk factor (exposure) precedes the onset of the disease
3. The observed association is not due to any source of error
4. Association does not equal Causation

Question 11

Descriptive Epidemiology

Answer 11

“Person” “Place” “Time”

Who? Where? When?

Question 12

Disablity-Adjusted Life Year (DALY)

Answer 12

Measure of overall disease burden, expressed as the number of years lost due to ill-health, disablity or early death

Question 13

Edward Jenner

Answer 13

1798: developed smallpox inoculation. Took cowpox and injected it into an 8 year old. After multiple injections over time, he was unable to catch smallpox

Question 14

Efficacy

Answer 14

The abliity of an intervention to achieve the desired results under ideal conditions

Question 15

Endemic

Answer 15

A disease or condition normally found in a population.

An infection is said to be endemic in a population when it is maintained without the need for external input

Question 16

Epidemic

Answer 16

Higher than normal (baseline) incidence rates in a population.

A widespread occurance of an infectious disease in a community at a particular time

Question 17

Health

Answer 17

A state of complete physical, mental and social well-being and not merely an abscense of disease or infirmity

Question 18

Health Research

Answer 18

Examines the biological, socio-economic and environmental factors that contribute to health, disease, illness, diability and death

Question 19

Henle-Koch Postulates

Answer 19

1. The agent must be present in every case
2. One agent = one disease
3. Exposure of healthy subjects to suspected agents results in disease

Question 20

History of Epi: Hippocrates

Answer 20

1st to recognize environment’s role in disease etiology. He listed environmental, dietary, behavior and constitutional conditions.

Recognized early epidemicsWrote thorough descriptions of clinical diseases like tetanus, typhus, and tuberculosis

Question 21

History of Epi: The demographic approach: Use of vital statistics

Answer 21

14th and 15th century: Italy began tracking death rates and causes (especially from bubonic plague).

1592: England begins to issue death certificates

Question 22

Incidence

Answer 22

The occuraence, rate, or frequency of a disease, crime or somethign else undesireable

Question 23

Jakob Henle

Answer 23

1809-1885. Helped create germ theory. Proposed in 1840 that sick people pass contagious substances to healthy individuals

Question 24

James Lind

Answer 24

1747: studied etiology and treatment of scurvy by assigning random treatment to sailors

Question 25

John Graunt

Answer 25

1620-1674: “founder of vital statistics”. 1st use of populaiton mortality data to study disease occurance

Question 26

John Snow

Answer 26

1813-1858: determined that cholera was a water-born infection and conducted extensive studies of household water supply and disease. -Broad Street Pump

Question 27

Louis Pastuer

Answer 27

1822-1895: Helped create germ theory. isolated bacteria and developed process of killing germs by boiling

Question 28

Miasma Theory of Disease

Answer 28

1820’s and 1830’s: Prevailing theory of epidemics at the time. Belived that diseases were cause by foul smelling air. Thought epidemics spotaneously generated and were related to poor sanitation and environmental conditions

Question 29

Morbidity

Answer 29

The incidence of disease. The rate people get sick

Question 30

Mortality

Answer 30

Death

Question 31

Mortality Rate

Answer 31

Measure of the number of deaths in a population

Question 32

Percival Pott

Answer 32

1775: identified chimney soot as cause of scrotal cancer in chimney sweeps

Question 33

Pierre Charles- Alexandre Louis

Answer 33

1836: “founder of clinical statistics”. Used stats to campaign against blood-letting as a clinical treatment

Question 34

Prevalence

Answer 34

The number of cases of a given disease or other attribute (e.g. drug use, obesity) that exists in a defined population at a specified time.

Question 35

Proportionate Mortality Rate (PMR)

Answer 35

deaths from a specific disease / # of deaths = % of deaths in a population caused by a specific disease

The proportion of deaths due to the disease of interest in the exposed population divided by the proportion of deaths due to the disease of interest in the unexposed or reference population

Question 36

Research

Answer 36

The process of systematically and carefully investigating a single well-defined subject to learn/discover new info about the world

Question 37

Research Steps

Answer 37

1. Identify study question
2. Select study approach
3. Design study and collect data
4. Analyze data
5. Report findings

Question 38

Robert Koch

Answer 38

1843-1910: Helped support germ theory. Used microscopes to see the microbes that cause tuberculosis (1882) and cholera (1883). Worked on immunization for a range of diseases including anthrax. One of the father of vaccines.

Sharp rivalry with Pasteur

Question 39

Validity

Answer 39

The degree to which results of a study are likely to be true, beliveable and free of bias

Question 40

What is Epidemiology

Answer 40

“The study of distribution and determinants of health related states in human populations

“epi=”upon” + demos=”people” + logia= “the study of”

The basic science of public health that provides a framework for identifying public health problems, causes and solutions

Question 41

William Farr

Answer 41

1807-1883: 40 years as chief of vital statistics in England. Established national registration system.

