9/20091 epi 5240: introduction to epidemiology descriptive epidemiology september 28, 2009 dr. n....
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9/2009 1
EPI 5240:Introduction to Epidemiology
Descriptive Epidemiology September 28, 2009
Dr. N. Birkett,Department of Epidemiology &
Community Medicine,University of Ottawa
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Scenario (1)
A 34 year old domestic worker who had recently emigrated from South-East Asia to Ottawa presents at the ED with a 6-week history of cough, fever, night sweats, weakness, fatigue & shortness of breath. She was previously in good health and has had 2 uncomplicated pregnancies (parity=2). Chest x-ray shows cavitary lesions & a sputum smear shows acid-fast bacilli. TB was diagnosed.
Treatment included 8 weeks of directly observed four drug therapy. Then, 10 weeks of two drugs taken three times per week.
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Scenario (2)
Patient lived in an apartment with husband and two children. TB skin tests were positive for husband and 3 year old daughter. Preventive treatment was given to all immediate family members. There was one positive skin test in 54 other apartment residents. No work contacts were positive.
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Session Overview
• Role of descriptive epidemiology
• Main features– Person– Place– Time
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• Assessing the Health Status of a Population
• Generating Hypotheses about causal factors
• Planning and Evaluating Public Health Programmes
• Evaluating clinical outcomes and treatments
Uses (1)
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• Person (age, sex, race, religion, SES)
• Place (country, state/province, city)
• Time (year, season, month, week, day, hour)
• Identification of disease clusters in time & space (epidemics/outbreaks)
Key Elements
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• Age– Disease incidence generally increases with age– Aging process vs. accumulation of 'experience‘
• Sex– Breast cancer: 1 : 99 (Male:female)– Esophageal cancer: 10 : 1 (Male:female)
• Hormones• Habits• Sexual practices• Occupational exposures• Societal roles/attitudes
Person factors (1)
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• Race/ethnicity– Controversial. How to define 'race'?
• Biological vs. social construct
– Minority groups have more disease and worse outcomes.• SES• Health practices• Access to Health Care• Discrimination• Stress• Environmental/occupational exposures
Person factors (2)
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• SES (socio-economic status)– Lower worse health
• Life expectancy 6.6 years lower in the poorest group.• The Titanic
– Complex causal pathway• Nutrition• Race• Habits• Environmental/occupational• Access to/use of health/preventive services• Political isolation• Others
Person factors (3)
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• Religion– Genetic (in-breeding)
• Tay-Sachs disease largely restricted to Jews of European descent.
– Behavioral• Mormons have 24% lower cancer rate • Nuns, cervical cancer and breast cancer
• Occupation– Percival Pott and scrotal cancer in chimney sweeps
Person factors (4)
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• Marital status– Married people have better health in general (e.g.
lower suicide rates)• Does marital support better health• Are people who are predisposed to better health more likely
to marry or be more attractive?
– Stress of failed marriage
Person factors (5)
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# reported TB cases(USA, 2002)
10 yrs 20 yrs
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Incidence rates for TB(USA, 2002)
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Incidence rates for TBBy Race/ethnicity (USA, 2002)
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Incidence rates for TBBy Sex (USA, 2002)
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• Strong overlap with many aspects of geography.
• Small area estimation• GIS
Basis• Geopolitical units• Natural features
Place factors (1)
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Aspects include:• Physical Environment
– Climate– Water– Soil– Air
• Biological environment– Flora/fauna
• Social environment– Cultural traditions
Place factors (2)
Scale of Comparisons• Global
– Cancer rates
• Regional– CHD and birth defects are more common in Eastern
Canada than Western Canada.
• Neighborhood– Childhood lead poisoning was higher in one specific
28 block area of Boston than in other parts of the city.• Traced to use of lead paint in that area. Pica and soil
contamination.
Place factors (3)
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Cancer rates by place
HIV rates by USA states
Cholera in London (John Snow)
TB incidence around the world
TB incidence in the USA by state
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Lung cancer mortalityBy county
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Breast cancer mortalityBy county
Lung cancer mortalityBy county
Breast cancer mortalityBy county
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• Frequently called 'temporal' or 'secular' trends.• Mainly relates to changes over calendar time.• Years (most common), months, weeks, days,
diurnal, hours.• Seasonal effects
Time factors (1)
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Interpretation• Can be tricky. Need external information, other
clues.• Changes in exposure levels or susceptibility• Diagnostic abilities
– Ultrasound and congenital heart defects• Completeness of reporting
– Child sexual abuse• Denominator issues, changes in age
distribution.• Changes in treatment.
Time factors (2)
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Alcohol intake, France, 1860-1989
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Blood lead,1976/80 & 1988/91
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Suicide rates by month
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Suicide rates by day of week
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TB incidence over time, USA
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TB cases over time, USAwith trend line
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• Population pyramids can be animated to show population changes over time. Here are some examples from Statistics Canada.
• CANADA: 1901-2001
• NFLD: 1949-2001
• Yukon: 1901-2001• URL: http://www.statcan.ca/english/kits/animat/pyone.htm
Time factors (3)
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• Birth cohort effects. Also called age-period-cohort modeling.– Difficult to cover in detail. Here, we explain basic concept.
• Consider people dying from TB at age 50.– In 2000, these people were born in 1950– In 1950, these people were born in 1900.
• First group grew up in the post-WWII boom, with modern medicine, good nutrition/sanitation, good housing.
• Second group experienced WWI, WWII, the depression, crowded housing, poor medical care.
• These are BIRTH COHORT effects
Time factors (4)
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• BUT:
• Year of death = year of birth +
age at death
• Can not disentangle trends due to:– Age– Birth cohort– Period (year of death)
• Ignoring year of birth (commonly done) can lead to distorted information
Time factors (5)
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TB mortality, 1900-1960,age effect by year of death
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TB mortality, 1900-1960,age effect by year of BIRTH
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• When people move, does the incidence of disease:– Change to reflect their new country
• Likely due to environmental causes
– Stay the same as in the old country• Likely due to genetic factors• Perhaps due to early environmental exposures
– Become somewhere in between.• Japanese migrants to Hawaii/California• Italian migrants to various countries
– 26,000,000 migrants between 1876 & 1985
• 'East block' Europeans migrating to the West
Migrant studies (1)
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TB incidence after migration
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• Why does TB incidence persist at elevated level?– Latent infections prior to migration– Residence in migrant communities in new country;
localized high transmission rates– Crowded housing– Inadequate access to preventive or therapeutic
services– Noncompliance with therapy– Resistant organisms– Re-infection on return to country of origin
Migrant studies (2)
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• Descriptive Epidemiology plays a major role in identifying outbreaks and unknown risks.
• Provides preliminary information about groups are particular risk.– Can provide hypotheses about potential risks or
causes.• HIV example
• Very common activity with governments and health units.
Summary