FINALS: EPIDEMIOLOGY Flashcards

Question 1

Q

Study of distribution and determinants of health-related event

Answer

A

EPIDEMIOLOGY

Question 2

Q

EPIDEMIOLOGY COMPONENTS:
GOAL: GENERATE hypothesis
1. Distribution of health-related space
2. Describes the pattern of disease as to
a. P – Person
b. P – Place
c. T – Time

DESCRIPTIVE OR ANALYTIC?

Answer

A

DESCRIPTIVE

Question 3

Q

EPIDEMIOLOGY COMPONENTS:
GOAL: TEST hypothesis
1. Determination of health-related states
a. Understanding the causes of risk
factors that lead to the disease

Designs
a. Cross-sectional
b. Longitudinal
i. Prospective
Observational: Cohort study
Interventional: Experimental
ii. Retrospective
Case control

DESCRIPTIVE OR ANALYTIC?

Question 4

Q

EPIDEMIOLOGY FUNCTIONS

Answer

A

DESCRIBE HEALTH STATUS
EXPLAIN CAUSES
PREDICT

Question 5

Q

HISTORY
shoe leather theory

A. HIPPOCRATES
B. ROBERT KOCH
C. JOHN SNOW
D. THOMAS DRAWBER

Answer

A

JOHN SNOW

Question 6

Q

HISTORY
germ theory

A. HIPPOCRATES
B. ROBERT KOCH
C. JOHN SNOW
D. THOMAS DRAWBER

Answer

A

B. ROBERT KOCH

Question 7

Q

HISTORY
- pneumonia among American Legion Convention attendees in Philadelphia Hotel (1976)

A. FRAMING HEART STUDY
B. LEGIONNAIRE’S DISEASE
C. BRITISH DOCTORS STUDY
D. TOXIC SHOCK SYNDROME

Answer

A

B. LEGIONNAIRE’S DISEASE

Question 8

Q

HISTORY
- use of tampons among menstruating women (1980)

A. FRAMING HEART STUDY
B. LEGIONNAIRE’S DISEASE
C. BRITISH DOCTORS STUDY
D. TOXIC SHOCK SYNDROME

Answer

A

D. TOXIC SHOCK SYNDROME

Question 9

Q

HISTORY
- by Thomas Drawber
- risk factors for development of Coronary Heart Disease (1948)

A. FRAMING HEART STUDY
B. LEGIONNAIRE’S DISEASE
C. BRITISH DOCTORS STUDY
D. TOXIC SHOCK SYNDROME

Answer

A

A. FRAMING HEART STUDY

Question 10

Q

HISTORY
- R. Doll and R. Peto (1951) – smoking and death among british docs – harmful effects of during smoking
A. FRAMING HEART STUDY
B. LEGIONNAIRE’S DISEASE
C. BRITISH DOCTORS STUDY
D. TOXIC SHOCK SYNDROME

Answer

A

C. BRITISH DOCTORS STUDY

Question 11

Q

Theories of Disease Causation

– linearity, cause precedes the
effect

A. CONFOUNDERS
B. CAUSATION
C. RISK FACTORS
D. ASSOCIATION

Answer

A

CAUSATION

Question 12

Q

CAUSATION
- Specific agent, specific disease
(Agent – Disease)

SPECIFIC CAUSATION OR MULTIPLE CAUSATION?

Answer

A

SPECIFIC CAUSATION

Question 13

Q

CAUSATION:
i. Interplay of different components
1. Susceptible host + Pathogenic Agent + Environment = DISEASE

ii. Sufficient component cause
1. Each component should be present
2. C1+C2+C4+C5=Disease

SPECIFIC CAUSATION OR MULTIPLE CAUSATION?

