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Title: Herd health investigation 2


1
Herd health investigation 2
  • Mark Stevenson
  • EpiCentre, IVABS, Massey University, Palmerston
    North
  • M.Stevenson_at_massey.ac.nz

2
Herd health
  • What this series of lectures will cover
  • Lecture 1
  • multifactorial nature of disease
  • investigating problems and implementing
    interventions
  • Lectures 2 and 3
  • causation
  • measures of health
  • Lecure 4
  • case studies
  • tools for herd health investigations

3
The multifactorial nature of disease
Host
Agent
Environment
4
Investigating problems
  • What is the problem?
  • Is there a true excess of disease?
  • Establish a case definition
  • Enhance surveillance
  • Describe problem in terms of animal, place and
    time
  • Generate and test hypotheses
  • Implement interventions

5
Roadmap
  • Causation
  • Measures of health

6
Causation
  • Cause
  • something that brings about a result especially a
    person or thing that is the agent of bringing
    something about (Merriam-Webster Dictionary)
  • an event, condition, or characteristic without
    which the disease would not have occurred
    (Rothman)

7
Causation
  • Cause
  • Must precede the effect
  • Can be either host, agent or environmental
    factors (e.g. characteristics, conditions,
    actions of individuals, events, natural, social
    or economic phenomena)
  • Can be either positive (presence of a causative
    exposure) or negative (lack of a preventive
    exposure)

8
Causation
  • Cause
  • the component-cause model is based on the
    concepts of two types of cause necessary and
    sufficient

9
Causation
  • Necessary cause
  • the factor must be present for disease to occur
  • for example, foodborne disease after eating
    chicken salad has been shown to be due to
    Salmonella spp.
  • Salmonella spp. is a necessary cause of diarrhoea

10
Causation
  • Sufficient causes
  • not usually a single factor, often several
  • a set of causes without any one of which the
    disease would not have occurred (the whole pie)
  • a set of sufficient causes must include a
    necessary cause

11
Causation
This illustration shows a disease that has 3 sets
of sufficient causes. A is a necessary cause
since it appears as a member of each sufficient
cause. B, C, and F are not necessary causes
since they fail to appear in all 3 sets of
sufficient causes.
12
Causation
  • Sufficient cause(s) the whole pie
  • Necessary cause the most important piece of the
    pie

13
Causation
  • Causes operate in different ways
  • predispose age, sex, previous illness
  • enable low income, poor nutrition, bad housing,
    inadequate medical care getting to the edge
  • precipitate exposure to a specific disease agent
    tipping you over
  • reinforce repeated exposure (e.g. repeated hard
    work) may aggrevate an established disease or
    state
  • interact the effect of two or more causes acting
    together is often greater than would be expected
    on the basis of summing the individual effects
    (e.g. smoking and exposure to asbestos)

14
Causation
  • Causal inference is the term used for the process
    of working out whether observed associations are
    likely to be causal

15
Age adjusted mortality rates (deaths per 100,000)
as a function of particulate air matter
concentration for 100 capital cities throughout
the world.
16
Causation
  • Does air pollution cause high rates of mortality?
  • maybe
  • more likely that air pollution is a marker for
    other variables that are more closely associated
    with mortality (e.g. poor health care
    infrastructure)
  • would be more correct to say that air pollution
    is associated with high rates of mortality

17
Causation
  • A systematic process required to work out causal
    mechanisms behind observed associations
  • US Surgeon General (1964) used this approach to
    establish that cigarette smoking caused lung
    cancer
  • This approach further elaborated by Bradford Hill
    (1965) in a set of guidelines for causation

18
Causation
  • Hills criteria for causation
  • Strength of association
  • Consistency
  • Specificity
  • Temporality
  • Dose-response relationship
  • Plausibility and coherence
  • Experimental evidence
  • Analogy

19
Hills criteria (1)
  • Strength of association
  • strong associations are more likely to be causal
  • indicated by risk ratio or rate ratio of greater
    than 2.0
  • relative risk of lung cancer in smokers vs
    non-smokers 9
  • relative risk of CHD in smokers vs non-smokers
    2
  • cannot infer that weak association is not causal

