Epidemiology

Question 1

What makes global mental health multidisciplinary?

Answer 1

It draws upon

• social sciences
• clinical disciplines

Question 2

What are the 3 roles of epidemiological methods?

Answer 2

1. Quantify burden of disease
2. Examine determinants of disease
3. Evaluate interventions designed to prevent disease

Question 3

Who was John Snow?

Answer 3

• Medical doctor

- ‘father of epidemiology’

Question 4

What did John Snow suggest was the cause of the common cholera outbreaks (1849)?

Answer 4

‘It’s a water-borne disease’

Question 5

What did John Snow do during the 1854 cholera outbreak?

Answer 5

> By talking to local residents, he identified the Broad Street pump in Soho as the most likely source of the disease

> He persuaded the council to disable the pump

-> the epidemic came to an end

> He demonstrated a link between the quality of the water source and cholera cases using statistics

Question 6

What are the two key approaches to ascertain cause and effect?

Answer 6

1. Inductivism

2. Refutionism

Question 7

What does the inductivist approach consist of?

Answer 7

Bacon (17th century):
- observation leads to development of theory of the observed patterns

• Iterative: further observation leads to the development of more advanced theories
• number of times a pattern is replicated does not prove causality
• causality can not be directly observed
• > spurious notions of cause and effect

Question 8

What does the refutionism approach consist of?

Answer 8

> Hume (18th century):
- uncertainty between cause and effect relationship was impossible to eliminate

> Popper (20th century):

• scientific knowledge is generated as a result of this uncertainty
• role of observation is to attempt to criticise and refute existing theories
• > building scientific knowledge

Question 9

Which approaches does modern science use to determinate cause and effect?

Answer 9

• Inductive (hypothesis generation)
• Deductive (hypothesis testing)

-> inductivist and refutionist approaches

Question 10

How are the inductive and deductive processes of modern science used in epidemiology?

Answer 10

• Ideas for exploratory research often emerge from clinical observations
• Results from studies lead to generate of hypothesis that might be tested in later research

Question 11

What characterises a hypothesis?

Answer 11

• Iteratively builds corroboration for theories by seeking evidence to refute them
• Central to all scientific practice (including epidemiology)
• It is a statement predicting an outcome
• Commonly emerges from inductive research

Question 12

What are the three criteria that make a hypothesis?

Answer 12

1. Clearly stated
2. Testable and refutable
3. Statement, not a question or objective

Question 13

What are the advantages procured by hypotheses?

Answer 13

• Support validity of findings
• Less risk of type 1 error (false positive)
• Ease of replication of findings by others
• Ensures research is driven by theory and observation
• Ensures research is a scientific process (rather than ad-hoc or data-driven)

Question 14

What are the three types of epidemiological studies?

Answer 14

1. Descriptive epidemiology
   - quantify the burden of disease
   (e. g. cross-sectional studies)
2. Analytical epidemiology
   - examine determinants of disease, course and outcome
   (e. g. cohort studies)
3. Evaluative epidemiology
   - evaluate efficacy and effectiveness of interventions
   (e. g. RCTs)

Question 15

How do hypotheses help us structure our research practice?

Answer 15

Hypotheses shape methodology

• design and outcome measures
• statistical analysis plan

Question 16

What are the three key observational study designs used in global mental health research?

Answer 16

1. Cross-sectional
2. Longitudinal (cohort)
3. Quasi-experimental

Question 17

What does the 10/66 dementia research group study consist of?

Answer 17

Dominican Republic
- series of cross-sectional surveys examining the health of older people

Research questions:

• how does this vary across time?
• how does this vary between regions?

Question 18

How is the analysis conducted in cross-sectional studies?

Answer 18

> Participants recruited at one particular point in time

> Data collected at single timepoint
- face-to-face, clinical, census records

Question 19

Why are we provided with a ‘snapshot’ of the data in cross-sectional studies?

Answer 19

Data for baseline characteristics and outcomes are ascertained at the same time
-> ‘snapshot’

Question 20

What type of data is collected in cross-sectional studies?

Answer 20

• Frequency
• Characteristics
• Distribution of outcomes

Question 21

What are cross-sectional studies useful for?

Answer 21

• Planning services
• Raising awareness
• Comparing regions/time
• Identify association with risk factors
  (e. g. weight loss and dementia)
• gather evidence to support generation of hypotheses for future investigation using different study design

Question 22

What is the limit of cross-sectional studies?

Answer 22

We cannot be sure of the direction of cause and effect

Question 23

What does the ‘snapshot’ of current disease cases represent in cross-sectional studies?

Answer 23

A reflection of survival and aetiology of disease

Question 24

How is the prevalence calculated?

Answer 24

Rate of new cases (incidence)

+ rate of cases disappearing (recovery, death, new diagnosis)

Question 25

What is the incidence?