Answer

A

MULTIPLE CAUSATION

Question 14

Q

Theories of Disease Causation

a. Personal behavior/ lifestyle/ practices
b. Environmental exposure
c. Genetic makeup (predisposing factor)

A. CONFOUNDERS
B. CAUSATION
C. RISK FACTORS
D. ASSOCIATION

Answer

A

C. RISK FACTORS
(it is not the cause but only the “ENABLE”)

Question 15

Q

Theories of Disease Causation

a. Identifiable relationship
b. Associated variables mean that they co-exist
c. Does not necessarily imply cause and effect relationship

A. CONFOUNDERS
B. CAUSATION
C. RISK FACTORS
D. ASSOCIATION

Answer

A

D. ASSOCIATION

Question 16

Q

Theories of Disease Causation

a. Extraneous variables whose effect may influence the relationship of the variables to be studied on
b. It has to be “controlled” since it has an influence to both cause and effect;
“without the confounder, the causation will not push thru”

A. CONFOUNDERS
B. CAUSATION
C. RISK FACTORS
D. ASSOCIATION

Answer

A

A. CONFOUNDERS

Question 17

Q

Set of standard criteria for deciding whether an individual ha sa disease or
health event of interest

A. PROPORTION
B. RATE
C. CASE
D. PERSON TIME

Question 18

Q

CASE:
e.g. Syndromes; Chronic and Psychiatric Diseases

CAUSAL OR MANIFESTATIONAL CASE?

Answer

A

MANIFESTATIONAL CASE

Question 19

Q

CASE:
e.g. Infections

CAUSAL OR MANIFESTATIONAL CASE?

Question 20

Q

Natural History of Disease:
– infectious disease

INITIATION OR INDUCTION?

Answer

A

INITIATION

Question 21

Q

Natural History of Disease:
– non- infectious disease

INITIATION OR INDUCTION?

Answer

A

INDUCTION

Question 22

Q

PHASE OF DISEASE: Underlying economic/social/environmental/conditions leading to causation
e.g. helmet use/ wash of hands

GOAL: Minimize hazard

A. PRIMORDIAL
B. PRIMARY
C. SECONDARY
D. TERTIARY

Answer

A

PRIMORDIAL

Question 23

Q

PHASE OF DISEASE: Specific causal factor
Eg. HPV vaccine

GOAL: Reduce INCIDENCE of disease

A. PRIMORDIAL
B. PRIMARY
C. SECONDARY
D. TERTIARY

Question 24

Q

PHASE OF DISEASE: early stage of disease

GOAL: reduce PREVALENCE of disease by shortening duration

A. PRIMORDIAL
B. PRIMARY
C. SECONDARY
D. TERTIARY

Question 25

Q

PHASE OF DISEASE: Late stage

GOAL: reduce the number and impact of complication

A. PRIMORDIAL
B. PRIMARY
C. SECONDARY
D. TERTIARY

Question 26

Q

EPIDEMIOLOGIC APPROACH FLOW

Answer

A

EXAMINE EXISTING FACTS
GENERATE NEW HYPOTHESIS
TEST HYPOTHESIS
CONCLUDE/GENERATE NEW FACTS

Question 27

Q

Components of an Epidemiologic hypothesis

Answer

A

Cause is considered
Anticipate the effect
Characterize the population
Exposure-response is established
Time-response relationship

Question 28

Q

Method of hypothesis testing:
o There is a common circumstance in
agreement with all instance
o E.g. common factor X results to
disease Y

A. METHOD OF AGREEMENT (COMMONALITY)
B. METHOD OF DIFFERENCE
C. CONCOMITANT VARIATION

Answer

A

A. METHOD OF AGREEMENT (COMMONALITY)

Question 29

Q

Method of hypothesis testing:
o Level of severity
o Eg. More factor X results to Severe
form of disease than those with less
factor X

A. METHOD OF AGREEMENT (COMMONALITY)
B. METHOD OF DIFFERENCE
C. CONCOMITANT VARIATION

Answer

A

C. CONCOMITANT VARIATION

Question 30

Q

Method of hypothesis testing:
o Disease A = has factor X Y Z; Disease
A = W Y Z; therefore Disease A is not caused by Factor X

