Parent Category: Ideas
Category: Natural Philosophy (Science)
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As we all now know (unless we've been living under a rock) the only way of defeating a pandemic is to achieve 'herd immunity' for the community at large; while strictly quarantining the most vulnerable.

Herd immunity can be achieved by most people in a community catching a virus and suffering the consequences or by vaccination.

It's over two centuries since Edward Jenner used cowpox to 'vaccinate' (from 'vacca' - Latin for cow) against smallpox. Since then medical science has been developing ways to pre-warn our immune systems of potentially harmful viruses using 'vaccines'.

In the last fifty years herd immunity has successfully been achieved against many viruses using vaccination and the race is on to achieve the same against SARS-CoV-2 (Covid-19).

Developing; manufacturing; and distributing a vaccine is at the leading edge of our scientific capabilities and knowledge and is a highly skilled; technologically advanced; and expensive undertaking. Yet the rewards are potentially great, when the economic and societal consequences of the current pandemic are dire and governments around the world are desperate for a solution. 

So elite researchers on every continent have joined the race with 51 vaccines now in clinical trials on humans and at least 75 in preclinical trials on animals.

Viruses, unlike bacteria or other 'germs', reproduce by taking over the reproductive mechanisms of the cells they have evolved to infect.  All reproducing cellular beings like: plants, animals and bacteria are potential hosts to viruses.  Thus, complex multi-cellular life-forms, like humans and other animals, have evolved strategies for dealing with them.  In our case, one of these is our immune system, that once exposed to a particular virus, develops antibodies against it. 

As a result of the way they reproduce, virions (virus particles) are clones of the parent virion. Their survival strategy is to be short lived but very prolific. They are therefore subject to frequent variation as a result of copying errors. Those with errors that destroy their effectiveness simply fail to reproduce but those with errors that enhance their performance become more prolific.  Occasionally these variations, serendipitously, allow a virus to exploit a new host cell altogether and sometimes to jump to a new species of animal, plant or bacteria.  For more on viruses read The Chemistry of Life on this website.

Yet virions are so small that they remained unseen and misunderstood until the first electron microscopes were able to resolve them in the 1930's and it would be another decade before the first safe and effective influenza vaccine would be developed - in 1942. From that time on, novel strains of influenza have become less deadly.

So it's a century since the 'Spanish Flu' killed up to 1% of the world's population. For example, due to regular immunization, influenza kills less than a thousand people in Australia, in a typical year, compared to fifteen times that number in 1919, when the population was just over a fifth of today's.

Recently revised figures put deaths due to the 1918 Spanish Flu in the United States at approximately 675,000, when the population was less than a third of today's. Thus the US death rate is now estimated to have been about 0.65% of the total population. But the US got off lightly compared to some less wealthy and organised countries.

Australia did better than most with about half the US death rate.  As a result of prompt quarantine and opposite seasons, the Spanish Flu was delayed until 1919 and was then controlled by closed State borders; social distancing; and lockdowns. History repeats itself.

In the 1950's, when I was in Primary School, we were still finding our way. Indeed almost all vaccines against viruses that our grandchildren are routinely vaccinated against did not exist when I was a child.

My most memorable vaccination was after lining up at the Thornleigh School of Arts with the other kids from our school in 1955/56 to receive the first of four Salk Vaccine injections against polio. It was quite traumatic as I was once terrified of needles.

 

Thornleigh and School of Arts

 

Thornleigh has changed somewhat since 1955. Both our school (up the hill in the distance in the 1960 photo - above left) and the School of Arts (once on the right side of the road, about 100 metres behind the camera) are long gone. 

Polio had been running rampant around the world and several children at school wore leg callipers or had died as a result. The treatment could involve weeks in an 'Iron Lung' respirator/ventilator.

These days the common viruses that most of us of my vintage once caught like: chicken pox; mumps; and rubella; are rare in vaccinated communities. 

Many viruses do not cause serious disease and some, like those that infect bacteria, may even be helpful. In others, like the highly infectious common cold, the harmful effects are slight and the costs to the community do not warrant the costs of regularly developing; testing and deploying a new vaccine.

As we have done with polio, measles, mumps and so on, herd immunity has been achieved by vaccinating a significant proportion of the population. 

In the case of measles, that is very infectious, around 90% of the population need to have been vaccinated or to have caught the disease. Some other viruses are unable to spread if just half the population has antibodies, as a result of a previous infection or a vaccination.  We still do not know the proportion of the population that will need to have antibodies to prevent the spread of SARS-CoV-2 (Covid-19) but it's in the range 50-70 %.

