As our national mortality statistics reach over 500,000 and a third vaccine has been approved by the FDA I thought that we should examine the use of masks, etc. after vaccinations. This is an important question especially considering the increasing findings of more viral mutants.
Recently, a spirited discussion was sparked on social media: is it acceptable to relax masking 14 days after the second COVID-19 vaccine dose? Doctor Vinay Prasad and Doctor David Aronoff, in this post will discuss the advice as to whether to continue wearing masks as well as social distancing, etc. after one completes their vaccination.
Doctor Prasad starts off by noting that having spent some time thinking about the topic, and discussing with colleagues, I have reached two conclusions. First, it is a tradeoff with residual uncertainties, and reasonable people can disagree. But also, I favor the view that generally, 14 days after vaccination, we can relax some restrictions.
It is important to be upfront with the caveats. Everything I say applies to average people in the community — I am not speaking about enhanced precautions in high-risk settings like nursing homes or medical centers. My argument is contingent on there being no “vaccine escape,” that is, no mutation in the coronavirus that markedly reduces vaccine efficacy. If that happens, may God help us. I am not sure we will make it.
Finally, my argument is appropriate for most places and most times, but if health systems are overwhelmed, e.g., as we saw in places like southern California or New York City, it might be reasonable to temporarily increase precautions. Additionally, my guiding principle does not apply to businesses, such as grocery stores or pharmacies, which can and will enforce their own policies.
Now, having said that: for most people, once you get 14 days out of your second dose of vaccine, I believe you can ease up on masking or another restriction, such as visiting a loved one for lunch or having more than one person visit a nursing home at the same time, or a small gathering of vaccinated people for dinner without masks.
There are three lines of evidence that I wish to offer for my claim. First, consider the efficacy of the vaccine. The efficacy of the two mRNA vaccines is superb, offering 95% reduction in the rate of acquisition of symptomatic COVID-19 in randomized trials. That is a remarkable result. But the key statistic here is one step beyond the vaccine efficacy. If you get two doses of the vaccine, and if you remain asymptomatic 14 days after the second dose, what is the probability you will develop COVID-19? For Moderna, the answer is there is a 99.92% chance that you won’t. Only 12 cases occurred after this time in 14,550 actively vaccinated people in the trial, while the control arm experienced nearly 3.5% cumulative incidence. For Pfizer, only eight cases occurred amongst people who had completed a second dose and went 7 days without symptoms, again a 99.95% chance of not getting COVID if one remained asymptomatic a week after the second dose. In other words, if you get 14 days past the second dose, and feel fine, the likelihood you will get COVID-19 in these studies is very low. Some argue that in the real world — where folks are not as motivated as trial participants — the rate of SARS-CoV-2 acquisition might be higher, and thus relaxing rules riskier. But this logic cuts both ways: if people in the real world are less compliant, then the rules might be relaxed no matter what we say.
Next, consider the risk of spreading SARS-CoV-2 to others. That risk is in part driven by symptomatic infections which are exceedingly rare after second doses. Risk of spreading is diminished by the brisk immune response that occurs after symptomatic infection once someone is vaccinated. In the Moderna study, there were 30 cases of severe COVID overall and zero in the vaccination arm. Less symptomatic and less severe COVID will result in a lower propensity to propagate SARS-CoV-2. Moreover, studies of both recombinant antibody products speed viral clearance from airways. If the body is primed to manufacture anti-spike antibodies through vaccination, there is likely a similar rapid clearance and subsequent reduction in infectiousness occurs.
What about asymptomatic infection and so-called silent spread? In the Moderna trial, swabs taken from asymptomatic participants as they were receiving dose 2 showed a roughly 60% reduction in PCR positivity. It is likely that a second dose and longer asymptomatic period will result in greater reduction in PCR positivity. Preliminary data from AstraZeneca’s ChAdOx1 vaccine also showed reduced in asymptomatic PCR detection. In short, it is highly likely that receipt of vaccination and a 14-day asymptomatic period afterward results in both personal protection and reduced likelihood of ongoing viral propagation.