A. METHOD OF AGREEMENT (COMMONALITY)
B. METHOD OF DIFFERENCE
C. CONCOMITANT VARIATION

Answer

A

B. METHOD OF DIFFERENCE

Question 31

Q

Descriptive Epidemiology:
- Detailed account of a patient’s
experience and clinical manifestation
that comprise a new or an atypical
health event or disease

Eg. VACTRL syndrome

A. CASE REPORT
B. CASE SERIES
C. PREVALENCE STUDIES
D. ECOLOGICAL STUDY

Answer

A

A. CASE REPORT

Question 32

Q

Descriptive Epidemiology:
- Multiple case reports in one disease

A. CASE REPORT
B. CASE SERIES
C. PREVALENCE STUDIES
D. ECOLOGICAL STUDY

Answer

A

B. CASE SERIES

Question 33

Q

Descriptive Epidemiology:
- Determine proportions of individuals
with the disease or a health event in a
defined population at a GIVEN TIME

E.g. parasitism among children

A. CASE REPORT
B. CASE SERIES
C. PREVALENCE STUDIES
D. ECOLOGICAL STUDY

Answer

A

C. PREVALENCE STUDIES (existing case) or INCIDENCE STUDIES (new case)

Question 34

Q

Descriptive Epidemiology:
- Aka correlational study
- Correlation of factors in different
groups

A. CASE REPORT
B. CASE SERIES
C. PREVALENCE STUDIES
D. ECOLOGICAL STUDY

Answer

A

D. ECOLOGICAL STUDY

Question 35

Q

Analytical Epidemiology:
- Counterfactual Scenario/ Alternative History
- The “what if” in epidemiology
- An alternative parallel timeline that differ from reality
- Contingency tables
- Measurement of exposure and outcome variables at one time point

Answer

A

ANALYTICAL STUDIES

Question 36

Q

Measured at one point of time

CROSS - SECTIONAL or LONGITUDINAL?

Answer

A

CROSS - SECTIONAL

Question 37

Q

CANNOT be measured at one point of time

CROSS - SECTIONAL or LONGITUDINAL?

Answer

A

LONGITUDINAL

Question 38

Q

Aka Prevalence study

E.g. survey of group with exposure and
without

A. CROSS-SECTIONAL
B. COHORT STUDY
C. RETROSPECTIVE COHORT STUDY
D. CASE CONTROL STUDY
E. EXPERIMENTAL STUDY

Answer

A

A. CROSS-SECTIONAL

Question 39

Q

Prospective study between with exposure and without exposure

A. CROSS-SECTIONAL
B. COHORT STUDY
C. RETROSPECTIVE COHORT STUDY
D. CASE CONTROL STUDY
E. EXPERIMENTAL STUDY

Answer

A

B. COHORT STUDY

Question 40

Q

Aka historical cohort study
Retrospective study between group with or without exposure and its present outcome (with or without the disease)

A. CROSS-SECTIONAL
B. COHORT STUDY
C. RETROSPECTIVE COHORT STUDY
D. CASE CONTROL STUDY
E. EXPERIMENTAL STUDY

Answer

A

C. RETROSPECTIVE COHORT STUDY

Question 41

Q

Aka trohoc study
Outcome is MEASURED AT PRESENT TIME and E of the participants in the past is estimated
Subjects should be the SAME
1. Eg. All should be 7 yrs old, same
outcome

A. CROSS-SECTIONAL
B. COHORT STUDY
C. RETROSPECTIVE COHORT STUDY
D. CASE CONTROL STUDY
E. EXPERIMENTAL STUDY

Answer

A

D. CASE CONTROL STUDY

Question 42

Q

A cohort study with MANIPULATION OF EXPOSURE or non exposure with
randomization
Cohorts are randomly assigned