Answer 25

Rate of new cases

Question 26

What happens to the prevalence of a disease in the case of greatly improved effectiveness in treatment?

Answer 26

Reduced number of incidence (new cases)
+ Reduced number of cases disappearing (reduced mortality, improved life expectancy with the disease)
= Increased prevalence (current cases)

-> less new cases, but more people living with the disease

Question 27

What is needed to ensure results are generalisable and representative of the base population in cross-sectional studies?

Answer 27

1. Define base population
   - person (age, gender)
   - place
   - time
2. Define and enumerate the sampling frame
   - is the aim to cove the Toal base population or part of it?
   - routine date (e.g. census, clinic lists) or your own sampling frame (e.g. going door to door)?

Question 28

Which bias needs to be avoided in cross-sectional studies?

Answer 28

Selection bias:

- sample differs from base population

Question 29

What were key features of the 10/66 dementia research group study?

Answer 29

• Careful consideration of ethics
• Communication with potential participants
• To reduce the burden to participants to maximise inclusion

Question 30

What is the key aim of cross-sectional studies?

Answer 30

Accurately calculate burden or prevalence of a particular outcome

Question 31

How do you achieve an accurate burden or prevalence number of a particular outcome in a cross-sectional study?

Answer 31

• Accurately determine X: number of people with particular outcome at particular time
• Accurately determine Y: number of people in base population at particular time

Question 32

How is the analysis conducted in longitudinal studies?

Answer 32

• Recruitment (exposure status determined)

- Data collected at several points (follow-up)

Question 33

What is a key element of data collection in longitudinal studies?

Answer 33

The outcome cannot have occurred at the time of baseline data collection

e. g. UMEED cohort study:
- people who had accessed HIV services were ineligible since the study examined the association between depression status and use of HIV services

Question 34

What are the aims of longitudinal studies?

Answer 34

• Compare outcomes

- Determine the number of new occurrences of the outcome

Question 35

What are the six steps to carry out a longitudinal cohort study?

Answer 35

1. Hypothesis
2. Identify base population
3. Define and measure exposure
4. Define and measure confounders
5. Define outcomes
6. Follow-up, analysis, interpretation

Question 36

What are confounders?

Answer 36

Factors which we think might influence results

• providing we measure confounding factors, we can adjust for their effects in our analysis

Question 37

Which elements should be controlled when collecting data in longitudinal cohort studies?

Answer 37

> Avoid selection bias

> Reduce potential for bias

> Avoid systematic errors in the classification of outcome status
- so exposure is not associated to misclassification

> Minimise observer bias: blinding
- researchers should have no knowledge of exposure status

> Collect comprehensive info on potential confounders
-> adjust for their effects in analysis

Question 38

What are the methods used to collect exposure data?

Answer 38

• Routine records
• Interviews
• Clinical exam
• > depends on the nature of exposure and available resources

Question 39

What happens when the misclassification of exposure status is non-random?

Answer 39

Outcome is linked to errors in the determination of your exposure status

Question 40

What happens when the misclassification of exposure status is random?

Answer 40

Errors in determining exposure occur randomly with no link to outcome status

Question 41

Why should the quality of data collected from the exposed and unexposed be the same?

Answer 41

Helps us quantify its effect on our results

Question 42

What are the methods used to collect outcome data?

Answer 42

• Routine data
• Self report
• Standardised assessment

Question 43

How do you reduce potential for bias?

Answer 43

Researcher collecting outcome data should be blind to the exposure status
- e.g. use different researchers to collect exposure and outcome data

Question 44

What is a loss to follow up?

Answer 44

Bias that can occur due to flagging (people losing interest)

• common when there are multiple waves of data collection
• participants also lost due to migration, death, being uncontactable

Question 45

How does the loss to follow up influence results?

Answer 45

1. Attrition (loss to follow up) varies between exposed and unexposed
2. Random or differential attrition influences sample sizes
   - > reducing statistical power

Question 46

How can you reduce loss to follow up?

Answer 46

• Maintain contact with participants
• Make multiple attempts to contact those who are lost
• Effects of loss to follow-up can be adjusted for in analyses (input missing data, sensitivity analysis)

Question 47

What are the three types of quasi-experimental designs?

Answer 47

> Non-randomised controlled trials

> Uncontrolled before and after studies

> Time series

Question 48

What do quasi-experimental designs consist of?

Answer 48

The observation of what happens to participants after the introduction of an intervention

Question 49

What do observational study designs consist of?

Answer 49

The observation of what happens to participants in a naturalistic manner

Question 50

What are the three types of observational study designs?

Answer 50

> Cross-sectional

> Longitudinal cohort studies

> Case-control studies

Question 51

What are the two types of experimental study designs?