Third, what is the effect size of masks? More correctly — what is the effect size of masks 14 days after a vaccine with 95% efficacy? What is the effect of masks if PCR positivity is only 1 in 1,000 amongst asymptomatic people? I think we must confront a forgotten truth. Masks make sense not because we have perfect randomized controlled trial data showing they protect the wearer, or others, but based on bio-plausibility, and the precautionary principle, they were a reasonable public health measure to incorporate.
Authors of a 2020 update to the Cochrane review wrote, “Compared to no masks there was no reduction of influenza-like illness (ILI) cases (risk ratio 0.93, 95% CI 0.83-1.05) or influenza (risk ratio 0.84, 95% CI 0.61-1.17) for masks in the general population, nor in healthcare workers (risk ratio 0.37, 95% CI 0.05-2.50).” But the truth is none of these trials perfectly fits the moment. And we never did a cluster RCT of cloth masks — as they are used in the politically torn U.S. — to clarify the effect size with SARS-CoV-2.
The truth is I wear a cloth mask and I quite like it. But I have seen no data that can tell me the added benefit of masks 14 days after vaccination with 95% efficacy. It’s the biological equivalent of asking what happened before the Big Bang. If you ask, what is the evidence that it’s safe to stop wearing a mask, I say, what is the evidence that it’s still beneficial?
This same line of thinking applies to other restrictions that could be eased instead. What evidence supports restricting nursing home visitors, if all parties are vaccinated and masked? What evidence supports banning a small dinner, if everyone has had the vaccine? There is no evidence that supports these continued prohibitions.
Knowing these three facts allows us to put it all together. Is it reasonable to tell someone that, if they are asymptomatic 14 days after the second vaccine, they are highly unlikely to get COVID-19, and also less likely to spread the virus — both by having less severe disease, less asymptomatic carriage, clearing virus faster, stronger antibody responses, and fewer symptomatic cases? Absolutely, is my view.
It is then reasonable to say that the theoretical benefit of the mask may be so small that easing up on its use is fine. Alternatively, you might keep the mask, but ease up on something else, and, to be honest, most people might actually prefer a different concession. You might choose to see family instead, or have a gathering with your vaccinated friends. Getting vaccinated is like getting a stack of tickets at Chuck E. Cheese — you get to decide what to trade them in for!
Some contend my stance will undermine efforts to normalize masks, send mixed messages to the public. That’s possible, but it is also possible that my message empowers and excites people to get vaccinated, which is the only viable path out of the nightmare we find ourselves in. I think the less scientists manipulate their statements while trying to guess the response the better. I have tried to be fully transparent in my thinking on this topic. None of us knows the second or third order effects. If we distort the facts and bang on harder about prolonged mask use or other restrictions, will the world actually be better? Or will we provoke a deep backlash that has been brewing for some time? Do we risk losing some folks who might otherwise get vaccinated? I am not an incarnation of God, so I don’t know. I worry that the likes and retweets on social media encourage the fearful message rather than the correct one.
Public health experts have reminded me to talk about despair. We are all facing it, and when you clamp down on a society with restrictions, a free society can only bear it for so long. There must be a path out of it, and easing restrictions — particularly when the burden may outweigh the unproven, theoretical, and at best highly marginal benefit — is a great way to renew optimism. Folks who spend time doing boots on the ground public health share their view with me that this is a great place to start.
The last objection I want to discuss is that my policy is not the safest policy. It is not absolute safety. Indeed, I acknowledge this is true. But I disagree that wearing a mask is absolute safety. I disagree that only one nursing home visitor is the safest policy, and only having a picnic outside is safest. Only truly becoming a hermit is absolute safety. Lock yourself in home, and get all foodstuffs delivered. When you go out, always wear an N95, and do this even a year or two after vaccination. After all, who knows if the vaccine will wear off? None of us really wants absolute safety. We seek reasonable safety, and I will defend the proposition that is achieved merely by a prolonged asymptomatic period after second vaccination and after that something can be relaxed — and there are several options.
