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The Oxford deal is welcome – but the vaccine is still being trialled


Katie Louise Flanagan


20/08/2020 1:53:12 PM

The Federal Government’s deal is contingent on the current phase 3 trials being successful.

Vaccine vials
The Oxford vaccine has not yet been tested on vulnerable groups, having mainly been tested on young, healthy individuals so far. (Image: AAP)

Prime Minister Scott Morrison announced on Wednesday the Australian Government has signed a letter of intent to procure the University of Oxford’s vaccine for SARS-CoV-2 and to provide it free to all Australians.

All the signs are promising so far, as the vaccine has been shown to provoke an immune response in humans and has not yet caused serious side effects.

But there is a risk the vaccine may not fully protect against COVID-19 in humans. It still needs to pass through phase 3 trials, which are currently recruiting and expecting results at the end of the year. So we cannot get too excited yet.

Importantly, it also has not been tested on vulnerable groups, having mainly been tested so far on young, healthy individuals. It may still produce serious side effects we do not yet know about.

For these reasons, and given there are more than 160 vaccines currently in development, the Federal Government is likely to sign further vaccine supply deals in the future – it doesn’t want all its eggs in one basket.

What is the vaccine?
The candidate vaccine, previously called ChAdOx1 nCoV-19 (now known as AZD1222) , has been developed by University of Oxford researchers and is being tested in human trials in partnership with multi-national pharmaceutical company AstraZeneca, which will also produce and market the vaccine.
 
The vaccine uses a virus that naturally infects chimpanzees, called chimpanzee adenovirus, as a way to carry the gene for the SARS-CoV-2 spike protein into human cells. The human cells then express this gene, producing significant amounts of SARS-CoV-2 spike protein inside the body, which the immune system then produces antibodies against.
 
Because SARS-CoV-2 uses its spike protein to invade human cells, the presence of these antibodies induced by the vaccine should hopefully prevent SARS-CoV-2 from entering and infecting the cells.
 
The vaccine also stimulates the production of T-cells, which may kill infected human cells that have virus hiding inside of them. Importantly, the next time the immune system of a vaccinated person sees the SARS-CoV-2 spike protein, it knows what to do, and generates antibodies and T-cells even faster, showing immunological memory.

Where are the trials up to?
Oxford’s vaccine is one of the frontrunners. It was initially tested in primates, who were vaccinated and then exposed to the virus – with promising results showing decreased amounts of virus (viral load) in their lungs and preventing pneumonia in all the animals studied.

It was then tested in humans, with the results reported in peer-reviewed publications suggesting it is safe and can produce an immune response.

In one study, published in The Lancet in July, 543 healthy adults were immunised with the vaccine. It did not cause any serious or concerning adverse effects, but many people experienced mild symptoms. Around two-thirds experienced pain at the injection site, 70% experienced fatigue, and 68% suffered headaches – although these symptoms are typical of many vaccines. These mild symptoms were relieved for some participants with paracetamol.

The study also found the vaccine stimulated the right kind of immune response, with good levels of neutralising antibodies and T-cells against the spike protein. These results have allowed it to progress to large-scale trials in which thousands of people will be immunised in countries including the UK, Brazil and India.

The most advanced of these trials is in Brazil. The timing of results will partly depend on how quickly volunteers are enrolled into the study, and the extent to which they are then naturally exposed to the virus in the community. Hence trials need to be big and be in countries where the disease is prevalent.

We should know by the end of this year if the vaccine is a success. If it is found to be safe and protective, it can then be licensed.

Oxford-vaccine-hero.jpg
AZD1222 is undergoing phase 3 testing in various countries and could be ready by the end of the year. (Image: AAP)

What are the risks?
Australia’s agreement, signed with AstraZeneca, is a letter of intent, so the deal will only go ahead if the current phase 3 trials show the vaccine does indeed protect against COVID-19.

If it does, Australia will receive the vaccine’s formula and permission to manufacture it on shore. Biotechnology company CSL in Melbourne has had discussions about potentially fully or partially producing the vaccine on shore.

Australia has also struck a deal with US medical technology company Becton Dickinson to supply enough needles and syringes to deliver the vaccine. The Government has pledged to provide the vaccine for free to all Australians.

All the signs are promising thus far, but there is a risk at this stage the vaccine may not protect fully against COVID-19 in humans. Indeed, most new candidate vaccines do not work during the development and testing phases.

However, as there are more than 160 different SARS-CoV-2 candidate vaccines based on diverse technologies in development. With 29 in clinical trials, it is likely some will successfully make it through the pipeline.

There are several other candidate vaccines being tested in Australia, including at the University of Queensland. The Government has also invested in its development financially, though no supply deal has been announced as yet.

It is also important to note that even after phase 3 trials in thousands of people, some vulnerable groups may not respond in the same way to the vaccine as the healthy young adults mostly tested in these trials. Encouragingly, the current phase 3 trials will include some older adults, but other vulnerable people may still require additional tests.

It is great the Australian Government is moving forward with this, but we must also remember the world’s poorer countries and avoid the temptation to indulge in ‘vaccine nationalism’ – rich countries monopolising vaccine stocks at the expense of others.

With this in mind, the COVAX global vaccines facility has been created by the World Health Organization, global vaccine alliance GAVI, and the Coalition for Epidemic Preparedness Innovations. This is an unprecedented global collaboration combining funds from wealthier countries to provide vaccines for low- and middle-income countries throughout the world.

And, thankfully, Australia has made an in-principle commitment to join.

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This article was first published in The Conversation. Read the original article.

The Conversation



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