A. CROSS-SECTIONAL
B. COHORT STUDY
C. RETROSPECTIVE COHORT STUDY
D. CASE CONTROL STUDY
E. EXPERIMENTAL STUDY

Answer

A

E. EXPERIMENTAL STUDY

Question 43

Q

Measurements in Epidemiology:
- To investigate distributions and determinants of disease, it is necessary to know the following:
● Size of the population
● Time period during which data were collected

A. QUANTIFICATION OF DISEASE OCCURRENCE
B. MEASURES OF DISEASE FREQUENCY
C. MEASURE OF OCCURENCE

Answer

A

QUANTIFICATION OF DISEASE OCCURRENCE

Question 44

Q

● a/b
● Obtained by dividing one quantity by another without implying relationship between the numerator and
the denominator

Question 45

Q

RATIO:
- Type of ratio in which who are
included in the numerator are also
included in the denominator
- a/a+b

A. PROPORTION
B. PERCENTAGE
C. RATE

Answer

A

A. PROPORTION

Question 46

Q

RATIO:
-There is a distinct relationship between the numerator and denominator
b. Time – included in the denominator

A. PROPORTION
B. PERCENTAGE
C. RATE

Question 47

Q

Quantify how often disease occurs in a population that is given

A. QUANTIFICATION OF DISEASE OCCURRENCE
B. MEASURES OF DISEASE FREQUENCY
C. MEASURE OF OCCURENCE

Answer

A

B. MEASURES OF DISEASE FREQUENCY

Question 48

Q

MEASURE OF OCCURENCE:
- NEW RATE
● Incidence proportion (risk)
● Incidence rate (incidence density)

INCIDENCE OR PREVALENCE?

Answer

A

INCIDENCE

Question 49

Q

MEASURE OF OCCURENCE:
- PRESENT CASES
● Number of total cases

INCIDENCE OR PREVALENCE?

Answer

A

PREVALENCE

Question 50

Q

TYPES OF POPULATION:
- Aka COHORTS
- NO GAINS for members after it is
established but may be reduced due to
losses (e.g. death)
- if members are no longer at risk hence
called now a CASE

CLOSED OR OPEN POPULATION?

Answer

A

CLOSED POPULATION

Question 51

Q

TYPES OF POPULATION:
- Aka DYNAMIC
- ADDS NEW MEMBERS through birth and immigration and lose through death and emigration
- Through time, the open population MAY GROW, REMAIN CONSTANT or DECLINE

CLOSED OR OPEN POPULATION?

Answer

A

OPEN POPULATION

Question 52

Q

NUMBER OF NEW CASES that develop in a population at risk during a specified time interval
- The disease is assessed in a population that is initially disease free but at risk to develop the disease

A. MEASURES OF DISEASE FREQUENCY
B. MEASURE OF INCIDENCE
C. MEASURE OF OCCURENCE

Answer

A

B. MEASURE OF INCIDENCE

Question 53

Q

Basic Formulation of Incidence Measures:
- MEASURE OF EVENTS – transition from diseased state, thus can be a measure of risk

NUMERATOR OR DENOMINATOR?

Answer

A

NUMERATOR

Question 54

Q

Basic Formulation of Incidence Measures:
- individuals who are at risk and who
was at risk and now acquired the
disease state

NUMERATOR OR DENOMINATOR?

Answer

A

DENOMINATOR

Question 55

Q

Basic Formulation of Incidence Measures:
- Proportion of individuals who become diseased during the SPECIFIED PERIOD OF TIME
- (no.of new cases given a period of time)/(total population at risk)
- Assumes the entire population is at risk at the beginning of the study period that was followed over a
specified time interval for the development of outcome under investigation

INCIDENCE PROPORTION OR INCIDENCE RATE?

