Oxford–AstraZeneca COVID-19 vaccine

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File:Oxford AstraZeneca COVID-19 vaccine AZD1222 - 4.jpg
A vial of COVID-19 Vaccine AstraZeneca
Vaccine description
Target disease SARS-CoV-2
Type ?
Clinical data
Trade names Vaxzevria,[4] Covishield[12][13]
Licence data EMA:Link, US Daily Med:link
Pregnancy
category
Legal status
  • AU: S4 (Prescription only) [1]
  • CA: Schedule D; Authorized by interim order [2][3]
  • UK: Conditional and temporary authorisation to supply [7][8]
  • EU: Conditional marketing authorisation [4][5][6]
  • KR, BR – Approved[9][10]
Full list : List of Oxford–AstraZeneca COVID-19 vaccine authorizations
Routes of
administration
Intramuscular
Identifiers
CAS Number 2420395-83-9
ATC code None
DrugBank DB15656
UNII B5S3K2V0G8
KEGG D12115

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The Oxford–AstraZeneca COVID-19 vaccine, codenamed AZD1222,[15] and sold under the brand names Covishield[17] and Vaxzevria[4][18] among others, is a viral vector vaccine for prevention of COVID-19. Developed by Oxford University and AstraZeneca, it is given by intramuscular injection, using as a vector the modified chimpanzee adenovirus ChAdOx1.[19][20][21][22] Studies carried out in 2020 showed that the efficacy of the vaccine is 76.0% at preventing symptomatic COVID-19 beginning at 22 days following the first dose and 81.3% after the second dose.[23] Another analysis showed that, for symptomatic COVID-19 infection after the second dose, the vaccine is 66% effective against the Alpha variant (lineage B.1.1.7), and 60% against the Delta variant (lineage B.1.617.2).[24]

The vaccine has a good safety profile, with side effects including injection-site pain, headache, and nausea, all generally resolving within a few days.[25] More rarely, anaphylaxis may occur (the UK Medicines and Healthcare products Regulatory Agency (MHRA) has 268 reports out of some 21.2 million vaccinations as of 14 April 2021).[25] In very rare cases (around 1 in 100,000 people) the vaccine has been associated with an increased risk of blood clots in combination with low levels of blood platelets.[26][27][28] According to the European Medicines Agency as of 4 April 2021, 222 cases of blood clots have been reported from the European Economic Area and the UK, where around 34 million people have received the vaccine.[29]

On 30 December 2020, the vaccine was first approved for use in the UK vaccination programme,[8][30][31] and the first vaccination outside of a trial was administered on 4 January 2021.[32] The vaccine has since been approved by several medicine agencies worldwide, such as the European Medicines Agency (EMA),[4][6] and the Australian Therapeutic Goods Administration,[1] and was approved for an Emergency Use Listing by the World Health Organization (WHO).[33] Some countries have limited its use to elderly people at higher risk for severe COVID-19 illness due to concerns over the very rare side effects of the vaccine in younger individuals.[34]

Medical uses

The Oxford–AstraZeneca COVID‑19 vaccine is used to provide protection against infection by the SARS-CoV-2 virus in order to prevent COVID-19 in adults aged 18 years and older.[4] The medicine is administered by two 0.5 ml (0.017 US fl oz) doses given by intramuscular injection into the deltoid muscle (upper arm). The initial course consists of two doses with an interval of 4 to 12 weeks between doses. The World Health Organization (WHO) recommends an interval of 8 to 12 weeks between doses for optimal efficacy. There is no evidence that a third booster dose dose is needed.[35]

Effectiveness

Effectiveness by disease severity[lower-alpha 1]
Variant Two doses One dose
Asymptomatic Symptomatic Hospitalization Asymptomatic Symptomatic Hospitalization
Alpha 73% (6678%)[37] 81% (7287%)[37] 86% (5396%)[lower-alpha 2] 37% (3242%)[37] 39% (3245%)[37] 76% (6185%)[lower-alpha 2]
Beta Not reported 10% (−77 to 55%)[lower-alpha 3] Not reported Not reported Not reported Not reported
Gamma Not reported Not reported Not reported Not reported Not reported Not reported
Delta 60% (5366%)[37] 61% (5170%)[37] 92% (7597%)[lower-alpha 2] 18% (925%)[37] 33% (2341%)[37] 71% (5183%)[lower-alpha 2]

