Environment, Society, Climate and Health:Analysis, Understanding and Prediction

Mark L. WilsonDepartment of Epidemiology

andGlobal Health ProgramSchool of Public Health

The University of Michigan

Colloquium on Climate and HealthNCAR

Boulder, Colorado23 July, 2004

Outline

1. Introduction: Infectious Disease Epidemiology

2. Patterns of Environmental Influences

3. Climate as an Environmental Driver

4. Examples from our research

5. Discussion of examples from your research/interests

Climate Variability vs. Climate Change

• Climate Change: - persistent change or trend in mean atmospheric

conditions

- current changes unprecedented in human history

• Climate Variability:- day-to-day (weather) or relatively short term (seasonal)

changes in atmospheric conditions

- effects on disease patterns most easily analyzed, and used in forecasts

Agent

Host

Environment

Classical Epidemiological Triad

Agent(diverse exposures,

including non-contagious )

Host(animal, plant,

ultimately human)

Environment*(biophysical, psycho-social, etc.)

*CLIMATE is an Environmental Influence

Environment

Agent

Host

Environment

host distribution, abundance, infection

longevity & infectivityoutside host

e.g. cholera hantaviral disease

hookwormschistosomiasis

Agent

nutrition

treatment

e.g. TB, HIV/AIDS,diarrheal diseases,acute respiratory

infections

housing

hygiene

Host

tissue tropisms,pathogenicity, immune response,host specificity

e.g. rabies, Lyme disease,

malaria, cryptosporidiosi.

Examples Involving Infectious Diseases

Agent

Host

Environment

Altered hygiene

Redesigned housing

Better nutrition

Improved irrigation

But for ALL diseases, complex interactions occur...

Agent

Host

Environment

Agent transport to new areas

New antibiotics, pesticides

Labor actions affecting toxin exposure

Agent

Host

Environment

Exposure probability, host immunity,support networks, availability of supportive care

Examples of Environmental and Epidemiological Data

• Climate patterns – variability… perhaps change… • Land Use / Land Cover patterns• Human case data (specific or syndromic)• Vector abundance and pathogen infection• Reservoir abundance / infection prevalence• Environmental use and exposures• Economic development, human demography,

migration … more

Each of these is historically changing in time and space

Social and Economic Policies

Physical Enviro

nment

Institutions (including medical care)

Living Conditions

Social Relationships

Individual Risk Factors

Genetic/ConstitutionalFactors

Pathophysiologicpathways

Individual/PopulationHealth

Environmental Determinants of Human Disease

Modified from Kaplan, 2002

Social and Economic Policies

Climate?

Institutions (including medical care)

Living Conditions

Social Relationships

Individual Risk Factors

Genetic/ConstitutionalFactors

Pathophysiologicpathways

Individual/PopulationHealth

Research Challenge – Analyze and understand interactions!

What is climate change? Climate variability?

Time

En

viro

nm

enta

l Var

iab

le

Low

High

Average Trend(solid line)

Actual Measure(dashed line)

Unchanging Average, Unchanging Extremes

Time

En

viro

nm

enta

l Var

iab

le

Low

High

Average Trend(solid line)

Actual Measure(dashed line)

Unchanging Average, Increasing Extremes

Time

En

viro

nm

enta

l Var

iab

le

Low

High

Average Trend(solid line)

Actual Measure(dashed line)

Increasing Average, Unchanging Extremes

Time

En

viro

nm

enta

l Var

iab

le

Low

High

Average Trend(solid line)

Actual Measure(dashed line)

Different Rates of Increasing Averages

Time

En

viro

nm

enta

l Var

iab

le

Low

High

Average Trend(solid line)

Actual Measure(dashed line)

Increasing Average, Greater Extremes

Time

En

viro

nm

enta

l Var

iab

le

Low

High

Average Trend(solid line)

Actual Measure(dashed line)

Increasing Rate of Increasing Average, Unchanging Extremes

Time

En

viro

nm

enta

l Var

iab

le

Low

High

Average Trend(solid line)

Actual Measure(dashed line)

Increasing Rate of Increasing Average, Greater Extremes

Each of these climate change patterns may have different impacts on particular disease risks.

Effects will depend on the ecology of transmission and the etiology and expression of disease.

Each exposure type should be considered in context of: PERSON (age, behavior, gender, SES, etc.)

TIME (year, season, adjacent periods, etc.)

PLACE (geographic location, habitat, proximity, etc.)

Most Epidemiological studies only superficially consider this for environmental (climatic) exposures:

+ PERSON most often involves standard descriptors that do not include "social" characteristics or other environmental exposures (e.g. climatic).

TIME is rarely dynamic, considers only recent past, and climate pattern over long periods not always available.

