What is Epidemiology?
Chapter 1. What is Epidemiology?
🧭 Overview
🧠 One-sentence thesis
Epidemiology is an interdisciplinary science that studies health phenomena in populations to predict, prevent, and explain disease and health outcomes through various causal models.
📌 Key points (3–5)
- What epidemiology is: the science to understand and explain health phenomena occurrences in populations, not just disease but all health outcomes.
- Why it's interdisciplinary: integrates tools and information from statistics, medicine, biology, sociology, nutrition, and other fields to create models and analyses.
- Common confusion—epidemiology vs. biostatistics: epidemiology has its own terminology and methodology that make it different from biostatistics, though they are related.
- Main uses: predict and prevent health outcomes, track disease spread, study infectious and chronic diseases, plan health services, evaluate programs, and address social determinants.
- Causal models evolved: from the simple epidemiological triangle (host-agent-environment-time) to chain of infection to web of causation to social determinants of health.
🔬 Core definition and scope
🔬 What epidemiology studies
Epidemiology is the science to understand and explain the occurrences of health phenomena in a population.
- As a branch of public health, it studies not only disease but different health outcomes.
- It goes beyond just counting cases—it examines patterns, causes, and impacts on populations.
- Example: studying not just how many people have diabetes, but why certain communities have higher rates and what factors contribute.
🧩 Interdisciplinary nature
- Epidemiology integrates information from multiple fields: statistics, medicine, biology, sociology, nutrition, cultural studies, gender studies, anthropology.
- It produces models, formulas, and analyses to predict, prevent, and analyze health phenomena including quality of life and wellness.
- Trade-off: being interdisciplinary brings complications—results are never free of errors—but the field auto-corrects through trial and error, making it stronger.
- Don't confuse: interdisciplinary means drawing from many fields, not just being a subfield of one discipline like biostatistics.
🛠️ Common uses of epidemiology
🛠️ Prediction and prevention
- Epidemiology predicts and prevents adverse (or positive) health outcomes, especially with complex health issues.
- The prediction feature forecasts epidemics; the prevention part confirms epidemiology is essential to public health.
- Example: forecasting flu season peaks to prepare healthcare systems.
📊 Tracking and surveillance
- Collects information and tracks different health outcomes in a population.
- Uses surveillance systems to systematically collect, analyze, and disseminate health data for public health programs and services.
- Helps allocate resources for specific health conditions.
🦠 Disease study scope
- Originally focused on infectious diseases (where the field started).
- Expanded to include chronic diseases such as cardiovascular disease and cancer, also called lifestyle diseases because risk factors are linked to how people live.
🏥 Planning and evaluation
| Use | How it works | Example |
|---|---|---|
| Planning health services | Provides data for clinical and population-level programs | Vaccination study in low-income communities informs immunization programs and policy |
| Program evaluation | Quantifies impact of interventions for funding | Most funding organizations require evaluation; epidemiology provides statistics and predictive data |
| Data collection design | Develops surveys and questionnaires | Population-based instruments for quantitative data collection |
⚖️ Social justice applications
- Addresses public health problems linked to poverty, low socioeconomic status, access to resources, racism, and discrimination.
- Epidemiology plays a role in social justice because many adverse health outcomes are linked to social issues.
- In recent years, includes qualitative data (case studies, in-depth interviews, personal stories) to enhance and "put a face to the numbers," though epidemiology is traditionally quantitative.
🔺 Causal models in epidemiology
🔺 The epidemiological triangle (foundational model)
For disease to occur, there must be a host, an agent, and an environment.
- Later, time was added as a fourth dimension (minutes, hours, days for disease manifestation).
- Agent/pathogen: major causal factor—bacteria, viruses, fungi, other microbes, parasites.
- Host: a person or animal that harbors the disease; may show symptoms or be symptom-free.
- Environment: everything that surrounds the host or promotes the agent's existence; external factors contributing to disease development.
- Time: duration of disease, including incubation periods (no symptoms manifested) and symptom manifestation.
Limitation: This model works well for infectious diseases based on the medical model, but falls short for non-infectious diseases where many unpredictable factors interact.
🔗 Chain of infection model
- Similar to the epidemiological triangle but more developed.
- Components: etiologic agent/pathogen, source/reservoir, mode of transmission, and host.
- Improved version adds: means of entry, means of escape, host susceptibility, and pathogenic organism (expanding on pathogen).
- Don't confuse: means of entry/escape are essentially related to mode of transmission, not separate mechanisms.
🕸️ Web of causation
- Premise: more than one factor is involved in disease development—it is multifactorial.
- When several factors are put together, the model looks like a web.
- Example given: use of prostate-specific antigen (PSA) test to assess if a man needs cancer treatment—multiple factors influence this decision.
- More realistic than triangle/chain models but challenging to operationalize all factors.
🌍 Social determinants of health (current approach)
Social determinants are conditions in the places where people live, learn, work, and play that affect a wide range of health and quality-of-life risks and outcomes.
- Goes beyond agent-host-environment to integrate risk factors and multiple direct/indirect factors.
- Recognizes health and disease as dynamic concepts.
- The "older" models can still be seen in this approach, especially as an expansion of the environment concept.
📈 Epidemic patterns and terminology
📈 Epidemic
An increase in the frequency of a disease; an "excess" in the number of cases.
- Key concept: excess above a baseline occurrence.
- Applies mostly to infectious diseases, though recently used for non-infectious diseases like obesity.
- Pattern: number of cases ascends (increases), then typically declines.
- Don't confuse with seasonal disease: occurs during certain seasons/times of year, then declines (e.g., seasonal flu October–May, nearly disappears June–August).
🌐 Pandemic
- A disease that after being epidemic crosses borders and becomes a health problem across the world.
- Typical shape: comes in waves; entire process resembles a "W" letter.
- Tends to appear every one hundred years or closer (e.g., Spanish flu comparison to COVID-19).
- Epidemiologists use historical patterns to compare and predict current and future pandemics.
🗺️ Endemic
- A disease with constant frequency limited to a specific area or region.
- Example: malaria is endemic in some regions of Africa and Latin America.
- Related terms (less frequent): hyperendemic and holoendemic.
🩺 Natural history of disease and prevention levels
🩺 Natural course of disease
- Each disease has a natural course from beginning to end if no medical intervention is taken.
- Natural history is well-documented for some diseases but not well understood in others.
- Model stages: susceptible host → symptoms develop → recovery/death/disability → rehabilitation (if needed).
🛡️ Three levels of prevention
| Prevention level | When it occurs | What it involves | Examples |
|---|---|---|---|
| Primary | Susceptible host stage | Interventions before symptoms develop; early detection | Pap smear, mammograms, digital rectal exams, colonoscopies, screening tests |
| Secondary | Symptoms developing | Treatment when person seeks healthcare; most expensive stage | Hospitalization for serious cases, supervised treatment for middle cases |
| Tertiary | After recovery/disability | Rehabilitation beyond medical care | Helping affected individuals improve quality of life and return to society productively |
🏥 Clinical model connection
- Primary care links to primary prevention
- Secondary care links to secondary prevention
- Tertiary care links to tertiary prevention
Don't confuse: rehabilitation (tertiary prevention) is more than just medical care—it means helping the individual return to productive life, not just medical services during recovery (secondary prevention).