Preliminary data from a real-world study in Botucatu in Brazil, where the Gamma variant predominates, found a 71% reduction in symptomatic cases after 81% of the population received the first dose.[41]

Contraindications

The Oxford–AstraZeneca COVID-19 vaccine should not be administered to people who have had capillary leak syndrome.[42]

Adverse effects

The most common side effects in the clinical trials were usually mild or moderate and got better within a few days after vaccination.[28]

Vomiting, diarrhoea, swelling, redness at the injection site and low levels of blood platelets occurred in less than 1 in 10 people.[28] Enlarged lymph nodes, decreased appetite, dizziness, sleepiness, sweating, abdominal pain, itching and rash occurred in less than 1 in 100 people.[28]

In very rare cases (around 1 in 100,000 people) the vaccine can lead to blood clots in combination with low levels of blood platelets.[26] The UK MHRA as of 14 April 2021 report an overall case incidence of thromboembolic events with concurrent low platelets of 7.9 per million doses (less than 1 in 100,000 people).[25]

As with other vaccines, anaphylaxis and other allergic reactions are a known side effect of ADZ1222 that should be given under close supervision.[43][28] The European Medicines Agency (EMA) has assessed 41 cases of anaphylaxis from around 5 million vaccinations in the United Kingdom.[43][44]

Capillary leak syndrome is a possible side effect of the vaccine.[42]

Pharmacology

The Oxford–AstraZeneca COVID-19 vaccine is a replication-deficient simian adenovirus vector, containing the full‐length codon‐optimised coding sequence of SARS-CoV-2 spike protein along with a tissue plasminogen activator (tPA) leader sequence.[45][46]

The adenovirus is called replication-deficient because some of its essential genes were deleted and replaced by a gene coding for the spike protein. Following vaccination, the adenovirus vector enters the cells and releases its genes, which are transported to the cell nucleus; thereafter the cell's machinery does the transcription into mRNA and the translation into proteins.[47]

The protein of interest is the spike protein, an external protein that enables the SARS-type coronavirus to enter cells through the enzymatic domain of ACE2.[48] Producing it following vaccination will prompt the immune system to attack the coronavirus through antibodies and T-cells if it later infects the body.[14]

Manufacturing

File:Oxford AstraZeneca vaccine (Indian version) 2021 C.jpg
A vial of the Oxford-AstraZeneca COVID-19 vaccine that is locally produced in the Serum Institute of India (SII) as "Covishield" COVID-19 vaccine[13]

The vaccine is stable at refrigerator temperatures and costs around US$3 to US$4 per dose.[49] On 17 December 2020, a tweet by the Belgian Budget State Secretary revealed that the European Union (EU) would pay €1.78 (US$2.16) per dose, The New York Times suggesting the lower price might relate to factors including investment in vaccine production infrastructure by the EU.[50]

As of March 2021 the vaccine active substance (ChAdOx1-SARS-COV-2) is being produced at several sites worldwide,[51] with AstraZeneca claiming to have established 25 sites in 15 countries.[52] The UK sites are Oxford and Keele with bottling and finishing in Wrexham.[51] Other sites include the Serum Institute of India at Pune.[51] The Halix site at Leiden was approved by the EMA on 26 March 2021, joining three other sites approved by the EU.[53]

History

The vaccine arose from a collaboration between Oxford University's Jenner Institute and Vaccitech, a private company spun off from the university, with financing from Oxford Sciences Innovation, Google Ventures, and Sequoia Capital, among others.[54] The first batch of the COVID-19 vaccine produced for clinical testing was developed by Oxford University's Jenner Institute and the Oxford Vaccine Group in collaboration with Italian manufacturer Advent Srl located in Pomezia.[55] The team is led by Sarah Gilbert, Adrian Hill, Andrew Pollard, Teresa Lambe, Sandy Douglas and Catherine Green.[56][55]