If we reduce the infection rate sufficiently, worldwide, we can effectively eradicate the virus, as we eventually did with smallpox - after two centuries of effort.  

Now our scientific knowledge has advanced to the point that researchers can disassemble a virion. Yet we have become more cautious when developing vaccines as we also better understand the risks that are inherent in overstimulating our immune response; and the natural variability in response between people. The first three rules of vaccine development are test; test; and test again - a process that typically takes several to many years.

 

The Vaccine Testing Process

PRECLINICAL TESTING: Potential vaccines are first tested on cells and then given to animals, typically mice or monkeys to see if an immune response results.

PHASE 1 SAFETY TRIALS: The vaccine is given to a small number of people to test for safety and dosage and to confirm that it stimulates the immune system.

PHASE 2 EXPANDED TRIALS: The vaccine is tried on hundreds of diverse people to see if the vaccine acts differently in them.

PHASE 3 EFFICACY TRIALS: Thousands of people are vaccinated in double-blind trials (comparing the vaccine to a placebo) to see how many in each group become infected. The US Federal Drug Administration has ruled that a vaccine needs to protect at least 50% of vaccinated people to be considered effective. Phase 3 trials need to be large enough to reveal rare side effects that might have been missed in stages 1 and 2.

APPROVAL: Regulators in each country review the trial results and decide whether to approve the vaccine or not. During a pandemic, a vaccine may receive emergency use authorization before getting formal approval.

EARLY OR LIMITED APPROVAL: Both China and Russia have given limited approval to vaccines without waiting for the results of Phase 3 trials. As a result the efficacy (do they actually work and to what extent) is unproven and  these do not yet have the required WHO accreditation or international licences to progress to mass distribution.

Even though a vaccine is licensed, health systems continue to monitor it, to confirm that it’s both safe and effective.

Source: The New York Times (abridged and augmented)

 

The Phase 3 trial of one leading candidate, the Oxford-AstraZeneca vaccine, was briefly put on hold because of a potentially serious side effect in one volunteer that required further investigation.  No doubt other candidates will suffer similar delays.

The frequent genetic variations that viruses undergo are another potential problem for vaccine designers - as most of us know from seasonal influenza, that requires a modified vaccine to be developed for new strains every year. And when a virus becomes a pandemic other problems arise.

Covid-19 has had a number of separate outbreaks and in each geographical area it has evolved in different directions resulting in a number of different strains. At least one person has caught two different strains that appear to have already diverged sufficiently so that he was not immune to the second strain when exposed.  This is not good news for vaccine developers. But the better news is that, although potentially infectious, he was not ill the second time. On the other hand, this ever-changing genome is useful to contact tracers who now regularly identify the source of each infection by strain, enabling the identification of a leak in quarantine or travel restrictions to the source country or region.

The present race for a vaccine began in January 2020 but there is some evidence that the virus was circulation at a low level for months before the first identified outbreak.

In December 2019 a Chinese doctor had noticed patients suffering from a viral disease circulating in the wet markets in the City of Wuhan and initially thought it was a fresh outbreak of SARS (severe acute respiratory syndrome). As a result the markets were closed on January 1 2020.  By January 5 SARS was ruled out.

On January 7 Chinese researchers warned the World Health Organisation (WHO) that they had identified a new virus named 2019-nCoV. The same day WHO warned relevant health authorities around the World.  

The Chinese simultaneously provided the full genome of the virus to the world's principal reference laboratories including the US-CDC's Respiratory Viruses Diagnostic Laboratory in Atlanta; the Japanese Nagasaki Institute of Tropical Medicine and the Australian Infectious Diseases Reference Laboratory in Melbourne. 

This research and the genomic information was also published in Nature on February 3 2020 (Read here...) and was a starting point for the development of both tests for the virus and for the development of vaccines. The paper has been accessed 412,000 times and has been cited 974 times by subsequent researchers some of whom have disassembled the virus down to its continent proteins and RNA.

 

Coronavirus cutawayThe New York Times has published a detailed map of the virus explaining its building blocks and their function.
To read this click on the above image or go to the attachment below.

 

The initial goal of a vaccine is to stimulate the immune system, in trial volunteers, to produce effective antibodies against the virus, without producing serious side effects.  The vaccine candidate can then be deployed to see if it prevents disease (the adverse symptoms) and/or prevents infection (spread).

