What to Know about the Fast-Spreading Delta Variant
A highly contagious form of the coronavirus known as the Delta variant is spreading rapidly and becoming increasingly prevalent around the world. First identified in India in December, Delta has now been identified in 111 countries.
In the United States, the variant now accounts for 83% of sequenced COVID-19 cases, said Rochelle Walensky, director of the Centers for Disease Control and Prevention, at a July 20 Senate hearing. In May, Delta was responsible for just 3% of U.S. cases. The World Health Organization projects that Delta will become the dominant variant globally over the coming months.
So, how worried should you be about the Delta variant? We asked experts some common questions about Delta.
What is a variant?
To understand Delta, it's helpful to first understand what a variant is. When a virus infects a person, it gets into your cells and makes a copy of its genome so it can replicate and spread throughout your body.
In the process of making new copies of itself, the virus can make a mistake in its genetic code. Because viruses are replicating all the time, these mistakes — also called mutations — happen pretty often. A new variant emerges when a virus acquires one or more new mutations and starts spreading within a population.
There are thousands of SARS-CoV-2 variants, but most of them don't substantially change the way the virus behaves. The variants that scientists are most interested in are known as variants of concern. These are versions of the virus with mutations that allow the virus to spread more easily, evade vaccines, or cause more severe disease.
"The vast majority of the mutations that have accumulated in SARS-CoV-2 don't change the biology as far as we're concerned," said Jennifer Surtees, a biochemist at the University of Buffalo who's studying the coronavirus. "But there have been a handful of key mutations and combinations of mutations that have led to what we're now calling variants of concern."
One of those variants of concern is Delta, which is now driving many new COVID-19 infections.
Why is the Delta variant so concerning?
"The reason why the Delta variant is concerning is because it's causing an increase in transmission," said Alba Grifoni, an infectious disease researcher at the La Jolla Institute for Immunology. "The virus is spreading faster and people — particularly those who are not vaccinated yet — are more prone to exposure."
The Delta variant has a few key mutations that make it better at attaching to our cells and evading the neutralizing antibodies in our immune system. These mutations have changed the virus enough to make it more than twice as contagious as the original SARS-CoV-2 virus that emerged in Wuhan and about 50% more contagious than the Alpha variant, previously known as B.1.1.7, or the U.K. variant.
These mutations were previously seen in other variants on their own, but it's their combination that makes Delta so much more infectious.
Do vaccines work against the Delta variant?
The good news is, the COVID-19 vaccines made by AstraZeneca, Johnson & Johnson, Moderna, and Pfizer still work against the Delta variant. They remain more than 90% effective at preventing hospitalizations and death due to Delta. While they're slightly less protective against disease symptoms, they're still very effective at preventing severe illness caused by the Delta variant.
"They're not as good as they were against the prior strains, but they're holding up pretty well," said Eric Topol, a physician and director of the Scripps Translational Research Institute, during a July 19 briefing for journalists.
Because Delta is better at evading our immune systems, it's likely causing more breakthrough infections — COVID-19 cases in people who are vaccinated. However, breakthrough infections were expected before the Delta variant became widespread. No vaccine is 100% effective, so breakthrough infections can happen with other vaccines as well. Experts say the COVID-19 vaccines are still working as expected, even if breakthrough infections occur. The majority of these infections are asymptomatic or cause only mild symptoms.
Should vaccinated people worry about the Delta variant?
Vaccines train our immune systems to protect us against infection. They do this by spurring the production of antibodies, which stick around in our bodies to help fight off a particular pathogen in case we ever come into contact with it.
But even if the new Delta variant slips past our neutralizing antibodies, there's another component of our immune system that can help overtake the virus: T cells. Studies are showing that the COVID-19 vaccines also galvanize T cells, which help limit disease severity in people who have been vaccinated.
"While antibodies block the virus and prevent the virus from infecting cells, T cells are able to attack cells that have already been infected," Grifoni said. In other words, T cells can prevent the infection from spreading to more places in the body. A study published July 1 by Grifoni and her colleagues found that T cells were still able to recognize mutated forms of the virus — further evidence that our current vaccines are effective against Delta.