PLACE often ignored or not carefully evaluated (e.g. spatial autocorrelation, climate patterns in regions may be important ).

Anthroponotic Infections

Zoonotic Infections

Direct Exposure Indirect ExposureEnvironmental Exposures

Vehicle

Humans

Source

Stream pollutantsAir ParticulatesLegionella

Humans

Humans STDsMeaslesHepatitis B

Vehicle

Humans

Humans

Vehicle

MalariaDengueRoundworm

Vehicle Vehicle

Animals

AnimalsHumans Lyme Disease

Hantaviral DiseaseMost arboviral diseases

Animals

Animals

HumansAnthraxEbola (?)CJD

Environment and Exposure

Source

Humans Solar UVEM RadiationTetanus

Direct Exposure Indirect Exposure

Environmental Exposures

Source

Humans Solar UVEM RadiationTetanus

Vehicle

Humans

Source

Stream pollutantsAir ParticulatesLegionella

Environment and ExposureWhere might Climate Impact?

Anthroponotic Infections

Direct Exposure Indirect Exposure

Humans

Humans STDsMeaslesHepatitis B

Vehicle

Humans

Humans

Vehicle

MalariaDengueRoundworm

Environment and ExposureWhere might Climate Impact?

Zoonotic Infections

Direct Exposure Indirect Exposure

Vehicle Vehicle

Animals

AnimalsHumans Lyme Disease

Hantaviral DiseaseMost arboviral diseases

Animals

Animals

HumansAnthraxEbola (?)CJD

Environment and ExposureWhere might Climate Impact?

Elements of Climate and Health

Maximum Temperature

Minimum Temperature

Mean Temperature

Rainfall Amount

Rainfall Frequency

Rainfall Rate

Heat-related mortality

Extreme Events

Air Pollution

Vector-borne Diseases

Water-borne Diseases

Agricultural Production

What diseases are climate sensitive?

• More sensitive– Which are more

sensitive????High

Moderate

Sen

siti

vity

• Less sensitive– What about less

sensitive???Low

Lowest

Sen

siti

vity

What diseases are climate sensitive?

• More sensitive– heat stress

– effects of storms

– air pollution effects

– asthma

– vector-borne diseases

– water-borne diseases

– food-borne diseases

High

Moderate

Sen

siti

vity

• Less sensitive– sexually transmitted

diseases

– violence

– most cancers

– atherosclerosis

– tuberculosis

– myocardial infarction

Low

Lowest

Sen

siti

vity

More Climate Sensitive

Heat stress

Asthma

Vector-borne Disease

Water-borne disease

Myocardial Infarction

Cancer (not skin)

Sexually transmittedDisease

Atherosclerosis

Violence

Effects of Storms

Food-borne disease

Discussion…

From YOUR EXPERIENCES or INTERESTS:

• What diseases might have a climate link and what climate variables might impact on which diseases?

• WHY? What are the biological or social pathways?

• How would these be investigated/researched?

• What additional information would you seek?

• How would you integrate this into OTHER determinants of risk?

• Could you forecast risk based on these analyses alone?

• What other factors should be considered and why?

Importance of temporally and spatially extensive data in analyzing and interpreting role of climate:

• Climate change occurring over long time period

• Climate variability change not easy to recognize without long-term observations

• Time-space changes in disease patterns require accurate and consistent surveillance (often non-existent, especially in developing countries)

• Inference of climate-disease links limited without carefully considering time-space patterns

aa bb

cc dd

Interpreting Spatial Patterns of Risk

•Area of risk

•Size of areas

•Location and pattern

•Inter-area distances

•Connectivity among locations

How can extensive time-space datasets help?

T1

T2

T3

Pattern of disease… or knowledge, SES,exposure, etc...

How can extensive time-space datasets help?

How can extensive temporal datasets help?

Time

Ab

un

dan

ce /

Pre

vale

nce

How can extensive temporal datasets help?

Establishmentand Colonization

Dispersal, Invasion, Extinction, Reinvasion

Inter-annualFluctuations

Time

Ab

un

dan

ce /

Pre

vale

nce

Environmental Index

Ab

un

dan

ce o

r In

fect

ion

Low High

Low

High

Habitat Fragmentation

Change inSuitable Habitat

Distancefrom Source

Climate variable

How can extensive spatial datasets help?

Some Sources of Data

• Meteorological Stations (climate, weather)• Satellite – climate, vegetation, soil moisture, etc• Census: population, age, sex, location, etc…• Passive or active surveillance of human cases• Surveillance of vector, reservoir abundance• more...

Knowing is not enough; we must apply.Willing is not enough; we must do.

(Goethe)