25 virology terms to help you understand outbreaks, from the common cold to COVID-19
25 virology terms to help you understand outbreaks, from the common cold to COVID-19
The world is just beginning to come to terms with the pandemic caused by COVID-19. As various parts of the country and world employ pandemic interventions such as shelter-at-home recommendations, a better understanding of the basic biology behind outbreaks, viruses, and how they work can help to clarify why these steps are so crucial from a scientific standpoint.
Stacker consulted encyclopedias and public health websites to compile a list of 25 virology terms. These terms help build background knowledge on what viruses are, how contagious they are, how they work in living cells, how they spread, and how they affect humans. These definitions illustrate the difference between the common cold and the COVID-19 virus and why COVID-19 is so deadly. The terms also help show why self-isolation and quarantine—as well as social distancing—are critical now, as these will help “flatten the curve” to prevent an exponential rise in COVID-19 cases and deaths. The gallery will also highlight terms such as capsid, R0, and zoonosis that are increasingly used in news stories.
What becomes clear with the basic science of COVID-19 is that the best and most effective way to love and care for others right now is to respect recommendations for social distancing. This is the most immediate, strongest action any of us can take to stop the spread.
Keep reading for fast lessons in droplet spread, community transmission, quarantine, and many more COVID-19-related terms.
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A virus is a microscopic, infectious cellular invader. Viruses insert themselves into living cells where they replicate. They can infect most life forms: from bacteria to plants to animals. Every cellular organism studied so far has its own viruses. Millions of viruses are found across all ecosystems and life forms on Earth, with about 5,000 of these described by science.
A bacteriophage—or phage for short—is a virus that specializes in infecting bacteria. Most viruses are bacteriophages. These particular types of viruses are made of proteins that infect the bacterial cell, then they enclose the DNA or RNA genome within the cell. Bacteriophages are the most common entities on Earth and are found everywhere bacteria exist, which is across all environments on Earth.
Viruses specialize on all different forms of cellular life; each virus evolved to infect different forms. Animal viruses infect only animals, and two fields of study separate their study. For non-human animals, the field is known as “veterinary virology,” while “medical virology” is the study of viruses and human beings. Viruses that affect humans are the most studied with many areas of research.
The protein shell of a virus that helps it enter its target cell is called a capsid. It protects the gene material of the virus. Structures of capsids vary widely and may consist of numerous proteins.
Some capsids build what are called “viral envelopes” from the cell itself. These are lipid membranes the virus builds around itself, with lipid material of the cell’s inner membrane. Viral envelopes are thought to help the virus infect the target cell. Lipids are the cell’s fatty acids and are not water soluble.
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Endocytosis is the term for when a virus enters its target cell. Viruses infect their cells in various ways. In some cases, the virus enters the cell but leaves the capsid behind, on the outside of the cell. In enveloped viruses, the viral envelope fuses directly with the cell membrane then it enters the cell. Inside the cell, the capsid degrades and the genetic material of the virus is released.
Some viruses have a special trait that allows them to enter and infect a cell, then go dormant. The virus may replicate in the cell at first, then stop. Viral latency refers to the time that viral genetic material can remain in the cell before being reactivated. If reactivated, the virus can reinfect the host without the host being re-exposed. HIV is known to have viral latency.
Zoonosis is when an infectious disease is transmitted from other vertebrate animals to humans. These kinds of infections can occur in natural conditions because vertebrate animals are genetically similar to humans. Some examples include the black plague, transmitted by rats; rabies, transmitted by bats, raccoons, and dogs; and anthrax, transmitted by sheep. More recently emergent human diseases like HIV, Ebola, and SARS likely arose from zoonosis.
Droplet spread refers to transmission when coughs, sneezes, and breath travel some distance from an infected person to a non-infected person. Generally people have thought that close proximity is necessary for droplet spread, but new research reported by the Journal of the American Medical Association (and motivated by the coronavirus pandemic), shows that infectious droplets can travel as far as 23 to 27 feet.
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Infectious particles like viruses can travel on dust or simply be suspended in the air. These particles can settle onto various surfaces, then can stir up and re-suspend in the air. If an uninfected person is exposed to these infectious particles, that person can become infected via airborne transmission. Some people have caught measles by entering a room where people with measles had recently been.