The end of COVID
COVID-19 will someday no longer be the topic of daily and breathless news coverage. The virus may always circulate, and some people may always get sick, but the real end will be when we stop thinking about it every moment of every day. That’s how this pandemic will end. Not with a bang, but a whimper.
People need to know that there is light at the end of the tunnel because there is.
Vaccination in the absence of viral escape is the way out of this. Once a person is a sufficient time and distance away from the second shot, and if they are feeling well, we can start to view them differently. They are less a vector for the transmission of a plague, and more a real person — with hopes and wants and desires and seeking connection. In such a moment, if they remove their mask to share a smile with me, I can promise you, I will lower my mask, and smile back.
And Opposing View-Now Is Not the Time to Relax COVID Restrictions
Doctor David Aronoff counters the argument with the facts that the COVID-19 pandemic has now raged on for more than a year. In the U.S., we have documented more than 24.5 million cases and 400,000 COVID-19-related deaths, with between 3,000 and 4,000 people dying each day. The CDC projects we will reach nearly 500,000 total deaths within the next month. COVID-19-related hospitalizations remain at an all-time high. America continues to suffer through a third wave of disease activity that has dwarfed the peaks of the Spring and Summer of 2020.
And, while COVID-19 is beating down on us, it could be worse, believe it or not. We have learned much about how the SARS-CoV-2 virus spreads, easily, through our breath from one person to another. Most nefarious has been the extent to which transmission occurs silently, moving from infected individuals who feel well, look well, and have no idea that they are infected. However, we know that maintaining our distance from others protects against transmission, as does the use of cloth face-coverings. It has been through social distancing and mask use that we have, in the absence of vaccination and herd immunity, been able to limit the damage done by this horrible infectious disease.
Clearly, vaccines against SARS-CoV-2 are the light at the end of the tunnel, assuming that viral mutations do not escape our vaccines sooner than we can put out the fire. With estimates that more than 60% of the population will need to have immune protection against SARS-CoV-2 to benefit from herd immunity, we have a long way to go. While less than 10% of the U.S. population has been formally diagnosed with COVID-19, a recent estimate suggested that by November of 2020 we were at about 15% of the U.S. population immune to the virus. And while that figure may now exceed 20%, this leaves more than 250 million Americans without immune protection, and falls short of the roughly 200 million people who might need to be immune for herd immunity to take hold.
Vinay Prasad, MD, MPH, has authored a thoughtful, evidence-based commentary, making a strong case for why we can relax some restrictions following successful immunization against SARS-CoV-2. He succinctly lays out an argument about why and how immunization, in the absence of vaccine-escaping virus mutants, will confer strong enough protection to render tight adherence to wearing masks and other restrictions unnecessary. And, while I think he has the right idea (I would love to see more people’s faces right now and share a meal with my friends), it is premature to suggest that now is that time. It is OK for us to hold differing opinions (that’s what we do). Two well-intentioned scientists can both look at the same data and reach different policy conclusions. So, let me focus on the case for keeping our masks on, even as we roll our sleeves up. The same logic holds for other restrictions.
First, given how active COVID-19 is right now we need to be doing everything in our power to slow its spread. Lives hang in the balance. I really like the Swiss Cheese model of pandemic defense, popularized by Australian virologist Ian Mackay, PhD, which demonstrates the concept that each measure we implement to interrupt the SARS-CoV-2 pandemic is imperfect yet when layered together they cooperatively reduce transmission risk.
Even immunization is not a perfect defense. Thus far, SARS-CoV-2 vaccination has not been shown to eliminate the risk that someone will get infected or pass the virus on to others. Studies published to date on the Moderna and Pfizer-BioNTech mRNA vaccines show clear protection against developing symptomatic COVID-19. But they also show that some vaccinated people still develop symptomatic disease. And, given what we know about the disease in non-immune people, symptomatic infections represent a fraction of total infections. This predicts that despite immunization some people will develop asymptomatic infection. Do I think that SARS-CoV-2 immunization will significantly protect people against both asymptomatic and symptomatic COVID-19? Yes. Do I think the risk to an individual will be zero following successful immunization? No. Stated differently, removing masks from vaccinated people (or relaxing social distancing) is likely to increase the risk for propagating COVID-19 compared to maintaining these restrictions. And, even if that incremental risk is small, why take it, given where we are with the disease now?