Can fully vaccinated people spread the Delta variant?
Previously, scientists believed it was unlikely for fully vaccinated individuals with asymptomatic infections to spread Covid-19. But the Delta variant causes the virus to make so many more copies of itself inside the body, and high viral loads have been found in the respiratory tracts of people who are fully vaccinated. This suggests that vaccinated people may be able to spread the Delta variant to some degree.
If you have COVID-19 symptoms, even if you're fully vaccinated, you should get tested and isolate from friends and family because you could spread the virus.
What risk does Delta pose to unvaccinated people?
The Delta variant is behind a surge in cases in communities with low vaccination rates, and unvaccinated Americans currently account for 97% of hospitalizations due to COVID-19, according to Walensky. The best thing you can do right now to prevent yourself from getting sick is to get vaccinated.
Gigi Gronvall, an immunologist and senior scholar at the Johns Hopkins Center for Health Security, said in this week's "Making Sense of Science" podcast that it's especially important to get all required doses of the vaccine in order to have the best protection against the Delta variant. "Even if it's been more than the allotted time that you were told to come back and get the second, there's no time like the present," she said.
With more than 3.6 billion COVID-19 doses administered globally, the vaccines have been shown to be incredibly safe. Serious adverse effects are rare, although scientists continue to monitor for them.
Being vaccinated also helps prevent the emergence of new and potentially more dangerous variants. Viruses need to infect people in order to replicate, and variants emerge because the virus continues to infect more people. More infections create more opportunities for the virus to acquire new mutations.
Surtees and others worry about a scenario in which a new variant emerges that's even more transmissible or resistant to vaccines. "This is our window of opportunity to try to get as many people vaccinated as possible and get people protected so that so that the virus doesn't evolve to be even better at infecting people," she said.
Does Delta cause more severe disease?
While hospitalizations and deaths from COVID-19 are increasing again, it's not yet clear whether Delta causes more severe illness than previous strains.
How can we protect unvaccinated children from the Delta variant?
With children 12 and under not yet eligible for the COVID-19 vaccine, kids are especially vulnerable to the Delta variant. One way to protect unvaccinated children is for parents and other close family members to get vaccinated.
It's also a good idea to keep masks handy when going out in public places. Due to risk Delta poses, the American Academy of Pediatrics issued new guidelines July 19 recommending that all staff and students over age 2 wear face masks in school this fall, even if they have been vaccinated.
Parents should also avoid taking their unvaccinated children to crowded, indoor locations and make sure their kids are practicing good hand-washing hygiene. For children younger than 2, limit visits with friends and family members who are unvaccinated or whose vaccination status is unknown and keep up social distancing practices while in public.
While there's no evidence yet that Delta increases disease severity in children, parents should be mindful that in some rare cases, kids can get a severe form of the disease.
"We're seeing more children getting sick and we're seeing some of them get very sick," Surtees said. "Those children can then pass on the virus to other individuals, including people who are immunocompromised or unvaccinated."
Enter our writing contest for a chance to win a cash prize and publication on leapsmag.
Last year, we sponsored a short story contest, asking writers to share a fictional vision of how emerging technology might shape the future. This year, the competition has a new spin.
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Write a personal essay of up to 2000 words describing how a new advance in medicine or science has profoundly affected your life.
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Kira Peikoff was the editor-in-chief of Leaps.org from 2017 to 2021. As a journalist, her work has appeared in The New York Times, Newsweek, Nautilus, Popular Mechanics, The New York Academy of Sciences, and other outlets. She is also the author of four suspense novels that explore controversial issues arising from scientific innovation: Living Proof, No Time to Die, Die Again Tomorrow, and Mother Knows Best. Peikoff holds a B.A. in Journalism from New York University and an M.S. in Bioethics from Columbia University. She lives in New Jersey with her husband and two young sons. Follow her on Twitter @KiraPeikoff.
Men and Women Experience Pain Differently. Learning Why Could Lead to Better Drugs.
According to the CDC, one fifth of American adults live with chronic pain, and women are affected more than men.
