Evaluating the Role of Random Error

Question 1

If the observed result is false, what could be the 3 alternate explanations?

Answer 1

• Bias
• Confounding
  
  • Random Error

Question 2

Random Error

Answer 2

• aka chance
• arises from:
  
  • measurement errors
  • sampling variability

Question 3

What are some ways to reduce random error?

Answer 3

• increase sample size
• repeat a measurement or entire study
• use an efficient study design

Question 4

Hypothesis Testing

Answer 4

• determines if random error/chance causes association
• P value

Question 5

Null Hypothesis

Answer 5

• no association b/w exposure and outcome
• RR=1, OR=1, RD=0

Question 6

Alternate Hypothesis

Answer 6

• is an association b/w exposure and outcome
• RR≠1, OR≠1, RD≠0

Question 7

Define P Value:

Answer 7

• given that H₀ is true, the p-value=probability of observed and extreme results by chance only
• Range: 0-1

Question 8

If p ≤ .05…

Answer 8

• significant
• reject H_0, Accept H_A

Question 9

If p>0.05

Answer 9

• not significant
• do no reject H₀

Question 10

Problems with use of P-value in research

Answer 10

• Does not:
  
  • imply medical, biological, or public health significance
  • rule out bias or confounding explanations
  • mean H₀ is true
• P≤0.05 is arbitrary→ judgement errors

Question 11

What does the confidence interval tell you

Answer 11

• range of hypotheses that are comparable to the data

Question 12

What does a wide confidence interval indicate?

Answer 12

• smaller population size
  
  • large amount of random error

Question 13

what does a narrow confidence interval indicate?

Answer 13

• large sample size
  
  • small amount of random error

Question 14

If null hypothesis is within confidence interval range, the what would the p-value be?

Answer 14

• P-value> 0.05
• not significant
  
  • H₀ not rejected

Question 15

Confounding

Answer 15

• mixing of effect b/w exposure, outcome, and confounder (3rd variable)
• exaggerates or minimizes true association

Question 16

Criteria to be a confounder?

Answer 16

• Must be associated with:
  
  • exposure
  • outcome
    
    • independent of exposure
• not intermediate step in cause pathway b/w exposure and disease

Question 17

What are the effects of confounding?

Answer 17

• account for all or part of association
• cause overestimate or underestimate of association

Question 18

What variables can be potential confounders?

Answer 18

• risk factors for disease

Question 19

What are the different ways to control for confounding?

Answer 19

• Design Stage:
  
  • Randomization (RCT)
  • Restriction
  • Matching
• Analysis Stage:
  
  • Stratification
  • Multivariat analysis

Question 20

Randomization

Answer 20

• with sufficient sample size
  
  • control for known and unknown confounders
• not guaranteed

Question 21

Restriction

Answer 21

• restrict admission criteria for study
• limits individuals in specific category of confounder
• ex: Race limited by age or height

Question 22

What is the goal for controlling confounding in design phase

Answer 22

• eliminate or reduce variation in confounding factor b/w compared groups

Question 23

Restriction: Advantages and disadvantages

Answer 23

• advantages
  
  • straight forward
  • convenient
  • inexpensive
• disadvantages
  
  • limits generalization

Question 24

Matching

Answer 24

• select subject so potential confounders are distributed in identical manner among:
  
  • exposed and unexposed
    
    • cohort study
  • case and controls
    
    • case control study

Question 25

Stratification

Answer 25

• evaluate association within homogenous categories (strata) of confounding variable

Question 26

Bias

Answer 26

• systematic error
• results in and incorrect measure of association:
  
  • creates association when there is not one
    
    • bias away from null
  • Mask association when there Is one
    
    • bias towards the null
• arise in all study types:
  
  • experimental
  • cohort
    
    • retrospective=mostsusceptible
  • case-control
• evaluated but not fixed in analysis design

Question 27

What are the 2 main type of bias?

Answer 27

• selection
• observation

Question 28

What type of studies are Selection Bias most likely to occur in? Why?

Answer 28

• most likely to occur in:
  
  • case control
  • retrospective
• bc Exposure and outcome occurred at time of study selection

Question 29

What is the solution to selection bias?

Answer 29

• nothing can be done

Question 30

Observation Bias

Answer 30

• error in the info on exposure or outcome from subjects
• affects groups unequally
• occurs after subject have entered the study
• results in incorrect classification of subjects:
  
  • exposed vs unexposed
  • diseased or not

Question 31

What are the different types of observation bias?