There will be a time when immune people can let their guards down, allowing even non-immune people to do the same (a benefit of herd immunity). But that time is not now.
The issue of wearing masks has been a contentious one, not helped by mixed messaging from leaders in the federal and state government. This has translated into story after story of difficulty convincing people of the public health benefit of wearing face-coverings. What we do not need are more people out and about in public spaces without masks, which sends the wrong message at the wrong time. We cannot know if an unmasked person is unvaccinated or simply an anti-masker. Why provide fuel for people to skirt mask policies based on stating they have been vaccinated, when they might not have been? And the same holds for hosting dinner parties or participating in other gatherings.
To safely advise people that once they are immunized, they can leave their masks at home and relax other infection control measures we need to record sustained decreases in disease activity, hospitalizations, and deaths, to the point where leading infectious disease and public health experts are comfortable recommending that we can de-escalate these interventions. We also need to ensure widespread vaccine uptake, particularly among Black, indigenous, and people of color, who have been disproportionately harmed by COVID-19. Recent data show that Black Americans, for example, are getting vaccinated at lower rates than white Americans.
We remain in the thick fog of a true healthcare emergency and need to be doing all we can, especially the simple things, to shut it down. Now is not the time to let up on masking, even for the relatively few who have been immunized. Abandoning mask-wearing and social distancing, even in immunized persons, is not the right thing to recommend, yet. We need masks on and sleeves up.
COVID-19 Variants: ‘The Virus Still Has Tricks Up Its Sleeve’
Now more on the counterpoint reported by Molly Walker who interviewed Dr. Warner Greene as followed: We are honored to be joined once again by Dr. Warner Greene. He’s senior investigator at Gladstone Institutes and a professor at University of California San Francisco. As we’ve discussed, COVID-19 variants are very much in the news. Can we go over what is the latest news about the variants, even today? What do we know about them and what’s the latest that’s been happening?
Variants are very much in the news. What we’re seeing is the slow but steady evolution of the coronavirus. There are now four major variants that are of concern. And, in fact, they call them variants of concern. The first recognized was the U.K. variant, recognized in the south of the United Kingdom. It has an increased transmission efficiency. And there are some reports that it may be somewhat more virulent, particularly in men over the age of 60.
Of even greater concern is the South African variant, which contains mutations that confer resistance to certain monoclonal antibodies, like one of the two monoclonal antibodies developed by Regeneron. The Eli Lily monoclonal antibody doesn’t seem to work against the South African variant and vaccine efficiency is also reduced with the South African variant.
Similarly, the Brazilian variant has basically the same set of mutations that are conferring antibody resistance, causing real concern. What it means for the vaccines, etc.: I think that both the South African and the Brazilian variants are a major concern. And it is possible that those variants as they spread, and they are in the United States now, we may need to revise the vaccines to account for these types of variants. That’s not clear yet, but better to be prepared, in case we do need to revise the vaccine.
And then there’s a fourth type of variant, which is just kind of emerging, less well-studied at this point, but out of California. So clearly there, the virus is searching for a lock and key mechanism trying to search for ways to allow itself to replicate better. We’re applying immune pressure. So, it’s mutating away from some of that immune pressure, and that’s why this antibody resistance is emerging.
So, what types of mutations does the SARS-CoV-2 virus have to go through to make it a variant?
Well, for example, the South African variant has 27 mutations, nine of which occur in the spike protein. The spike is the protein on the surface that binds to the ACE2 receptor and allows entry and fusion into the host cell. And, of course, that’s where most of the vaccines are focused, is on the spike. That’s where the monoclonal antibody therapeutics are focused, on the spike. And so the virus is looking for ways to avoid these types of immune pressures and it’s making mutations in its receptor binding domain and the internal domain that confer resistance to certain types of neutralizing antibodies.