There are several current approaches to developing a SARS-CoV-2 vaccine. Again from The New York Times (abridged and augmented)

In addition, it's possible that vaccines already developed for other diseases may provide some protection against Covid-19. The Murdoch Children’s Research Institute in Victoria is conducting a Phase 3 trial called the BRACE to see if the Bacille Calmette-Guérin (BCG) vaccine reduces the severity of Covid-19 in Australian healthcare workers. The well established and proven to be safe vaccine is designed to protect against tuberculosis (TB). However it also boosts immunity to protect against other infections and a BCG vaccination may protect workers against Covid-19 to a, as yet undetermined, degree.

Developing and testing a vaccine is the first challenge. Then comes manufacturing; packaging; distributing; and the vaccination challenges.

[December addendum: A paragraph relating to possible Australian manufacture has been removed as it has been superseded by actual events at CSL]

The Serum Institute of India (SII), the world's largest vaccine manufacturer (by number of doses produced),  is perhaps best placed to manufacture a wide range of vaccines in volume as it already produces up to 60% of the world's vaccines for Polio, Diphtheria, Tetanus, Pertussis, Hib, BCG, r-Hepatitis B, Measles, Mumps and Rubella and has a deal with the Bill & Melinda Gates Foundation to support the SII to manufacture potential vaccine candidates at maximum US$3 per dose, for distribution to to 92 impoverished countries.

In April 2020 President Trump in the US announced 'Operation Warp Speed', a White House initiative to invest billions of dollars in the development of drugs, diagnostics and treatments to combat Covid-19, including the fast-tracking of vaccines.  The preferred method appears to be to pre-purchase hundreds of millions of doses of selected vaccines promising to: Make America Well Again.

Elsewhere, first-world countries are making similar provisions. But this is a pandemic and we can't halt this virus if it's running rampant in the third-world, so a bit of enlightened self-interest is called for.

On balance it appears that with any luck many of us should be lining up for a jab, just as I did back in 1955, in the middle of 2021.

In the meantime, we mere consumers must continue to wait for a vaccine and attempt to stay safe.

Finally there is some good news in Australia.  As a result of social distancing and a greater uptake in flu vaccinations, this year, Covid-19 and influenza combined have killed less than does seasonal influenza alone in a typical year. This could have been significantly better had it not been for of breaches in Covid-19 quarantine in Victoria and subsequent mistakes: from which 89% of all Australian Covid-19 deaths have resulted. Yet at last Victoria seems to have got it back under control. So we are leaning and getting better at this.

 

 


November 2020 Update

 

The main article, above, was published on the 2nd of September. Since then several of the vaccine developers mentioned have released preliminary Phase 3 results that in each case have been very encouraging. The announcement front runners are Pfizer; Moderna; and Sputnik V with several others not far behind, including the University of Oxford/AstraZeneca vaccine that is of importance to Australia.

The Australian Government has made deals for four different COVID-19 vaccines from: Pfizer; Novavax; the University of Queensland (UQ); [December addendum: now withdrawn -see above] and the University of Oxford/AstraZeneca.

Earlier this month the Australian company CSL began production of the University of Oxford/AstraZeneca vaccine, awaiting confirmation of trials in the UK and elsewhere, that are needed for certification. The good news being that it is easily distributed; seems to be safe; offer good protection; and to work well on the elderly.

I the past few days, South Australia discovered a quarantine breach but seems to have limited the impact to a handful - all contact traced and tested. The only other places where there are active cases in Australia are in the quarantine hotels. So far there have been 907 deaths due to COVID-19 in Australia, 819 of these in Victoria, that is now out of lock-down with no new deaths this month.

While safety can still be tested this makes further trials in Australia next to useless to test for efficacy. The double-blind process involves thousands of volunteers only half of who receive the real vaccine and the other half a placebo such that those giving and receiving the injection do not know which is which. Hopefully a large number will then go about and serendipitously get infected. When there are a significant number of infected patients among the volunteers the secret of who got the vaccine can then be revealed and it is hoped that all or most the severe cases were among the placebo group. But it is obviously unethical to deliberately infect the participants as a small proportion of the placebo group are likely to be killed as a result. So testing has to be done where there are high numbers of cases, for example: in the UK, that has amongst the highest rates of infection in the world.