Answer 31

• Recall
• Interviewer
• misclassification

Question 32

recall bias

Answer 32

• remember or report exposures differently
  
  • more or less accurate than those w/o disease

Question 33

Interviewer bias

Answer 33

• difference in soliciting, recording or interpreting info

Question 34

misclassification bias

Answer 34

• subjects exposure or disease status is classified wrong
  
  • incorrectly reported or recorded

Question 35

Loss of subjects to f/u

Answer 35

• Problem in cohort studies when related to exposure and disease

Question 36

What diseases are appropriate for screening?

Answer 36

• serious disease w/severe consequences
• progressive disease & tx is more effective at earlier stage
• High Prevalence in DPCP
  
  • Detectable pre-clinical phase

Question 37

What are some characteristics of good screening test?

Answer 37

• economical
• convenient
• free of risk and discomfort
• acceptable to large population
• highly valid and reliable

Question 38

test validity

Answer 38

• does it accurately identify those with and without preclinical disease
  
  • sensitivity
  • specificity

Question 39

Test reliability

Answer 39

• same result each time

Question 40

2x2 table for screening test outcomes:

Answer 40

Question 41

Define Sensitivity

Answer 41

• probability that people with the disease will test positive
  
  • True Positive

Question 42

How do you calculate sensitivity?

Answer 42

a/(a+c)

Question 43

Define Specificity

Answer 43

• probability that people without the disease have a negative test
  
  • true negative

Question 44

t

Question 45

How do you calculate specificity?

Answer 45

d/(b+d)

Question 46

define Positive Predictive value

Answer 46

• the likelihood that a positive test result indicates the existence of the disease
  
  • how worried should the patient be?

Question 47

How do you calculate positive predictive value?

Answer 47

a/(a+b)

Question 48

define negative predictive value

Answer 48

• likelihood that a negative test result indicates the absence of the disease
  
  • how reassured should they be?

Question 49

How do you calculate negative predictive value?

Answer 49

d/(c+d)

Question 50

What do predictive values depend on?

Answer 50

• sensitivity
• specificity
• prevalence

Question 51

Randomized control Trials

Answer 51

• gold standard for study designs
  
  • bc of greater internal validity

Question 52

Steps to conduct RCT

Answer 52

• enroll subject
• allocate to tx groups (Tx vs placebo)
  
  • randomization
  • blinding
• F/u for relevant period
• study groups monitored for outcome
  
  • compare rates of outcome in different groups

Question 53

RCT Step 2: Allocate Tx or placebo by randomization. What are the benefits? Overall Goal?

Answer 53

• Benefits:
  
  • unbiased assignment
  • known and unknown confounders are balance
  • leads to comparability
  • minimizes selection bias and confounding
• Goal:
  
  • Groups are identical-all determinants except tx
    
    • any difference due to tx

Question 54

RCT: What groups are subjects randomized into?

Answer 54

• Tx Group
  
  • New tx
  • other doses of same tx
  • Other: Combo therapy
• Comparison group
  
  • Placebo
  • Other: usual care (current tx in use)

Question 55

What is the primary objective for using a placebo?

Answer 55

• minimize bias

Question 56

Uses of placebo?

Answer 56

• makes group as comparable as possible
• depends on subjectivity of outcome
• cannot be done in some situations
  
  • pills vs surgery
• Allows study to be blinded

Question 57

What is the primary objective of blinding in RCT?

Answer 57

• Prevent bias from affecting results

Question 58

What are the different types of blinding?

Answer 58

• Single-Blind
  
  • subjects unaware of treatment group
• Double-Blind
  
  • Both subjects & investigators unaware of tx groups
    
    • cannot be done in some situations (pills vs surgery)
• Triple Blind:
  
  • Subjects, investigators admin tx, investigators eval outcomes all unaware

Question 59

How to establish cause

Answer 59

• Valid Association
  
  • even if valid, not all associations are causal
• eliminated alternative explanations

Question 60

Hill’s Criteria

Answer 60

• Causality is strengthened by:
  
  • temporal sequence
    
    • risk factor first
  • strong association
  • dose-response relationship
  • consistent findings
  • biologic credibility
  • results of experiment

Question 61

Temporal sequence

Answer 61

• a factor must come before outcome to cause it

Question 62

What types of studies provide the best evidence that causes precedes the effect?

Answer 62

Prospective Cohort Studies

Randomized Clinical trials

Question 63

Strength of Association

Answer 63

• Large RR supports cause relationship
  
  • by itself, can’t conclude cause
    
    • bias or confounding
• Small RR also possible

Question 64

Presence of Dose-Response relationship

Answer 64

more exposure means greater risk