Given that recent studies from Novavax and Johnson & Johnson last week found somewhat reduced clinical efficacy of vaccines against these variants, what type of booster modification is required for vaccines in order to better combat them with the mRNA and the viral vector vaccines? Is it different, is it the same?
I think the booster that, for example, Moderna and Pfizer are now working on is to take the genetic sequence of the variant and use that as the immunogen. So, there is a mutation at position 484 that is absolutely key for this loss of antibody protection. You would introduce an RNA that now has that same mutation at position 484 into the vaccine to create a vaccine that is really tailored to take that particular type of virus out. And that mutation is shared between the South African and the Brazilian variants.
And so it wouldn’t require a different type, depending on the type of vaccine, it would just be the same type of reformulation. It wouldn’t be mRNA, different than a viral vector, it would just be a different formula. It’s not anything to do with the type of vaccine. It still would be an mRNA-based vaccine. It would just contain a different RNA or more likely it will be a multi-valent vaccine that would be original virus, as well as a new virus.
It’s not clear exactly how that would be administered. It may be that we want to boost immunity against the old virus, as well as the new virus, so we would use a multi-valent approach in that case. But the mRNA vaccine platform is quite amenable to this type of updating. That’s a real advantage, much more so than the adenoviral vectors, the virus-delivered vaccines. It’s a more complicated process there.
If we could just look at the vaccines as we have them now against this wild-type strain, if for some reason we didn’t have any boosters, what type of progress could we make against the pandemic? Can we vaccinate our way out of the pandemic, even if we don’t have these boosters? Have these variants prevented that?
To be clear, these variants, the Brazilian and the South African variants, are only compromising the neutralizing antibody response against the coronavirus. The T-cell immune response presumably is fully intact and remains unevaluated. So it’s quite possible that these vaccines will stand up better than we expect or predict. Clearly the U.K. variant does not appear to be a threat, although the recent acquisition of the neutralizing mutation at 484 causes concern that the virus is evolving. Even the U.K. variant is evolving.
I would say that the one thing that is disturbing to me, or that causes me pause is the story in Manaus, Brazil. Manaus is in the Amazon basin, they had a huge outbreak in the spring. It was thought, as reported, that there would probably be herd immunity within the community up to about 75%. Then this variant comes in to the community and it’s just sweeping through, causing re-infection or what appears to be re-infection.
Now did the original immunity wane and these people were all sensitive? Is it just that the variant is able to avoid both the T-cell and the antibody response that was present in the herd in Manaus? That kind of real-time experiment is concerning in terms of the spread of this virus. And I think data like that and what’s going on in South Africa is what’s really prompting the vaccine companies to get prepared now. We don’t know the full dimensions of the problem, but better to overprepare at this point in time.
So, given what happened in Brazil, do you think that’s evidence of viral escape?
Certainly, the South African and Brazilian variants, the mutations they are acquiring in their spike protein are examples of escape from the antibody neutralization. These are mutating principal antibody-binding sites that are responsible for neutralization, so that these variants are emerging under the influence of immune pressure. It’s harder to get around the T-cell immunity though, because T-cell immunity differs from person to person based on the composition of our HLA genes and our immune response. And T-cells are really the major defense mechanism against viruses, so let’s hope that our T-cells fill in for any gaps that the antibodies might come up a little short on.
I’m not sure exactly what has happened in Manaus, whether there was really ever herd immunity, whether it’s waned, but I do know that the variant there is hitting hard. So, that’s a big question mark. I think Brazil holds the answers to a lot of the future of this pandemic. We need to understand precisely what is going on there.
What do we need to be studying in Brazil specifically? And what type of data would we need to be looking at and tracking, what types of real-world studies and epidemiological studies would you like to see out of what’s happening in Brazil to help us going forward?