Question 42

Year Royal Society of London begins publishing life tables

Answer 42

1662

Question 43

(Crude) Mortality Rate (CMR)

Answer 43

deaths from all causes (or a specific cause) / # of persons in the total population
– Units are usually reported “per # of people” (like /1000 or /10,000)
– Example: Normalville had an annual death rate of 30/1000 in 2010, which means that if the town has a total population of 5000 people, 150 died that year

Question 44

Comparing Rates

Answer 44

• Ratio: a/b, where a is the numerator and b is the denominator
• Proportion: a ratio with the numerator (a) included in the denominator (b); ranges from 0 to 1 (or 0% to 100%, if converted to a percentage by multiplying by 100)
• Rate: Δx/Δy, a measure of change in one quantity per unit change in another quantity (like a change in the number of people alive (Δ x) per change in time over one year (Δ y))
• Risk: a conditional probability of disease occurrence for an individual

Question 45

RR

Answer 45

RR = Rate Ratio = Risk Ratio = Relative Risk = Relative Rate – These terms are generally used as synonyms even though rate and risk should be distinct concepts

• RR = (rate in population 1)/(rate in population 2) where population 2 is the “reference population”
– The two populations must be independent (no members in common)

• When using proportions and rates for description and comparisons of populations:
– Define the units carefully
– Use the same units across comparisons

Question 46

Incidence

Answer 46

The number of NEW cases of a disease occurring in a time period / Total population at risk in that time period
– “at risk” = susceptible = does not already have the disease

Question 47

Prevalence

Answer 47

The number of EXISTING cases of a disease at a specified time / Total population at the specified time

Question 48

Incidence helps track

Answer 48

1. New cases
2. Measures changes in disease occurrence
3. Often used in infectious / acute disease studies
4. Used for investigating the causes of disease (etiology)

Question 49

Prevalence helps track

Answer 49

1. Existing cases
2. Measures how much disease is in the population
3. Often used in chronic disease studies
4. Used for description and planning health care needs

Question 50

Pandemic

Answer 50

Global Epidemic

Question 51

Prevalence is increased by…

Answer 51

1. Longer duration of the disease
2. Prolongation of life of patients without cure
3. Increase in new cases (incidence)
4. Out-migration of healthy people
5. In-migration of cases
6. Improved diagnostic facilities (better reporting)

Question 52

Prevalence is decreased by…

Answer 52

1. Shorter duration of disease
2. High case-fatality rate from disease
3. Decrease in new cases (incidence)
4. In-migration of healthy people
5. Out-migration of cases
6. Improving cure rates of disease

Question 53

Point Prevalence

Answer 53

the prevalence of a disease in a population at a single point in time

Question 54

Period Prevalence

Answer 54

the prevalence of a disease in a population over a specified period of time (includes cases at the start of the period and any subsequent new cases)

• Period Prevalence = Point Prevalence + Incidence

Question 55

Population Dynamics (3 types)

Answer 55

• Fixed Population: a group of persons, all of whom are available for follow-up starting at the same time (may have different lengths of follow-up, but no new entries)
• Dynamic Population: a group of persons, all of whom are available for follow-up, but starting at different times and for different lengths of follow-up
• Steady-State Population: a dynamic population in which the number of persons entering the population is equal to the number of persons leaving

Question 56

Fixed Population

Answer 56

a group of persons, all of whom are available for follow-up, starting at the same time

(may have different lengths of follow-up, but no new entries)

Question 57

Dynamic Population

Answer 57

a group of persons, all of whom are available for follow-up, but starting at different times and for different lengths of follow-up

Question 58

Steady-State Population

Answer 58

a dynamic population in which the number of persons entering the population is equal to the number of persons leaving

Question 59

Person-Years

Answer 59

• Allows for measurement of long-term disease processes in dynamic populations (accounts for persons who move to/from a population, are born/die, develop disease, drop out of a study, etc.)
• Incidence can be reported in terms of person-years:“The incidence of the disease was 12.6 per 1000 person-years in our study population.”
• This could represent 100 people followed for 10 years each OR 1000 people followed for 1 year each OR many people followed for various lengths of time

Question 60

Burden of Disease (BOD) Estimates (population level) (3 types)

Answer 60

• YLL: Years of Life Lost to premature death– An estimate of mortality that represents the significance of a disease in a population, with greater weight given to diseases that affect younger persons. Based on rough assumptions about how long people “should” live in a given population; an estimate rather than a calculation.
• YLD: Years of Life lived with Disability
• DALYs: Disability-Adjusted Life Years (years lost to premature death or to disability)– An estimate of morbidity that accounts for the burden of disease due to specific causes (including non-fatal injuries and mental disease) in a population.– In a population, DALYs = YLLs + YLDs

Question 61

YLL

Answer 61

Years of Life Lost to premature death– An estimate of mortality that represents the significance of a disease in a population, with greater weight given to diseases that affect younger persons. Based on rough assumptions about how long people “should” live in a given population; an estimate rather than a calculation.

Question 62

YLD

Answer 62

Years of Life lived with Disability

Question 63

DALYs

Answer 63

Disability-Adjusted Life Years (years lost to premature death or to disability)– An estimate of morbidity that accounts for the burden of disease due to specific causes (including non-fatal injuries and mental disease) in a population.– In a population, DALYs = YLLs + YLDs