Early development

In February 2020, the Jenner Institute agreed a collaboration with the Italian company Advent Srl for the production of a batch of 1,000 doses of a vaccine candidate for clinical trials.[57] Originally, Oxford intended to donate the rights to manufacture and market the vaccine to any drugmaker who wanted to do so, but after the Gates Foundation urged Oxford to find a large company partner to get its COVID-19 vaccine to market, the university backed off of this offer in May 2020.[58][59][60] The UK government then encouraged Oxford to work with AstraZeneca, a company based in Europe, instead of Merck & Co., a US-based company (The Guardian reported the initial partner was the German-based Merck Group instead).[61] Government ministers also had concerns that a vaccine manufactured in the US would not be available in the UK, according to anonymous sources in The Wall Street Journal. Financial considerations at Oxford and spin-out companies may have also played a part in the decision to partner with AstraZeneca.[62][63]

An initially not-for-profit licencing agreement was signed between the university and AstraZeneca PLC, in May 2020, with 1 billion doses of potential supply secured, with the UK reserving access to the initial 100 million doses. Furthermore, the US reserved 300 million doses, as well as the authority to perform Phase III trials in the US. The collaboration was also granted GB£68m of UK government funding, and US$1.2bn of US government funding, to support the development of the vaccine.[64] In June 2020, the US National Institute of Allergy and Infectious Diseases (NIAID) confirmed that the third phase of trials for the vaccine would begin in July 2020.[65] On 4 June, AstraZeneca announced that the COVAX program for equitable vaccine access managed by the WHO and financed by CEPI and Gavi had spent $750m to secure 300 million doses of the vaccine to be distributed to low-income or under-developed countries.[66][67]

Clinical trials

In July 2020, AstraZeneca partnered with IQVIA to accelerate the timeframe for clinical trials being planned or conducted in the US.[68] On 31 August, AstraZeneca announced that it had begun enrollment of adults for a US-funded, 30,000-subject late-stage study.[69]

Clinical trials for the vaccine candidate were halted worldwide on 8 September, as AstraZeneca investigated a possible adverse reaction which occurred in a trial participant in the UK.[70][71] Trials were resumed on 13 September after AstraZeneca and Oxford, along with UK regulators, concluded it was safe to do so.[72] AstraZeneca was later criticised for refusing to provide details about potentially serious neurological side effects in two trial participants who had received the experimental vaccine in the UK.[73] While the trials resumed in the UK, Brazil, South Africa, Japan[74] and India, the US did not resume clinical trials of the vaccine until 23 October.[75] This was due to a separate investigation by the Food and Drug Administration surrounding a patient illness that triggered a clinical hold, according to the US Department of Health and Human Services (HHS) Secretary Alex Azar.[76]

The results of the COV002 phase II/III trial showed that immunity lasts for at least one year after a single dose.[77][unreliable medical source?]

Results of Phase III trial

On 23 November 2020, the first interim data was released by Oxford University and AstraZeneca from the vaccine's ongoing Phase III trials.[14][78] The interim data reported a 70% efficacy, based on combined results of 62% and 90% from different groups of participants who were given different dosages. The decision to combine results from two different dosages was met with criticism from some who questioned why the results were being combined.[79][80][81] AstraZeneca responded to the criticism by agreeing to carry out a new multi-country trial using the lower dose, which had led to the 90% claim.[82]

The full publication of the interim results from four ongoing Phase III trials on 8 December allowed regulators and scientists to begin evaluating the vaccine's efficacy.[83] The December report showed that at 21 days after the second dose and beyond, there were no hospitalisations or severe disease in those who received the vaccine, compared to 10 cases in the control groups. The rate of serious adverse events was balanced between the active and control groups, which suggested that the active vaccine did not pose safety concerns beyond a rate experienced in the general population. One case of transverse myelitis was reported 14 days after the second-dose was administered as being possibly related to vaccination, with an independent neurological committee considering the most likely diagnosis to be of an idiopathic, short-segment, spinal cord demyelination. The other two cases of transverse myelitis, one in the vaccine group and the other in the control group, were considered to be unrelated to vaccination.[83]