Like Sputnik V the Pfizer vaccine must be stored at very low temperature. Reportedly this could be a potential problem for Australia as the only local vaccine manufacturer, CSL, is presently unable to manufacture an mRNA vaccine and the requirement for very low temperature transport and distribution could be an issue.

Even in the case of a more robust vaccine there is a huge logistics challenge. To achieve 'herd immunity' using a vaccine will require between 62% and 78% of the population to be inoculated in addition to anyone at particular risk of being exposed - like healthcare and tourism workers and international travellers. This translates to a minimum of 15.5 million Australians. Given our willingness to embrace vaccination and well organised universal health services it's doable. But it will take some time, certainly well into next year or even the next.

When the first vaccine is certified the question then becomes: 'who will be lining up for a COVID-19 vaccination?'

My own 'pub test' observations in Sydney have been that most, if not all, of my acquaintances will line up as soon as a vaccine is available (presumably free - covered by Medicare). Yet despite this I know that a small minority of Australians, like those that live around Byron Bay who are already objecting to the immunisation of their children before school, may refuse.

Other countries have a much greater challenge, particularly where there is significant resistance to vaccination. 

Apparently, despite almost 2,000 deaths each day and rising, based on a recent poll, over 130 million Americans will refuse vaccination.

The latest GALLUP POLL on American willingness to receive a vaccination against COVID-19 indicates that 42% now say that they would not be willing to accept a vaccine when it becomes available. This is worse than mid year when two thirds said they would.

Less than 60% is well below the proportion needed to get the pandemic under control; to eliminate more deaths and thus repeated lock-downs. So more Americans need to be persuaded to accept a jab or two if the slaughter is not to continue.

Of those Americans who say they would not get vaccinated most gave the rushed timeline for the development as the main reason.  Another 26% say they may be vaccinated but want to wait to confirm the vaccine is safe.

Increased hesitancy was most evident among Democratic respondents, over half attributing their loss of confidence in the process to rhetoric around operation 'Warp Speed' and undue haste that they perceived to be about getting President Trump re-elected. This was particularly notable among Black Americans who, paradoxically, are among the hardest hit.

 

GallupPoll vaccine acceptance

 

 

Confusingly President Trump has spoken out against the two media front runners: Pfizer and Moderna, alleging that they deliberately 'went slow' to injure his electoral chances. 

Both Pfizer and Moderna have been at pains to deny this was the case, particularly as they made several announcements prior to the election and both are several years ahead of a normal development timeframe. Pfizer has also pointed out that it was well underway weeks before 'Warp Speed' was announced.

Notwithstanding a greater proportion who have lost confidence Democrats as a group are still significantly more likely to get vaccinated than Republicans. 

In addition to those who are concerned by the rushed timeline around one in five Republicans distrust vaccines in general, a view shared by many independents.

Yet the alternative of refusing vaccination and waiting to catch it is not a good option. Best estimates suggest that, even with COVID-19 running rampant, something less than a tenth of the US population has so far been exposed. Nine tenths to go and over a quarter of a million dead to date.

So why are so many Americans opposed to vaccination?

The most obvious reason is religious fundamentalism, a contagion of the mind that's turning out to be more deadly than any single virus or bacterium.  

The New York Times has articles on the relationship between anti-vaxxers and religious fundamentalism going back over decades - dating back as far as the polio epidemic. For example, they were again worried on March 9, 2019, before the present pandemic, “The Real Horror of the Anti-Vaxxers (This isn’t just a public health crisis. It’s a public sanity one)”.

THE LANCET also recently published an article on anti-vaxxers and the contribution of social media: “The online anti-vaccine movement in the age of COVID-19” that raises the alarm and also references a more technical paper in Nature: “The online competition between pro- and anti-vaccination views” that concluded that “although smaller in overall size, anti-vaccination clusters manage to become highly entangled with undecided clusters in the main online network, whereas pro-vaccination clusters are more peripheral”.

So on-line it’s the extreme right like: QAnon; the Bible/Tora and Koran spruiking zealots; cults like Falun Gong; and the 'loony left': those, who believe in the power of crystals; that radiation caused viruses; and conspiracies by Big Pharma or Microsoft.

In the end it’s about a lack of education in science. Without it there’s nothing but blind faith in whichever influencer; shock-jock; Preacher; or Guru takes one’s fancy. So don’t take my word for it either - do a little research (confirmed by reputable scientific journals - not on unaccredited social Media).

Weigh everything.

 

 

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