By Andrew Lee
When the omicron variant first emerged in South Africa in November 2021, there was a lot of alarm at the exponential spread of the infection. This phenomenal speed of spread exceeds what we saw with previous variants. This trend has been mirrored elsewhere in the world, including the UK where the number of infections was doubling every two days in early December. What caused further concern was that this rapid spread was occurring in a highly vaccinated (and therefore theoretically highly immune) population. Was our vaccine protection failing?
On the surface, it appeared that the vaccines were not working. But this depends on how vaccine protection is defined. First, does the vaccine protect against infection? There is now ample evidence that shows the vaccines are not very effective at stopping a vaccinated person from getting infected or from spreading infection. This was graphically illustrated by a superspreading event that took place in the Faroe Islands where 21 out of 33 triple-vaccinated healthcare workers who attended a private gathering caught omicron. This was also despite the fact that several had done a PCR or lateral flow test in the 36 hours before the event.
Some – especially anti-vaxxers – might take this as proof that vaccines don’t work. However, this is not unexpected. Even against the other variants, such as delta, it is known that the vaccines don’t provide “sterilising immunity”, that is, totally preventing infection. Nobody has claimed that the COVID vaccines provide sterilising immunity and it may be an unachievable goal. At best, they offer weak protection against infection. Nonetheless, this weak protection m help slow the spread of infection.
The vaccines do, however, provide excellent protection of a different kind. So far, the vaccines have proven to be very good at preventing severe disease. This protection is just as important, if not more so, as they keep the vast majority of infected people out of hospital and from dying. Against the delta variant, vaccine protection against severe disease and death from COVID was over 90% with relatively little waning of protection over at least five months after two doses.
When omicron was first discovered, there were concerns that the mutations it carried would allow it to escape this vaccine protection. Indeed, data suggests that two doses of either Pfizer or AstraZeneca vaccine provided limited protection against omicron. Thankfully, this vaccine protection was rapidly restored by a booster dose, hence the urgency of getting the population “boostered”.
This is especially important for those who are most vulnerable, such as the elderly, who, compared with the general population, had higher risks of severe COVID to begin with. An elderly person over the age of 80 has over 300-fold increased risk of getting severe COVID compared with an adult under the age of 40. It is also vital not to forget that while omicron may be less severe for the vaccinated, it remains a dangerous infection for the unvaccinated.
The fact that sterilising immunity against COVID does not currently exist probably does call into question whether “herd immunity” will bring an end to the pandemic. The belief here is that when enough people have immunity and this immunity blocks transmission, the virus will die out as there are fewer and fewer people to infect. However, as omicron has shown, reinfections can occur even in highly vaccinated populations such as the UK and Israel. Omicron has been reported to have a higher rate of reinfection than other variants, and five-fold greater compared with delta.
While omicron infections appear to be less severe, the greater infectiousness means many more people are getting infected. Indeed, the UK is seeing its highest infection levels in the past two years. While these may not yet be translating into high levels of admissions to intensive care units, the greater number of patients with less severe disease can still place a lot of pressure on already stretched healthcare services.
On top of that, higher staff sickness levels and staff needing to isolate due to infection add further pressures to the healthcare system. This problem is not limited to just healthcare but across wider society where the high numbers of infections can cause significant disruption. Vaccines are therefore not the only solution. Other protective measures, such as more face mask use, greater testing, and better ventilation, all have an important part to play. The coming weeks promise to be challenging as people return to work and schools after the holidays, which may lead to yet more infections.
Better off than a year ago
But it is not all doom and gloom, and the situation today is certainly much better than a year ago. For many high-income countries that have high immunisation coverage, the pandemic is transitioning gradually towards an endemic situation. At that point, the virus will still be around, but the disease will be more predictable. There will be high levels of population immunity either from vaccination or natural infection that would mean fewer COVID-related hospitalisations and death.
Annual COVID immunisations, particularly for the vulnerable, are likely to be needed to maintain immune protection for them. But, we are not there yet.
Viruses mutate all the time and further COVID variants will probably emerge in the future that can evade immunity and cause reinfections, as happens with the usual human coronaviruses and the seasonal flu. While thankfully omicron appears to be less severe, there remains the risk of further variants emerging that could include a more severe one. Vaccines remain the best bet against them.
Andrew Lee is Professor of Public Health at the University of Sheffield.
Anonymous says
Nice twist. I guess the shot is still protecting the people who got it.
Deborah Coffey says
And, there’s this from the American Medical Association (AMA): “Nevertheless, it is estimated that anywhere from 15% to 80% of patients might experience long COVID after recovering—even if they weren’t very sick in the first place.” The article goes on to explain that your organs may be damaged for the rest of your life and, this goes for children, too.
https://www.ama-assn.org/delivering-care/public-health/what-doctors-wish-patients-knew-about-long-covid
Beachlover says
I had Delta last year, I’m still not afraid of living my life. Stop watching TV and get out and enjoy what is left of your life…
Ray W. says
Yes, people should live their lives as they see fit, complete with vaccinations, boosters, masking wherever appropriate and by spreading accurate information among FlaglerLive readers. After all, none of us knows what time we have left.
Timothy Patrick Welch says
So…
Ya, a vax does not protect from contracting Covid, nor does it eliminate the possibility of transmission to others.
It merely introduces your body to a threat, so your body is better able to fend off an actual viral infection.
Do your part, get vaccinated, wash your hands before touching your face. If you believe masks help by blocking transmission then they should be considered one-time use and treated as potentially infectious waste.
DaleL says
There is considerable misunderstanding as to how the immune system functions and how vaccines work. Vaccines are not like armor. They do not stop a person from being exposed to a disease or normally stop the initial infection. Rather vaccines function to train the immune system to appropriately respond and quickly defeat the infection. This is similar to what happens if a person fully recovers from a natural infection. The difference is that in the case of a natural infection, a percentage of people get very sick and/or die. None of the COVID-19 vaccines can give a person COVID.
Because Omicron is so infectious, people who have previously had and recovered from COVID as well as fully vaccinated are contracting the disease and having symptoms. However, in these people the course of the disease is typically mild. In the case of people who have neither had COVID or been vaccinated, it is yet to be determined whether Omicron is really less dangerous.
This is an airborne disease which is not typically spread outdoors in the daytime. Get vaccinated and boosted. Wear a mask indoors when around strangers when it is possible to do so. (Retired from 30+ years in public health.)