Clinicometrics

Question 1

crude mortality

Answer 1

total # of deaths in a population / entire population

Question 2

cause specific mortality

Answer 2

deaths from disease / entire population

Question 3

case fatality mortality

Answer 3

deaths from disease / # of cases of disease

Question 4

proportionate mortality for disease

Answer 4

deaths from disease / total # deaths in a population

Question 5

prevalence

Answer 5

total number of cases in a population at a given time

cases at time T / population at time T

does NOT determine risk or probability of becoming a case

Question 6

what type of study determines prevalence

Answer 6

cross sectional studies

Question 7

can CS studies calculate risk/probability

Answer 7

no because it ignores disease duration

Question 8

what factors influence prevalence

Answer 8

1. population dynamics
2. duration of disease

prevalence = incidence x disease duration

Question 9

incidence

Answer 9

risk/probability of disease occurring in a time period

used to compare disease occurrence in one group versus another (exposed vs not exposed OR treatment vs controls)

Question 10

what type of study determines incidence

Answer 10

clinical trials
cohort studies

Question 11

what is required in order to calculate incidence

Answer 11

defined time interval (study length)

Question 12

incidence proportion

Answer 12

new cases during study period / susceptible subjects

ranges from 0 to 1

assumes subjects do not have disease at the start of the time period and are not at risk of being removed from the population

Question 13

limitations of calculating incidence proportion

Answer 13

• diseases with recurrence
• dynamic populations - requires calculation of incidence rate

Question 14

incidence rate

Answer 14

new cases during study period / time that subjects are at risk of disease

denominator = sum of time at risk for all individuals in the population
- accounts for dynamic populations

measured in units of time (cases per X number of days)

Question 15

2X2 tables - A, B, C, D

Answer 15

A: diseased + exposed
B: diseased + not exposed
C: healthy + exposed
D: healthy + not exposed

Question 16

risk ratio (RR)

Answer 16

incidence proportion in exposed / incidence proportion in unexposed

relative risk, incidence proportion ratio

(# exposed new cases / total # exposed) / (# unexposed new cases / total # unexposed)
=
(A / A+C) / (B / B+D)

Question 17

how do you interpret risk ratio

Answer 17

RR probability of developing disease in exposed vs unexposed

Question 18

range of risk ratio

Answer 18

0 to infinity

RR > 1: exposure is a risk factor for disease
RR < 1: exposure is protective against disease

Question 19

risk difference

Answer 19

incidence proportion in exposed - incidence proportion in unexposed

(A/ A+C) = (B/ B+D)

absolute measure of risk
determines the importance of the disease

Question 20

interpretation of risk difference

Answer 20

for every (total # exposed), only X develop disease due to exposure

Question 21

incidence rate ratio

Answer 21

incidence rate in exposed/ incidence rate in unexposed

(# exposed new cases / time exposed are at risk) / (# unexposed new cases / time unexposed are at risk)

Question 22

interpretation of incidence rate ratio

Answer 22

patients will get disease IRR times faster if exposed

Question 23

hazard rates

Answer 23

similar to incidence rate but estimated from a type of statistical model that estimates time to event of interest in different groups

Question 24

cohort study uses

Answer 24

good for COMMON diseases to calculate RISK RATIO

start with population at risk (disease free) –> determine exposure

Question 25

why can you calculate risk ratio of a cohort study

Answer 25

because samples are randomly selected (all subjects are disease free at enrollment)

Question 26

limitations of cohort studies

Answer 26

rare diseases make it difficult because you would have cases «< controls

inefficient to follow all controls just to find an adequate number of cases
- can compare the cases to a smaller sample of controls and statistically still get the same results

Question 27

case control study uses

Answer 27

similar enrollment as cohort study except controls are sampled from the cohort
- allows study of RARE diseases

cases: enrolled from the cohort if they develop the disease over a set time period

controls: enrolled from the cohort if they are at risk of getting the disease but do not have it yet

Question 28

can you calculate risk ratio from a case control study

Answer 28

NO because the number of cases and controls were selected by the investigator (not randomly sampled like cohort)

subjects are STARTING with disease vs no disease

Question 29

case control study steps

Answer 29

1. start with a cohort
2. determine the marginal totals of cases and controls (sampled from cohort)
3. determine exposure status of cases and controls

Question 30

what can be calculated from case control studies

Answer 30

• odds of exposure
• case control (exposure) odds ratio

Question 31

odds of exposure

Answer 31

probability of being exposed / probability of not being exposed

p / 1-p where p = probability

Question 32

odds of exposure among cases

Answer 32

proportion of cases exposed / proportion of cases not exposed

(A / A+B) / (B / A+B)
=
A / B

Question 33

odds of exposure among controls

Answer 33

proportion of controls exposed / proportion of controls not exposed

(C / C+D) / (D / C+D)
=
C /D

Question 34

case control odds ratio

Answer 34

odds of exposure among cases / odds of exposure among controls

exposure odds ratio

(A/B) / (C/D)
=
AD / BC

Question 35

can risk ratio be calculated from a case control study

Answer 35

NO - but can be approximated from the case control odds ratio

risk ratio = disease odds ratio = case control odds ratio ONLY when the disease is rare

Question 36

can you calculate risk from a case control study

Answer 36

NO and you can NOT approximate it either

can only approximate RISK RATIO (relative risk)

Question 37

exposure odds ratio vs disease odds ratio

Answer 37

EOR: measured in case control studies

DOR: measured in cohort studies

Question 38

how are EOR and DOR related

Answer 38

EOR is always equal to DOR

Question 39

how are DOR and risk ratio related

Answer 39

DOR = risk ratio (relative risk) when the disease is RARE

Question 40

when is a disease considered rare

Answer 40

when risk < 5% in a period of time

odds is bound from 0 to infinity
risk is bound from 0 to 1
when p = 0.05 –> odds curve diverges from probability/risk curve –> odds ratio no longer equals risk ratio

Question 41

how are controls selected for a case control study

Answer 41

3 rules
1. control should only be selected if someday, if it were to become a case, then it would be eligible to be included in the study as a case
2. controls should be selected for reasons unrelated to exposure
3. select incident (new) cases NOT prevalent (old) cases

Question 42

how many controls should be enrolled in a case control study

Answer 42

want to have a minimum of 1 control per case

more controls per case is better, but no need for >4 cases per control

Question 43

what is the use of case control studies

Answer 43

hypothesis generating - examine a large number of exposures for one outcome/disease