Answer 51

> Pragmatic RCTs

> Scientific RCTs

Question 52

What do experimental study designs consist of?

Answer 52

> Study carried out under tightly controlled conditions in order to minimise bias

> We can isolate the effects of an intervention upon outcomes

-> Gold standard study designs

Question 53

How is the analysis conducted in quasi-experimental studies?

Answer 53

1. Recruitment
2. Baseline measures
3. Introduction of the intervention
4. Outcome measures collected

Question 54

What is the assumed origin of observed differences in quasi-experimental studies?

Answer 54

Assumed to be due to the intervention

Question 55

How are non-randomised controlled trials conducted?

Answer 55

> 2 groups (intervention, control)

> Outcomes compared between the 2 groups

> Ensure groups are as similar as possible

• population
• measurement
• data collection

> Data collected before and after intervention introduced in treatment group

Question 56

How are uncontrolled before and after studies conducted?

Answer 56

> One group

> Measures are compared before and after the intervention

Question 57

What is the limit of quasi-experimental studies?

Answer 57

It is often difficult to determine that observed differences are as a result of the intervention (cause and effect)

Question 58

How can a relationship be assumed to be truly causal?

Answer 58

Meet the Bradford Hill’s criteria of cause and effect

Question 59

What are the Bardford Hill’s criteria of cause and effect?

Answer 59

1. Strength (appropriate tests)
2. Consistency (of results with different studies)
3. Specificity
4. Temporal sequence (exposure before outcome)
5. Dose response (increased exposure -> increased risk)
6. Experimental evidence (condition can be altered by appropriate experimental design)
7. Biologic plausibility (association agrees with currently accepted understanding of pathobiological processes)
8. Coherence (association compatible with existing theory and knowledge)
9. Analogy (analogous associations between similar factors and similar diseases)

Question 60

When are quasi-experimental studies useful?

Answer 60

• When randomisation is not possible (e.g. roll-out of intervention is outside researcher’s control)
• Useful as proof of concept studies

e. g. Is the change only due to the intervention
- confounders, natural remission, service setting changes

Question 61

What are the limits of quasi-experimental studies?

Answer 61

• It is difficult to identify a sufficiently similar control group to eliminate confounder’s influence on results
• It is difficult to attribute cause and effect
• > Researchers must protect against external changes
• > Caution when interpreting results

Question 62

How are randomised controlled trials (RCTs) conducted?

Answer 62

> Participants are randomly allocated to receive either the intervention or the control

> Follow-up

> Compare outcomes

Question 63

What is the power of randomisation found in randomised controlled trials (RCTs)?

Answer 63

It’s possible to say that observed differences in outcomes are the result of the intervention with a greater degree of certainty

Question 64

What is the simplicity in a randomised controlled trial (RCT)?

Answer 64

The allocation of participants to intervention or control can be done by tossing a coin

Question 65

What happens to the factors that may influence outcomes in a randomised controlled trial (RCT)?

Answer 65

They are randomly distributed between groups apart from the allocated interventions

• > ‘perfect’ control for confounding
• > Outcome should be attributable to the intervention alone

Question 66

How can biases still be introduced in a randomised controlled trial (RCT)?

Answer 66

• Randomisation is not properly implemented
• > non-random allocation
• Randomisation is properly implemented BUT group difference may still occur

Question 67

How can we avoid potential biases in randomised controlled trials (RCTs)?

Answer 67

• Allocation is random and concealed (e.g. opaque envelopes)
• Carry out randomisation independently of the research team (e.g. outsource to clinical trials unit)
• Consider and measure a priori confounders and their distribution between groups
• Use different techniques to ensure balance between groups
  (e. g. block randomisation or stratification)

Question 68

What is the role of chance in randomised controlled trials (RCTs)?

Answer 68

We cannot eliminate this possibility and the consequent differences in outcomes

e.g. Random sampling error
- difference is not represented in the population that the sample is supposed to represent
(difference in sample, not in base population)

Question 69

How can we reduce a sampling error?

Answer 69

By increasing the sample size

Question 70

Why is it better to have a large sample size?

Answer 70

Larger trials increase precision and power to detect a treatment effect of given size

• reduced range of confidence intervals
• reduced chance of type I error

Question 71

How do we quantify the level of uncertainty associated with the role of chance in determining results?

Answer 71

Using statistics: 95% confidence intervals

-> range of possible true effects sizes

Question 72

What is a type I error?

Answer 72

False positive

Question 73

How can we minimise the information bias?

Answer 73

Blinding

Question 74

What it the limitation of blinding?

Answer 74

With mental health interventions it is often difficult

• e.g. intervention is talking therapy, control is an info. leaflet -> difficult to conceal
  (compared to placebo controlled trials)