Last checked at 
* Pandemic gave Oxford the chance to show vaccine technique
worked
* Dosage breakthrough came by accident: AstraZeneca research
chief
* Validation for scientists who also worked on Ebola, flu,
MERS
* 'Very long year' but unprecedented speed to get efficacy
results
By Alistair Smout, Kate Kelland and Ludwig Burger
LONDON/FRANKFURT Nov 23 (Reuters) - It took Oxford
University's brightest minds decades of work to give them the
expertise to develop a COVID-19 vaccine. In the end, it was a
momentary error - and a dose of good fortune - that carried them
over the line.
The Oxford vaccinologists were exhilarated on Monday when
drugmaker AstraZeneca, with whom they developed the shot,
announced that it could be around 90% effective, citing data
from late-stage trials.
"It can only happen if extraordinary support is provided,"
Adrian Hill, director of Oxford University's Jenner Institute
which developed the shot, told Reuters. "We had pretty well the
whole institute in Oxford working on this vaccine."
While skill and hard work drove development, AstraZeneca
said it was a minor mistake that made the team realise how they
could significantly boost the shot's success rate, to as much as
90% from around 60%: by administering a half dose, followed by a
full dose a month later.
"The reason we had the half dose is serendipity," Mene
Pangalos, head of AstraZeneca's non-oncology research and
development, told Reuters.
The plan was for trial participants in Britain to receive
two full doses, but researchers were perplexed when they noticed
that side effects, such as fatigue, headaches or arm aches were
milder than expected, Pangalos said.
"So we went back and checked ... and we found out that they
had underpredicted the dose of the vaccine by half."
He said the team nonetheless decided to press ahead with
that half dose group, and to administer the second, full dose
booster shot at the scheduled time.
The results showed the vaccine was 90% effective among this
group, while a larger group who had received two full doses
produced an efficacy read-out of 62%, leading to an overall
efficacy of 70% across both dosing patterns, Pangalos said.
"That, in essence, is how we stumbled upon doing half
dose-full dose (group)," he told Reuters. "Yes, it was a
mistake."
The vaccine uses a harmless adenovirus to deliver genetic
material that tricks the human body to produce proteins known as
antigens that are normally found on the coronavirus surface,
helping the immune system develop an arsenal against infection.
Pangalos said more analysis was needed to explain why an
initial lower dose bolstered protection. One possible
explanation was that lower antigen levels to begin with
triggered an overall better immune system build-up, he added.
1991 TO TODAY
Even though good fortune played its part, the development of
what Oxford scientists hailed as "a vaccine for the world" was
built upon 30 years of testing and tweaking of methods.
The adenovirus "viral vector" platform that their candidate
uses has been around since 1991, said Hill of the university's
Jenner Institute.
He had been working with Sarah Gilbert, another
vaccinologist, to fine-tune the technology. This has involved
using a chimpanzee cold virus as the vector to deliver the
instructions, in trials with diseases such as flu, MERS and
Ebola over the last decade. The hope was that it would one day
prove its potential against one or more such deadly diseases.
They turned their attention to the new coronavirus,
SARS-CoV-2, in January. Oxford Vice-Chancellor Louise Richardson
said she was told of Gilbert's work and that it looked promising
for the new coronavirus, but was operating on a shoestring.
The university then offered a million pounds to underwrite
the research until more funding came on board, Richardson told
reporters, which duly arrived when the government and
AstraZeneca became involved in May.
The unprecedented urgency and resources given to Oxford to
prove the platform's effectiveness against COVID-19 meant it
leap-frogged the vaccines against those other pathogens, which
are still in early-stage trials.
Gilbert said the experience with MERS, or Middle East
Respiratory Syndrome, which is caused by a different type of
coronavirus, was especially instructive.
"It showed us that we could make a vaccine with this
technology that would induce good immune responses against the
coronavirus spike protein," she told reporters.
"We'd also been thinking about how to go really quickly when
a new pathogen arises and we need to make a new vaccine. We'd
done some work preparing for that."
2020: 'A VERY LONG YEAR'
Andrew Pollard, head of the Oxford Vaccine Group and a
professor who has spent two decades running clinical trials,
said this experience gave him confidence in the prospects for
Oxford's new vaccine, known initially as ChAdOx1 nCoV-19.
"I think we knew right from the beginning of the year that
if we could go through this development, we may well have
something which can make a difference," Pollard told Reuters.
But there was an issue. Limited interest in Oxford's
vaccines for other pathogens before this year meant they didn't
have the funding to prove the platform's efficacy: until now.
"You either need a massive amount of money, or a pandemic to
bring in that resource, and it's tremendous that we've had this
opportunity to validate that chimpanzee adenovirus technology
for this coronavirus," Hill said.
"If you'd said to me a year ago that in 2020 anybody would
make a vaccine for a global pandemic - and in months rather than
years - I would have thought that was hugely challenging."
Pollard said that while speed of the COVID-19 vaccine's
development was in some ways extraordinary, 2020 had "been a
very long year" since the team started work on the vaccine in
January.
That culminated this past weekend, Pollard said, in having
"an enormous mountain to climb to pull all of the information
together" to be able to issue Monday's data release showing the
vaccine can be up to 90% effective.
"The last few weeks have been pretty exhausting. The feeling
is absolutely one of extreme fatigue and tiredness at this
point," he told Reuters, speaking before he briefed the office
of British Prime Minister Boris Johnson on the findings.
"If the results have not met those regulatory requirements,
they would have told us just to carry on with the trial. So it
was a great relief."
(Reporting and writing by Kate Kelland and Alistair Smout in
London, and Ludwig Burger in Frankfurt; Editing by Pravin Char)
