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It was a constant refrain from health officials after the coronavirus vaccines were authorised: these shots are all equally effective, so take whichever you are offered. That has turned out not to be true.
About 5.1 million doses of the Pfizer-BioNTech vaccine have been dispensed so far in the Republic of Ireland, compared with about 570,000 of Moderna's vaccine. (In the United States, about 221 million Pfizer-BioNTech doses have been dispensed, against about 150 million Moderna doses.) In a half-dozen studies published over the past few weeks, the Moderna jab appears to be more protective over the long term than the Pfizer-BioNTech jab.
American research published on Friday by the Centers for Disease Control and Prevention found that the efficacy of the Pfizer-BioNTech vaccine against hospitalisation fell from 91 per cent to 77 per cent four months after the second shot. The Moderna vaccine showed no decline over the same period.
Our baseline assumption is that the mRNA vaccines are functioning similarly, but then you start to see a separation
If the efficacy gap continues to widen, it may have implications for the use of booster shots. Federal agencies this week are evaluating the need for a third shot of the Pfizer-BioNTech vaccine for some high-risk groups, including older adults.
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Scientists who were initially sceptical of the reported differences between the Moderna and Pfizer-BioNTech vaccines have slowly become convinced that the disparity is small but real.
"Our baseline assumption is that the mRNA vaccines are functioning similarly, but then you start to see a separation," says Natalie Dean, a biostatistician at Emory University in Atlanta. "It's not a huge difference, but at least it's consistent."
But the discrepancy is small and the real-world consequences uncertain, because both vaccines are still highly effective at preventing severe illness and hospitalisation, she and others caution.
"Yes, likely a real difference, probably reflecting what's in the two vials," says John Moore, a virus expert at Weill Cornell Medicine in New York. "But, truly, how much does this difference matter in the real world? It's not appropriate for people who took Pfizer to be freaking out that they got an inferior vaccine."
Even in the original clinical trials of the three vaccines eventually authorised in the United States – made by Pfizer-BioNTech, Moderna and Johnson & Johnson – it was clear that the J&J vaccine had a lower efficacy than the other two. Research since then has borne out that trend, although J&J announced this week that a second dose of its vaccine boosts its efficacy to levels comparable to the others. (Originally, 2.1 million doses of the J&J vaccine were scheduled for delivery this year, but it suffered supply issues and was then phased out by the HSE in favour of the Pfizer jab.)
The Pfizer-BioNTech and Moderna vaccines rely on the same mRNA platform, and in the initial clinical trials they had remarkably similar efficacy against symptomatic infection: 95 per cent for Pfizer-BioNTech and 94 per cent for Moderna. This was in part why they were described as more or less equivalent.
The subtleties emerged over time. The vaccines have never been directly compared in a carefully designed study, so the data indicating that effects vary are based mostly on observations.
Results from those studies can be skewed by any number of factors, including the location, the age of the population vaccinated, when they were immunised and the timing between the doses, Dean says.
A few studies found that the levels of antibodies produced by the Pfizer-BioNTech vaccine were a third to a half those produced by the Moderna vaccine
For example, in the United States the Pfizer-BioNTech vaccine was rolled out weeks before Moderna’s to priority groups – older adults and healthcare workers. Immunity wanes more quickly in older adults, so a decline observed in a group consisting mostly of older adults may give the false impression that the protection from the Pfizer-BioNTech vaccine falls off quickly.
Given those caveats, "I'm not convinced that there truly is a difference," says Dr Bill Gruber, a senior vice-president at Pfizer. "I don't think there's sufficient data out there to make that claim."
But by now the observational studies have delivered results from a number of locations – Qatar, the Mayo Clinic in Minnesota, several other states in the United States – and in healthcare workers, hospitalised veterans or the general population.
Moderna’s efficacy against severe illness in those studies ranged from 92 per cent to 100 per cent. Pfizer-BioNTech’s numbers trailed by 10 to 15 percentage points.
The two vaccines have diverged more sharply in their efficacy against infection. Protection from both waned over time, particularly after the arrival of the Delta variant, but the Pfizer-BioNTech vaccine’s values fell lower. In two of the recent studies, the Moderna vaccine did better at preventing illness by more than 30 percentage points.
A few studies found that the levels of antibodies produced by the Pfizer-BioNTech vaccine were a third to a half those produced by the Moderna vaccine. Yet that decrease is trivial, Moore says. For comparison, there is a more than 100-fold difference in the antibody levels among healthy individuals.
Still, other experts say that the corpus of evidence points to a disparity that would be worth exploring, at least in people who respond weakly to vaccines, including older adults and immunocompromised people.
"At the end of the day, I do think there are subtle but real differences between Moderna and Pfizer," says Dr Jeffrey Wilson, an immunologist and physician at the University of Virginia in Charlottesville, who was a co-author of one such study, published in Jama Network Open this month. "In high-risk populations, it might be relevant. It'd be good if people took a close look."
“Pfizer is a big hammer,” Wilson adds, but “Moderna is a sledgehammer.”
Several factors might underlie the divergence. The vaccines differ in their dosing and in the time between the first and second doses.
Ultimately, both vaccines are still holding steady against severe illness and hospitalisation, especially in people younger than 65
Vaccine manufacturers would typically have enough time to test a range of doses before choosing one – and they have done such testing for their trials of the coronavirus vaccine in children.
But in the midst of a pandemic last year, the companies had to guess at the optimal dose. Pfizer went with 30 micrograms, Moderna with 100.
Moderna’s vaccine relies on a liquid nanoparticle, which can deliver the larger dose. And the first and second shots of that vaccine are staggered by four weeks, compared with three in the US for the Pfizer-BioNTech vaccine.
The extra week may give immune cells more time to proliferate before the second dose, says Dr Paul Burton, Moderna's chief medical officer. "We need to keep studying this and to do more research, but I think it's plausible."
Moderna’s team recently showed that a half-dose of the vaccine still sent antibody levels soaring. Based on that data, the company asked the US Food and Drug Administration this month to authorise 50 micrograms, the half-dose, as a booster shot.
There is limited evidence showing the effect of that dose, and none on how long the higher antibody levels might last. US federal regulators are reviewing Moderna’s data to determine whether the available data are sufficient to authorise a booster shot of the half-dose.
Ultimately, both vaccines are still holding steady against severe illness and hospitalisation, especially in people younger than 65, Moore says.
Scientists had initially hoped that the vaccines would have an efficacy of 50 per cent or 60 per cent. "We would have all seen that as great result and been happy with it," he says. "Fast-forward to now, and we're debating whether 96.3 per cent vaccine efficacy for Moderna versus 88.8 per cent for Pfizer is a big deal." – This article originally appeared in The New York Times
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