Ecologic study

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Ecologic study

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Human herpesvirus 8 (Kaposi sarcoma)
Herpes simplex virus
Human herpesvirus 6 (Roseola)
Adenovirus
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Human papillomavirus
BK virus (Hemorrhagic cystitis)
JC virus (Progressive multifocal leukoencephalopathy)
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Protein synthesis inhibitors: Aminoglycosides
Antimetabolites: Sulfonamides and trimethoprim
Antituberculosis medications
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Protein synthesis inhibitors: Tetracyclines
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Cell wall synthesis inhibitors: Cephalosporins
DNA synthesis inhibitors: Metronidazole
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Mechanisms of antibiotic resistance
Integrase and entry inhibitors
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Herpesvirus medications
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Nuclear structure
DNA structure
Transcription of DNA
Translation of mRNA
Gene regulation
Epigenetics
Amino acids and protein folding
Nucleotide metabolism
DNA replication
Lac operon
DNA damage and repair
Cell cycle
Mitosis and meiosis
DNA mutations
Lesch-Nyhan syndrome
Adenosine deaminase deficiency
Purine and pyrimidine synthesis and metabolism disorders: Pathology review
Polymerase chain reaction (PCR) and reverse-transcriptase PCR (RT-PCR)
Gel electrophoresis and genetic testing
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DNA cloning
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Mendelian genetics and punnett squares
Hardy-Weinberg equilibrium
Inheritance patterns
Independent assortment of genes and linkage
Evolution and natural selection
Down syndrome (Trisomy 21)
Edwards syndrome (Trisomy 18)
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Fragile X syndrome
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Glycogen storage disease type I
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Muscular dystrophy
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Autosomal trisomies: Pathology review
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Human development days 1-4
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Human development week 2
Human development week 3
Ectoderm
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Development of the placenta
Development of the fetal membranes
Development of twins
Hedgehog signaling pathway
Development of the digestive system and body cavities
Development of the umbilical cord
Development of the cardiovascular system
Fetal circulation
Development of the face and palate
Pharyngeal arches, pouches, and clefts
Development of the gastrointestinal system
Development of the teeth
Development of the tongue
Development of the axial skeleton
Development of the muscular system
Development of the renal system
Development of the reproductive system
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Cellular structure and function
Cell membrane
Selective permeability of the cell membrane
Extracellular matrix
Cell-cell junctions
Endocytosis and exocytosis
Osmosis
Resting membrane potential
Nernst equation
Cytoskeleton and intracellular motility
Cell signaling pathways
Adrenoleukodystrophy (NORD)
Zellweger spectrum disorders (NORD)
Ehlers-Danlos syndrome
Peroxisomal disorders: Pathology review
Introduction to biostatistics
Types of data
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Methods of regression analysis
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Type I and type II errors
Sensitivity and specificity
Positive and negative predictive value
Test precision and accuracy
Incidence and prevalence
Relative and absolute risk
Odds ratio
Mortality rates and case-fatality
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Direct standardization
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Study designs
Ecologic study
Cross sectional study
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Sample size
Disease causality
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Confounding
Interaction
Prevention
Major depressive disorder
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Bipolar and related disorders
Major depressive disorder with seasonal pattern
Generalized anxiety disorder
Social anxiety disorder
Panic disorder
Phobias
Obsessive-compulsive disorder
Body focused repetitive disorders
Post-traumatic stress disorder
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Factitious disorder
Tobacco dependence
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Narcolepsy (NORD)
Erectile dysfunction
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Disruptive, impulse control, and conduct disorders
Learning disability
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Mood disorders: Pathology review
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Personality disorders: Pathology review
Eating disorders: Pathology review
Psychological sleep disorders: Pathology review
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Drug misuse, intoxication and withdrawal: Hallucinogens: Pathology review
Malingering, factitious disorders and somatoform disorders: Pathology review
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Selective serotonin reuptake inhibitors
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Ecologic study

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A researcher is attempting to study the prevalence of type II diabetes mellitus amongst different countries. He finds that Western countries (e.g. the United States, Canada, Europe) tend to have higher rates of type II diabetes when compared to countries in Asia or Africa. Which of the following best describes this type of study design?  

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Content Reviewers

Rishi Desai, MD, MPH

An ecological study is a study design that uses group-level or aggregate-level data to figure out if there is a potential association between two variables.

For example, let’s say you want to figure out if women that eat more fat have a higher risk of breast cancer.

Perhaps you have information about the average dietary fat intake per capita as well as breast cancer rates in 10 different countries.

You could plot this information on a graph with dietary fat intake on the x-axis and yearly incidence of breast cancer - which is the number of new cases of breast cancer in a year, per 100,000 women - on the y-axis.

In Japan, the dietary fat intake per capita is around 650 calories, and the incidence of breast cancer is 50 cases per 100,000 women.

On the flip side, in the United States the dietary fat intake per capita is around 1400 calories, and the incidence of breast cancer is 235 cases per 100,000 women.

The rest of the countries - Switzerland, Denmark, France, Norway, Australia, Spain, Hong Kong, and Romania - have an average fat intake and breast cancer rates somewhere between Japan and the U.S.

Generally, we can see that the more fat a country consumes, the higher the rate of breast cancer is for that country, and at this point we might conclude that eating more fat leads to breast cancer.

The problem with this conclusion is that we only have information from the whole country, and we don’t have information about each individual within that country.

In fact, we might get very different results from a study that uses individual-level data!

For example, let’s say you conduct a cohort study using individual-level data from all 10 countries.

Cohort studies look at individuals in a group who have a certain exposure, as well as individuals in a cohort who have not had that exposure, to compare their rates of a certain outcome in the future.

So, you could follow 500,000 individuals that have a high fat diet, the exposed group, and 500,000 individuals that have a low fat diet, the non-exposed group, for ten years.

Summary

An ecologic study is an observational study that examines the relationships between environmental exposures and health outcomes at the population level. This type of study can be used to identify potential risk factors for disease, but it cannot determine whether or not these risk factors actually cause disease. Ecologic studies are also limited by the fact that they cannot account for individual differences in exposure and susceptibility.