Epidemic, Endemic, Pandemic: What are the Differences?
The novel coronavirus pandemic is an ideal model for understanding what a pandemic is and how it impacts life on a global scale. Since the appearance of COVID-19 in 2020, the public has gained a new language for understanding the virus and the succeeding global public health response. This article will inspect the factors that make up a pandemic, how it differs from epidemics, and when a disease becomes endemic.
Table of Contents
What is an epidemic?
The Centers for Illness Control and Prevention (CDC) (external link unlocks in a new window) describes an epidemic as an unexpected rise in the number of cases of a disease in a given geographic area. Yellow fever, smallpox, measles, and polio are all examples of epidemics. An epidemic disease is not necessarily contagious. West Nile fever and rapidly rising obesity rates are also considered epidemics. Epidemics can mention to a disease or other specific health behavior (such as smoking) that occurs at a higher than expected rate in a given community or region.
The World Health Organization (WHO) (external link opens in a new window) declares a pandemic when the rate of growth of a disease is exponential. This means that the rate of growth is increasing rapidly, with more cases each day than the day before. When a pandemic is declared, the virus has no regard for virology, population immunity, or disease severity. It means that the virus is spreading over a wide area, affecting many countries and populations.
What does endemic mean?
A disease outbreak is considered endemic if it is present all the time but is limited to a specific region. This makes the spread and rate of the disease predictable. For example, malaria is considered endemic in certain countries and regions.
What is the difference between pandemics and epidemics?
WHO defines pandemics, epidemics, and endemic illnesses based on how quickly the disease is spreading. So the difference between an epidemic and a pandemic is not the harshness of the disease, but the extent to which it is spreading.
Unlike regional epidemics, a pandemic extends beyond international borders. It is the wide geographical scope of pandemics that results in widespread social disruption, economic losses, and general hardship. It is important to note that an epidemic, once declared, can develop into a pandemic. Although an epidemic is widespread, it is usually contained or its spread is predicted, whereas a pandemic is international in scope and gets out of control.
Causes of Disease Outbreaks
Several factors contribute to outbreaks of infectious diseases. Infection can occur through people, animals, or even the environment. For example:
Weather conditions. (external link, opens in a new window) For example, whooping cough is most common in the spring, while measles is most common in the winter. Exposure to chemicals or radioactive materials. (external link, opens in a new window) For instance, Minamata disease is caused by exposure to mercury.
The social impact of disasters such as storms, earthquakes, and droughts can increase the transmission of diseases. Various environmental factors (link is external, opens in a new window) such as water supply, nutrition, air quality, and sanitation can contribute to the spread of infectious diseases.
The origin of diseases (link is external, opens in a new window) may also be unknown. These kinds of diseases can be caused by a variety of factors, including:
A new or recently modified pathoge
Natural toxins
Undetected chemical releases
Excessive exposure to unknown ionizing radiation
Epidemiology aims to trace these unidentified outbreaks to their cause in order to protect public health and safety.
Famous Pandemics of the Past
The current COVID-19 epidemic is not the only disease that has affected the world on a global scale. Below are some examples of past pandemics that have influenced the evolution of epidemics and human immunity.
Black Death (1346–1353): (external link opens in new window) In the 14th century, the Black Death killed approximately 25 million people worldwide. Scientists believe the outbreak was caused by the bacterium Yersinia pestis. This bubonic plague lasted about four years.
American Plagues (16th Century): (external link opens in new window) Smallpox, a group of Eurasian diseases brought to the Americas by European explorers, was a major disease in the American Plague, which contributed to the failure of the Inca and Aztec civilizations. It is estimated to have killed 90% of the indigenous population of the Western Hemisphere.
Influenza Pandemic (1889-1890): (external link, opens in new window) New transportation routes that emerged with the industrial age facilitated the widespread spread of influenza viruses throughout the United States and other countries. Within months, the flu had spread worldwide, with the first cases reported in Russia. The virus quickly spread to St. Petersburg and then, despite the lack of air travel, spread throughout Europe and the rest of the world, killing one million people.