20
Hills criteria (2)
  • Consistency
  • has the cause and effect relationship been
    identified by a number of different researchers?
  • smoking has been associated with lung cancer in
    at least 29 retrospective and 7 prospective
    studies
  • sometimes there are good reasons why study
    results differ, for example, one study may have
    looked at low level exposures while another
    looked at high level exposures

21
Relative risks (and their 95 confidence
interval) from six trials comparing the effect of
CIDR treatment with untreated controls on
submission rate.
Meta-analysis
22
Relative risks (and their 95 confidence
interval) from 12 trials comparing the effect of
post insemination CIDR treatment with untreated
controls on conception rate.
23
Hills criteria (3)
  • Specificity
  • a single exposure should cause a single disease
  • this is a hold-over from the concepts of
    causation that were developed for infectious
    diseases
  • many exceptions
  • smoking is associated with lung cancer as well as
    many other diseases
  • when present, specificity does provide evidence
    of causality, but its absence does not preclude
    causation

24
Hills criteria (4)
  • Temporality
  • cause must precede effect
  • if B comes after C, then B did not cause C
  • can be difficult to establish
  • long induction periods
  • long latent (sub-clinical) phase

25
Frequency of seat belt use and injury occurrence
in the United Kingdom 1982 1983.
26
Hills criteria (5)
  • Dose-response relationship
  • as the level of exposure is increased, the rate
    of disease also increases
  • be aware that there may be also non-linear effects

27
Age adjusted death rates for lung cancer as a
function of approximate number of cigarettes
smoked per day.
28
Annual mortality (per 1000 men) from ischaemic
heart disease.
29
Hills criteria (6)
  • Plausibility and coherence
  • does a causal interpretation fit with known facts
    of natural history and biology of disease,
    including distribution in time and space and
    laboratory experiments?
  • that is, does the association make biological
    sense?
  • more willing to accept the case for a
    relationship that is consistent with current
    knowledge/belief
  • not objective
  • readier to accept arguments similar to others
    that we accept

30
John Snow (1813 - 1858)
  • Anaesthetist
  • developed the first vapouriser
  • Epidemiologist
  • believed that drinking water was responsible for
    the spread cholera this theory was at odds with
    conventional wisdom about the disease
  • convincing evidence for waterborne spread
    provided by mapping cholera cases in Golden
    Square in the 1850s
  • Identified high numbers of cholera cases around a
    communal water pump (supplied by one particular
    water company)

31
John Snow (1813 - 1858)
32
John Snow (1813 - 1858)
  • What does an epidemiologist do when visiting
    London?

33
Hills criteria (7)
  • Experimental evidence
  • investigator-initiated interventions that modify
    exposure through prevention, treatment, or
    removal should result in less disease
  • study designs, in order of usefulness
  • randomised, controlled trials
  • cohort studies some opportunity to minimise
    bias
  • case-control studies subject to bias
  • cross sectional studies not useful because they
    provide no direct evidence of the time sequence
    of events

34
Hills criteria (8)
  • Analogy
  • has a similar relationship been observed with
    another exposure and/ or disease?
  • BSE and scrapie/TME

35
Hills criteria
  • Judging the evidence
  • none of my viewpoints can bring indisputable
    evidence for or against the cause and effect
    hypothesis and none can be regarded as sine qua
    non (Hill 1965)
  • causal inference less certain than logical
    deductions
  • no set of criteria replaces judgement in causal
    inference
  • sine qua non an essential condition or element

36
Causation
  • Scientific knowledge
  • always incomplete, whether it is observational or
    experimental
  • liable to be upset or modified by advancing
    knowledge
  • Dont sit around and wait for complete scientific
    knowledge before making (what might be very
    important) decisions!
  • e.g. John Wilesmith, epidemiologist for the UK
    state veterinary service in January 1988

37
Roadmap
  • Causation
  • Measures of health

38
Measures of health
  • One of the fundamental tasks in epidemiological
    research is to quantify the occurrence of disease
  • Why?
  • compare level of disease with other populations
  • assess the need for interventions
  • monitor responses to control efforts

39
Indonesian feedlot.
40
Measures of health
  • Cumulative incidence of deaths and salvages at
    XYZ feedlot, 10 November 2002 to 6 April 2003.