I would like to know whether or not there was real herd immunity. Before this new variant began to spread, was there clear evidence of a good antibody response and retention of durable antibody responses against the original strain of “wild-type” virus. So, if, in fact, there was an intact immune response, and this virus was able to overwhelm that response, well that’s not good news, but if the response had waned or had never really developed fully, then that’s a less daunting problem.
Now on the positive side, you look at the Johnson & Johnson vaccine, it’s not the world’s best at preventing you from becoming infected with or developing minor respiratory symptoms. But even with the South African variant, this vaccine protects you from severe disease, having to go to hospital and dying. And frankly, that’s what we want from a vaccine. That is fantastic. You may have a runny nose or a mild upper respiratory tract infection, but you’re not going to develop life-threatening pneumonia and require hospitalization, intubation, etc. And I’d sign up for that type of vaccine any day.
All we have from the mRNA vaccines from Pfizer and Moderna are these kinds of in vitro and in lab studies that if you expose them to these variants, this is what they’ll do, but do we need some type of clinical efficacy? Would you say at this point that we don’t have evidence of clinical efficacy against the variants with these two vaccines that are currently being distributed?
Exactly. The mRNA vaccines are not being tested extensively in areas where the variants are prospering, but one of the trial sites for Johnson & Johnson was in South Africa. So, they were able to see how their vaccines stood up against that variant and it fared very well in terms of prevention of serious disease.
When do you think that we are going to get these types of studies? Is that something that we’re going to see as the vaccine trials kind of evolve, and are we going to be able to get that from the mRNA vaccines? Are we just going to not know what their clinical efficacy is until we get a booster, we’re just going to only have the lab evidence?
It’s likely that the virus is probably replicating at higher levels or more virus is replicating in terms of country here in the United States than almost anywhere else in the world, in terms of the breadth of cases that we’ve had, etc. We just simply do not have the genomic surveillance types of apparatus to necessarily detect these variants. For example, we’re just now detecting the California variants. There may be many variants in the United States. We do know that the Brazilian, as well as the South African, variants are in the United States, and it’s possible that there is community spread of these variants. So, we just have to really ramp up our sequencing efforts to really track what’s happening within our pandemic within the country and what types of viruses that we’re dealing with.
And it’s in that kind of setting as variants begin to hold sway. For example, it’s suggested that the U.K. variant will become dominant in the United States by March. So, our prediction is that the current vaccines will do very well against that variant. Now, if that variant is replaced by, for example, a South African variant, which is more immunologically daunting, well then, we’re going to have to see how the mRNA vaccines hold up against that. And it’s that kind of real-world information that’s going to inform whether or not we need to boost the immune system with a third shot.
Are the variants occurring in regions due to the similarities in the genome of the regional population, causing the viral RNA to mutate in a specific direction, and do antigen tests pick up variants?
No, the antigen tests will not pick up the variants. You really have to do the sequencing to find these mutations. So, it’s clear that the virus has a set of mutations and it’s trying different combinations. All the virus wants to do is to replicate better. The U.K. variant has one mutation in the receptor binding domain, which confers tighter binding to the ACE2 receptor and a higher level of transmission by 40% to 70%. And that’s the variant that may become dominant here in the United States by March. In contrast, the South African and the Brazilian variants, they not only have the same mutation that the U.K. variant does, they’ve added to it. They’ve added at least two additional mutations that really take out these neutralizing antibodies.
Now, did these two variants arise independently? Some would say yes. I don’t think that we know precisely because one person coming from South Africa carrying the virus could seed the virus in Brazil. So, we don’t know, but there are subtle differences. The virus is working toward a solution here for avoiding the antibodies.
Now, another question is, is the virus throwing everything at us right now that it’s got? Is this it and can we expect a pretty much static situation from here on out? And, you know, I don’t think so. I think the virus still has tricks up its sleeve, and will continue to evolve as we put additional immune pressures on it. So, that would be my guess, but we’re right at the cusp of the evolving science. And to think that where we were a year ago with no defense, no innate or no intrinsic immunity to this virus, and nothing really therapeutic or preventive. And now we’re in a situation where we have multiple, highly effective vaccines. It’s a true triumph of science.