Community transmission occurs when an infectious disease arises in a community in which there is no connection to a known case, and/or no known history of travel into or out of a region with the disease.
R0 (reproductive rate)
The “basic reproduction number” is also known as R0 (“R-nought”), a measure that describes how easily a virus spreads. Specifically, R0 is an estimate of how many other people get infected by one infected person. For example, seasonal flu has an R0 of about 1.3 while the new coronavirus estimates suggest two to three people can be infected by each carrier. Changes to R0 can happen with how often people see others, location, and strength of the efforts to lower spread. Questions remain about the R0 of the new coronavirus, as scientists grapple with the speed of viral transmission worldwide.
A pandemic results from an epidemic that has grown past geographic boundaries. It is a type of epidemic. It occurs over a wide geographic area and impacts “an exceptionally high proportion of the population”—likely a whole country or the entire world. On March 11, 2020, the World Health Organization categorized the new coronavirus (COVID-19) as a pandemic.
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Antiviral drugs are medications that are used to inhibit viruses and their development. Antibiotics typically destroy the infectious agent, but since viruses are not exactly alive, antiviral drugs are designed to interfere in some way with the virus. Scientists are working around the clock to learn if there are antiviral interventions to slow the spread of the novel coronavirus pandemic, with new experiments planned and carried out around the world.
Vaccines prevent disease. A vaccine contains the same germ that makes people sick, but it is rendered harmless: Either it’s killed or weakened to the point it does not cause illness. When the vaccine is injected into the body, the immune system responds by making antibodies, leading to the same immunity a person would have if they’d become sick and recovered. When enough people are immune, this protects whole populations because of the diminished chances of an outbreak. Scientists are working furiously to develop a vaccine for the novel coronavirus, and though extremely unusual, testing on human subjects will begin very soon.
The common cold is a viral infection of the nose and throat that causes various symptoms like sore throat, runny nose, headaches, cough, and low fever. Many viruses can lead to the common cold, and most healthy people recover from a cold in six to 10 days.
The term coronavirus defines a “family of viruses that cause illness ranging from the common cold to more severe diseases, such as Middle East Respiratory Syndrome (MERS-CoV) and Severe Acute Respiratory Syndrome (SARS-CoV). The novel coronavirus recently discovered has been named SARS-CoV-2 and it causes COVID-19.” Coronaviruses are not the flu.
The novel coronavirus that causes the disease COVID-19 is known as SARS-CoV-2. Although this new disease may have certain similar symptoms to seasonal flu, It is from a completely different family of virus, and its particular set of traits make it highly contagious and far deadlier. Since it is a new virus to humans, no one is immune. The Centers for Disease Control has an information sheet to help people decide if they might have the new coronavirus, and what to do if they are sick.
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Isolation separates those who have a disease from those who don’t, or who are not known to be sick. The public has been guided on isolating at home during the pandemic if they or their family members have symptoms. The CDC fact sheet also provides guidance on home isolation and what to do once you no longer have symptoms.
Social distancing is when people stay away from each other, avoid all crowds, and cancel large and small events and gatherings. Social distancing effectively keeps this virus from spreading between people, and thus saves lives—particularly in the current pandemic because of its extreme contagion and high fatality rate. Distancing has included closing schools, working remotely, staying at least 6 feet apart from other people, and connecting with loved ones using online platforms, phones, and social media.
If people have been exposed to someone with the contagious disease, quarantine separates and restricts their movement to see if they get sick. Quarantine helps ensure that if someone is already exposed, that they stay away from others. People can shed the infectious virus and infect others without knowing they’re contagious.
Flattening the curve
“Flattening the curve” is a key way to save many, many lives by slowing the exponential spread of the disease. This allows time for health-care workers, hospitals, and related systems to help infected people, without becoming overwhelmed by exponentially rising numbers of seriously ill patients. It is very effective, may last from weeks to months, and could save tens of thousands of lives.
Herd immunity happens to a population that has been exposed to an infectious agent and, as a result, becomes immune. If this happened with the novel coronavirus—but without flattening the curve—the loss of life would be catastrophic because the virus is so contagious and deadly.
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