Answer

A

INCIDENCE PROPORTION

Question 56

Q

Basic Formulation of Incidence Measures:
- Called force of morbidity or mortality or incidence density
- Measures INSTANTANEOUS RATE of development of disease in a population
- (no.of new case during a period of time)/(total person time of observation)
- Represent the speed or intensity at which the populations are expected to generate new cases
- Reflects the incidence proportion (risk) of the disease when the disease is rare

INCIDENCE PROPORTION OR INCIDENCE RATE?

Answer

A

INCIDENCE RATE

Question 57

Q

AMOUNT OF TIME THE PERSON IS OBSERVED during the study, and is counted only when a person is at risk
of being detected as a case
Not counted after:
1. The person DEVELOPS THE DISEASE under investigation
2. The person WITHDRAWS from the study
3. The STUDY ENDS
Add the time of every case until the person developed the disease

Answer

A

PERSON TIME

Question 58

Q

Sum of individual’s time at risk or time
each person remained under observation and free from disease

Individual Person time is _________

KNOWN OR NOT-KNOWN?

Question 59

Q

Total person time = average population
size x length of follow-up periods
Average population = population at start + population at the end/2

Individual Person time is _________

KNOWN OR NOT-KNOWN?

Answer

A

NOT-KNOWN

Question 60

Q

Quantifies the proportion of individuals in a population who HAVE THE DISEASE a specified time
Snapshot through the population at a point in time to determine who has the disease and who does not
= (no.of existing cases)/(total
population) x 100

A. PREVALENCE
B. INCIDENCE
C. POINT IN TIME

Answer

A

PREVALENCE

Question 61

Q

SPECIFIC POINT IN CALENDAR
eg. Onset of menopause, Menarche
Fixed point in the course of events that varies in real person to person

A. PREVALENCE
B. INCIDENCE
C. POINT IN TIME

Answer

A

C. POINT IN TIME

Question 62

Q

Relationship between prevalence ad incidence

Answer

A

P = I x D

Question 63

Q

Relationship between prevalence ad incidence
ASSUMPTIONS
Incidence of the disease is ________
over time

CONSTANT OR NOT CONSTANT?

Question 64

Q

Relationship between prevalence ad incidence
ASSUMPTIONS
Duration of the disease is ________
over time

CONSTANT OR NOT CONSTANT?

Answer 54

A

Prevalence Measures

Answer 55

A

D. DISEASE CLUSTER

Answer 56

A

a. Number of cases is significantly higher than expected
b. Scale and severity
c. Potential for spread
d. Political and public health consideration
e. Resource availability

Answer 57

A

a. Local health departments
b. Higher level health agencies (DOH-Epid Bureau)

Answer 58

A

a. ASSESS THE EXTENT of the outbreak
b. REDUCE THE NUMBER OF CASES associated with the outbreak by identifying and eliminating the source
c. IDENTIFY NEW DISEASES syndromes
d. ASSESS EFFICACY of employed prevention strategies
e. ADDRESS LIABILITY CONCERNS, measures damage
f. TRAIN EPIDEMIOLOGIST
g. PROVIDE GOOD PUBLIC RELATIONS and public education

Answer 59

A

PREPARE FOR FIELDWORK
ESTABLISH OUTBREAK
VERIFY DIAGNOSIS OF CASES
ESTABLISH CASE DEFINITION AND SEARCH FOR ADDITIONAL CASES
CONDUCT DESCRIPTIVE EPIDEMIOLOGICAL STUDIES

Answer 60

A

ADMINISTRATIVE

Answer 61

A

EPIDEMIC CURVE

Answer 62

A

EPIDEMIC MAPS

Answer 63

A

A. POINT SOURCE EPIDEMIC

Answer 64

A

B. CONTINUOUS COMMONS SOURCE OR EPIDEMIC

Answer 65

A

C. SPORADIC CURVE

Answer 66

A

D. PROPAGATED EPIDEMIC

Brainscape's Knowledge GenomeTM

FINALS: EPIDEMIOLOGY Flashcards

Brainscape's Knowledge Genome^TM