Can you go into how else the virus could mutate? Is there any way that it could mutate that T-cell immunity that we have that would be compromised? Is that possible or is it just not that complex a virus?
Yeah, there may be the emergence of escape mutations that escape a cytotoxic T-cell, CD8 T-cell responses, or CD4 helper T-cell responses. We could certainly see that and it’s much harder to monitor for those types of immune reactions. So, certainly, like you get immune escape against antibodies, you can have immune escape against T-cell immunity as well.
California man tests positive for COVID-19 weeks after second jab: report
Edmund DeMarche reported that a California man said he was diagnosed with COVID-19 three weeks after he received his second dose of the vaccine, reports said.
CBS Los Angeles reported that Gary Micheal, who lives in Orange County’s Lake Forest, found out he had the virus after being tested for an unrelated health concern. His symptoms are relatively minor, the report said.
He received the Pfizer vaccine, the report said. Patch.com reported that he got his first dose on Dec. 28 and his second jab on Jan. 18.
Dr. Anthony Fauci, the country’s leading infectious-disease scientist, said the latest evidence indicates that the two vaccines being used in the U.S. — Pfizer’s and Moderna’s — are effective even against the new variants.
A doctor interviewed in the CBS report said that he was not surprised to hear about Michael’s diagnosis.
“I think I’ve heard of six or seven independent cases over the last three weeks of individuals that have been vaccinated with different timelines that have tested positive, and I think we’re going to continue to see that more and more,” Dr. Tirso del Junco Jr., chief medical officer of KPC Health, told the station.
Fauci has estimated that somewhere between 70% and 85% of the U.S. population needs to get inoculated to stop the pandemic that has killed close to 470,000 Americans.
And Now Four people in Oregon who received both doses of vaccine test positive for coronavirus
Minyvonne Burke reported that four people in Oregon have tested positive for the coronavirus after receiving both doses of the Covid-19 vaccine, health officials said.
There are two cases each in Yamhill and Lane counties, the state’s Health Authority said in a series of tweets on Friday. The cases are either mild or asymptomatic.
“We are working with our local and federal public health partners to investigate and determine case origin,” the agency said. “Genome sequencing is underway, and we expect results next week.”
The agency referred to the individuals who tested positive as “breakthrough cases,” meaning that they got sick with the virus at least 14 days after receiving both doses.
The Health Authority said more breakthrough cases could pop up.
“Clinical trials of both vaccines presently in use included breakthrough cases. In those cases, even though the participants got Covid, the vaccines reduced the severity of illness,” the agency said in a tweet.
“Based on what we know about vaccines for other diseases and early data from clinical trials, experts believe that getting a Covid-19 vaccine may also help keep you from getting seriously ill even if you do get the virus. … Getting as many Oregonians as possible vaccinated remains a critical objective to ending the pandemic.”
The agency’s announcement came the same day its health officer said there has been a decline of daily Covid-19 cases over the past several weeks. As of Friday, there were 149,576 cases in the state, according to the department’s count.
“These decreases are a testament to the actions all Oregonians are taking to slow the spread of Covid-19 and the sacrifices made – thank you,” health officer Dean Sidelinger said at a news conference Friday.
Another breakthrough case was reported in North Carolina, according to NBC affiliate WCNC-TV in Charlotte. The state’s Department of Health and Human Services told the outlet that the person had mild symptoms and did not need to be hospitalized.
The Centers for Disease Control and Prevention has said that quarantining is not necessary for fully vaccinated people within three months of having received their last doses as long as they do not develop any symptoms.
They do, however, still need to practice certain safety measures such as wearing face masks, social distancing, and avoiding crowds or poorly ventilated spaces.
“Fully vaccinated” means at least two weeks have passed since a person has completed their vaccination series and now we have the addition of the Johnson and Johnson vaccine, which is a single dose with less effectivity but about the same activity of our yearly flu vaccine.
So, as I have said before, continue to wear your masks, whether one, two, three or whatever the number of masks that we are going to be advised with future “scientific” evidence.