Spanish Flu (1918-1920): (external link, opens in new window) Another major outbreak was the influenza pandemic, commonly known as the Spanish flu. This viral pandemic began in 1918, just after World War I. More than 50 million deaths were reported during this outbreak, and the disease itself only lasted two years.
Asian Flu (1957–1958): (external link, opens in a new window) The Asian flu pandemic, caused by a mixture of avian influenza viruses, began in China and eventually killed more than one million people. The U.S. Centers for Disease Switch and Prevention (CDC) notes that the rapidly spreading disease was reported in Singapore in February 1957, Hong Kong in April 1957, and in seaside cities in the United States in the summer of 1957. The global death toll exceeded 1.1 million, with 116,000 deaths nationwide.
AIDS Pandemic and Epidemic (1981–present): (link is external, opens in a new window) Since its first identification, AIDS has killed approximately 35 million people. Scientists believe that HIV, the virus that causes AIDS, likely originated from a virus found in chimpanzees that was transmitted to people in West Africa in the 1920s. By the end of the 20th century, the virus had spread worldwide. For decades, there was no known cure, but medications developed in the 1990s allow people with the disease to lead normal lives with regular treatment.
Conclusion: Why These Terms Matter
Understanding the differences between an epidemic, an endemic, and a pandemic goes beyond terminology: it’s about understanding how diseases spread, how public health systems respond, and how communities prepare for them.
An epidemic is a sudden rise in cases of a disease in a given area.
An endemic is a disease persistently present in a region.
A pandemic is a global outbreak affecting multiple countries and populations.
These terms help public health authorities allocate resources, develop response strategies, and communicate risks to the public. As we’ve seen with COVID-19 and other diseases throughout history, being informed enables individuals and communities to make more informed health decisions.
In a world where infectious diseases can spread rapidly, clarity is critical, and understanding these differences can be the first step in protecting yourself and those around you.
Frequently Asked Questions
1. What is the difference between an epidemic, an endemic, and a pandemic?
An epidemic is a sudden increase in the amount of cases of a disease in a given region or population.
An endemic is a disease that is persistently present, often at a predictable or stable rate, in a specific geographic area.
A pandemic is an epidemic that spreads across countries or continents and touches large numbers of people worldwide.
2. Can a disease go from being an epidemic to a pandemic?
Yes. If an epidemic spreads across several countries or continents and affects large populations, it can become a pandemic. For example, COVID-19 began as an epidemic in China and became a pandemic in early 2020.
3. Is an endemic disease always less severe?
Not necessarily. An endemic disease can cause severe illness or death. For example, malaria is endemic in many tropical regions and, despite its constant presence, constitutes a major public health problem.
4. What is an example of an epidemic?
An example of an epidemic is the Ebola outbreak in West Africa (2014-2016), which caused a sharp increase in cases in several countries but did not spread globally as a pandemic.
5. What is an example of a pandemic other than COVID-19?
Another important example is the 1918 influenza pandemic (also known as the Spanish flu), which sick approximately one-third of the world’s population and caused millions of deaths worldwide.
6. How does a disease become endemic?
A disease becomes endemic when it reaches a stable and predictable incidence level in a population. It stops causing large-scale outbreaks but continues to circulate in a specific area. Factors that influence this include the level of local immunity, the public health response, and environmental conditions.
7. Who declares a pandemic or epidemic?
Organizations such as the World Health Organization (WHO) and the Centers for Disease Control and Prevention (CDC) track disease outbreaks and can officially declare an epidemic or pandemic depending on the nature of transmission, geography, and severity of the disease.
8. Can a pandemic become endemic?
Yes. Over time, as population immunity increases and transmission stabilizes, a pandemic can become endemic. For example, COVID-19 is approaching the endemic stage in some parts of the world.
9. Are all outbreaks considered epidemics?
Not all outbreaks are epidemics. An outbreak is the initial appearance or increase of disease in a limited area. If it is significantly larger than normal, it can be classified as an epidemic.
10. Why is it important to know these terms?
Understanding these terms helps people assess the scale and severity of disease outbreaks. This helps inform public health decisions, shape community responses, and better prepare for or respond to global or local health threats.
Also Read: Best practices for preventive healthcare