Epidemiological Spatial Analysis of Animal Health Problems Dirk Pfeiffer Professor of Veterinary...
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![Page 1: Epidemiological Spatial Analysis of Animal Health Problems Dirk Pfeiffer Professor of Veterinary Epidemiology Royal Veterinary College University of London.](https://reader035.fdocuments.in/reader035/viewer/2022062320/56649d785503460f94a5aea2/html5/thumbnails/1.jpg)
Epidemiological Spatial Analysis of Animal Health
Problems
Dirk PfeifferProfessor of Veterinary Epidemiology
Royal Veterinary CollegeUniversity of London
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Objectives of Presentation
provide overview of spatial analysis in context of epidemiological investigations from basics to advanced methods
describe structured approach towards spatial data analysis
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Epidemiology and Space
epidemiological investigation person/animal time and space
spatial epidemiological analysis visualisation -> no problem -> fun (?) exploration, modelling -> more difficult,
data dependence problems
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Framework for Spatial Data Analysis
Visualization
Exploration
Modelling
Attribute data
Feature data
Databases
Maps
Describe patterns
Test hypothese
s
GISDBMS
StatisticalSoftware
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GIS Data
GeographicInformation
System
land use
real world
topography
land parcels
road network
disease outbreaks
vect
orra
ster
geographic layers
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Framework for Spatial Data Analysis
Attribute data
Feature data
Databases
VisualizationMapsGIS
DBMS
ExplorationDescribe patterns
StatisticalSoftware
ModellingTest
hypotheses
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Visualization
show actual values 2D, 3D, more dimensional
points / areascoloured points / areas (choropleth)map series (adds time) -> animate (movie)
generate continuous representations of point data interpolation smoothing
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The Possum and TB
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Spatio-temporal Distribution of REA Types in Possum TB Study
REAType 4
REAType 4b
REAType 4a
REAType 10
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Maps of Point Locations
Locations of all cattle herds tested in 1999
Locations of test-positive cattle
herds tested in 1999
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Kernel Smoothing
generate continuous surface from point data showing density of cases
method symmetric surface placed over each point
choice of kernel functions (normal, triangular, quartic) -> does not make much difference as long as symmetrical
sum distributions at any location -> density distribution
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Kernel Density Maps (30km bandwidth, 10km grid)
Herd density0 - 0.0970.097 - 0.1940.194 - 0.2920.292 - 0.3890.389 - 0.4860.486 - 0.5830.583 - 0.6810.681 - 0.7780.778 - 0.875No Data
TB herd density0 - 0.0110.011 - 0.0210.021 - 0.0320.032 - 0.0430.043 - 0.0530.053 - 0.0640.064 - 0.0750.075 - 0.0850.085 - 0.096No Data
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Kernel Density Ratio Map(30 km bandwidth, 10 km grid)
TB risk00 - 0.050.05 - 0.080.08 - 0.110.11 - 0.130.13 - 0.160.16 - 0.190.19 - 0.210.21 - 0.24No Data
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Times Series of Maps- Herd Level TB Infection Risk in G. Britain
Herddensity
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Mapping Area Data- Counts and Proportions
crude risks / ratesstandardised mortality ratioempirical Bayes’ estimation
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Standardised Mortality Ratio
crude measure of relative riskmethod
estimate expected counts for each polygon by multiplying population at risk with risk for whole region
divide observed count by expected for each polygon
generate mapdisadvantage
small counts may result in extreme values for SMR small counts -> large standard errors
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Example – TB Frequency Estimates
Legend00 - 0.040.04 - 0.080.08 - 0.10.1 - 0.15
TB Prevalence
Legend00 - 0.040.04 - 11 - 22 - 4
TB SMR
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Empirical Bayes’ Estimation
adjusted risks, rates or ratiosuse knowledge about overall pattern
of risk to smooth local risk assessment
incorporate confidence in estimate into calculation
prior derived from whole area or neighbourhood
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Example – Bayes’ Estimates of TB Risk
Legend00 - 0.040.04 - 0.080.08 - 0.10.1 - 0.15
Crude TB Prevalence Empirical Bayes’ TB Prevalence
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Framework for Spatial Data Analysis
Exploration
Modelling
Describe patterns
Test hypothese
s
StatisticalSoftware
Attribute data
Feature data
Databases
VisualizationMapsGIS
DBMS
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Exploration
describe and quantify spatial structure some hypothesis testing
cluster detection (cluster alarms)spatial dependence
methods point / aggregate data global / local statistics