It's been more than a decade since Jeannette Rotondi has been pain-free. A licensed social worker, she lives with five chronic pain diagnoses, including migraines. After years of exploring treatment options, doctors found one that lessened the pain enough to allow her to "at least get up."
"With all that we know now about genetics and the immune system, I think the future of pain medicine is more precision-based."
Before she says, "It was completely debilitating. I was spending time in dark rooms. I got laid off from my job." Doctors advised against pregnancy; she and her husband put off starting a family for almost a decade.
"Chronic pain is very unpredictable," she says. "You cannot schedule when you'll be in debilitative pain or cannot function. You don't know when you'll be hit with a flare. It's constantly in your mind. You have to plan for every possibly scenario. You need to carry water, medications. But you can't plan for everything." Even odors can serve as a trigger.
According to the CDC, one fifth of American adults live with chronic pain, and women are affected more than men. Do men and women simply vary in how much pain they can handle? Or is there some deeper biological explanation? The short answer is it's a little of both. But understanding the biological differences can enable researchers to develop more effective treatments.
While studies in animals are straightforward (they either respond to pain or they don't), humans are more complex. Social and psychological factors can affect the outcome. For example, one Florida study found that gender role expectations influenced pain sensitivity.
"If you are a young male and you believe very strongly that men are tougher than women, you will have a much higher threshold and will be less sensitive to pain," says Robert Sorge, an associate professor at the University of Alabama at Birmingham whose lab researches the immune system's involvement in pain and addiction.
He also notes, "We looked at transgender women and their pain sensitivity in comparison to cis men and women. They show very similar pain sensitivity to cis women, so that may reduce the impact of genetic sex in terms of what underlies that sensitivity."
But the difference goes deeper than gender expectations. There are biological differences as well. In 2015, Sorge and his team discovered that pain stimuli activated different immune cells in male and female rodents and that the presence of testosterone seemed to be a factor in the response.
More recently, Ted Price, professor of neuroscience at University of Texas, Dallas, examined pain at a genetic level, specifically looking at the patterns of RNA, which are single-stranded molecules that act as a messenger for DNA. Price noted that there were differences in these patterns that coincided with whether an individual experienced pain.
Price explains, "Every cell in your body has DNA, but the RNA that is in the cells is different for every cell type. The RNA in any particular cell type, like a neuron, can change as a result of some environmental influence like an injury. We found a number of genes that are potentially causative factors for neuropathic pain. Those, interestingly, seemed to be different between men and women."
Differences in treatment also affect pain response. Sorge says, "Women are experiencing more pain dismissal and more hostility when they report chronic pain. Women are more likely to have their pain associated with psychological issues." He adds that this dismissal may require women to exaggerate symptoms in order to be believed.
This can impact pain management. "Women are more likely to be prescribed and to use opioids," says Dr. Roger B. Fillingim, Director of Pain Research and Intervention Center of Excellence at the University of Florida. Yet, when self-administering pain meds, "women used significantly less opioids after surgery than did men." He also points out that "men are at greater risk for dose escalation and for opioid-related death than are women. So even though more women are using opioids, men are more likely to die from opioid-related causes."
Price acknowledges that other drugs treat pain, but "unfortunately, for chronic pain, none of these drugs work very well. We haven't yet made classes of drugs that really target the underlying mechanism that causes people to have chronic pain."
New drugs are now being developed that "might be particularly efficacious in women's chronic pain."
Sorge points out that there are many variables in pain conditions, so drugs that work for one may be ineffective for another. "With all that we know now about genetics and the immune system, I think the future of pain medicine is more precision-based, where based on your genetics, your immune status, your history, we may eventually get to the point where we can say [certain] drugs have a much bigger chance of working for you."
It will take some time for these new discoveries to translate into effective treatments, but Price says, "I'm excited about the opportunities. DNA and RNA sequencing totally changes our ability to make these therapeutics. I'm very hopeful." New drugs are now being developed that "might be particularly efficacious in women's chronic pain," he says, because they target specific receptors that seem to be involved when only women experience pain.
Earlier this year, three such drugs were approved to treat migraines; Rotondi recently began taking one. For Rotondi, improved treatments would allow her to "show up for life. For me," she says, "it would mean freedom."