41
Measures of health
  • To compare levels of disease among groups of
    individuals, time frames or locations we need to
    consider counts of cases in context of the size
    of the population from which those cases arose
  • I had 10 calves die of respiratory disease last
    week
  • If there are 20 calves in the group Thats
    terrible!
  • If there are 40,000 calves in the group
    Congratulations!

42
Measures of health
  • The term morbidity is used to refer to the extent
    of disease or disease frequency within a
    population
  • Two measures of morbidity are
  • prevalence
  • incidence
  • Need to use these terms correctly!

43
Measures of health
  • Prevalence
  • the number of individuals in a population who are
    in the diseased state at a specified period of
    time
  • prevalence is a proportion obtained by dividing
    the count of existing (prevalent) cases by the
    population size
  • can be interpreted as the probability of an
    individual from a population having a disease at
    a given point in time

44
Measures of health
  • Incidence
  • measures how frequently susceptible individuals
    become disease cases as they are observed over
    time
  • an incident case occurs when an individual
    changes from being susceptible to being diseased
  • the count of incident cases is the number of such
    events that occur in a defined population during
    a specified time period

45
Measures of health
  • There are two ways to express incidence
  • incidence risk (? cumulative incidence)
  • incidence rate (? incidence density)

46
Measures of health
  • Incidence risk
  • the proportion of initially susceptible
    individuals in a population who become cases
    during a defined time period
  • also sometimes called cumulative incidence
  • example for the period 1986 - 1997, the
    incidence risk of BSE in Great Britain was 1.10
    cases per 100 cattle

47
Measures of health
  • Incidence rate
  • the number of new cases of disease that occur per
    unit of individual time at risk, over a defined
    period
  • also called incidence density
  • example for the 2002 milking season the
    incidence risk of udder disorders was was 17
    cases per 100 cow-years at risk

48
Measures of health
  • Incidence rate
  • accounts for individuals that enter and leave the
    population throughout the period of study ('open'
    populations)
  • also accounts for multiple disease events in the
    same individual
  • lameness
  • mastitis
  • what is the incidence rate of boredom in
    epidemiology lectures?

49
Measures of health
left
bored
bored
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Individuals
bored
left
bored
bored
bored
5
10
15
20
25
30
35
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55
Minutes at risk
50
Measures of health
  • Incidence rate of boredom in epidemiology
    lectures
  • numerator 7 cases
  • denominator (25 40 30 20 35 40 30
    55 20) 295 minutes
  • time period todays lecture
  • the incidence rate of boredom for todays
    lecture 7 cases per 295 minutes at risk (1.30
    cases per 55 lecture-minutes at risk)
  • how does this compare to surgery lectures?

51
Other measures of health
  • Secondary attack rates
  • used to describe infectiousness
  • the number of cases at the end of the study
    period less the number of initial (primary) cases
    divided by the size of the population that were
    initially at risk
  • the assumption is that there is spread of an
    agent within an aggregation of individuals (e.g.
    a herd or a family) and that not all cases are a
    result of a common-source exposure

52
Other measures of health
  • Mortality rate
  • the incidence of fatal cases of a disease in the
    population at risk of death from the disease
  • the denominator includes both prevalent cases of
    the disease (that is, the individuals that
    haven't died yet) as well as individuals who are
    at risk of developing the disease
  • Fatality rate
  • incidence of death among individuals who develop
    the disease

53
Other measures of health
  • Proportional mortality
  • the proportion of all deaths that are due to a
    particular cause for a specified population and
    time period

54
Proportional removal rates retrospective
culling study in four University-owned dairy
herds 1986 1992.
55
Summary
  • Causation
  • Measures of health
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