A subsequent analysis, published on 19 February 2021, showed an efficacy of 76.0% at preventing symptomatic COVID-19 beginning at 22 days following the first dose, increasing to 81.3% when the second dose is given 12 weeks or more after the first.[23] However, the results did not show any protection against asymptomatic COVID-19 following only one dose.[23] Beginning 14 days following timely administration of a second dose, with different duration from the first dose depending on trials, the results showed 66.7% efficacy at preventing symptomatic infection, and the UK arm (which evaluated asymptomatic infections in participants) was inconclusive as to the prevention of asymptomatic infection.[23] Efficacy was higher at greater intervals between doses, peaking at around 80% when the second dose was given at 12 weeks or longer after the first.[23] Preliminary results from another study with 120 participants under 55 years of age showed that delaying the second dose by up to 45 weeks increases the resulting immune response and that a booster (third) dose given at least six months later produces a strong immune response. A booster dose may not be necessary, but it alleviates concerns that the body would develop immunity to the vaccine's viral vector, which would reduce the potency of annual inoculations.[84]

On 22 March 2021, AstraZeneca released interim results from the phase III trial conducted in the US that showed efficacy of 79% at preventing symptomatic COVID-19 and 100% efficacy at preventing severe disease and hospitalisation.[85] The next day, the National Institute of Allergy and Infectious Diseases (NIAID) published a statement countering that those results may have relied on "outdated information" that may have provided an incomplete view of the efficacy data.[86][87][88][89] AstraZeneca later revised its efficacy claim to be 76% after further review of the data.[90]

Single dose effectivess

A study on the effectiveness of a first dose of the Pfizer–BioNTech or Oxford–AstraZeneca COVID-19 vaccines against COVID-19 related hospitalisation in Scotland was based on a national prospective cohort study of 5.4 million people. Between 8 December 2020 and 15 February 2021, 1,137,775 participants were vaccinated in the study, 490,000 of whom were given the Oxford–AstraZeneca vaccine. The first dose of the Oxford–AstraZeneca vaccine was associated with a vaccine effect of 94% for COVID-19-related hospitalisation at 28–34 days post-vaccination. Combined results (all vaccinated participants, whether Pfizer–BioNTech or Oxford–AstraZeneca) showed a significant vaccine effect for prevention of COVID-19-related hospitalisation, which was comparable when restricting the analysis to those aged ≥80 years (81%). The majority of the participants over the age of 65 were given the Oxford–AstraZeneca vaccine.[91]

Nasal spray

On 25 March 2021, the University of Oxford announced the start of a phase I clinical trial to investigate the efficacy of an intranasal spray method.[92][93]

Approvals

     Full authorization

     Emergency authorization      Eligible COVAX recipient

     Usage stopped

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The first country to issue a temporary or emergency approval for the Oxford–AstraZeneca vaccine was the UK. The Medicines and Healthcare products Regulatory Agency (MHRA) began a review of efficacy and safety data on 27 November 2020,[94] followed by approval for use on 30 December 2020, becoming the second vaccine approved for use in the national vaccination programme.[95] The BBC reported that the first person to receive the vaccine outside of clinical trials was vaccinated on 4 January 2021.[32]

The European Medicines Agency (EMA) began review of the vaccine on 12 January 2021, and stated in a press release that a recommendation could be issued by the agency by 29 January, followed by the European Commission deciding on a conditional marketing authorisation within days.[96] On 29 January 2021, the EMA recommended granting a conditional marketing authorisation for AZD1222 for people 18 years of age and older,[4][5] and the recommendation was accepted by the European Commission the same day.[6][97] Prior to approval across the EU, the Hungarian regulator unilaterally approved the vaccine instead of waiting for EMA approval.[98]

On 30 January 2021, the Vietnamese Ministry of Health approved the AstraZeneca vaccine for use, becoming the first vaccine to be approved in Vietnam.[99] The vaccine has since been approved by a number of non-EU countries, including Argentina,[100] Bangladesh,[101] Brazil,[102] the Dominican Republic,[103] El Salvador,[104] India,[105][106] Malaysia,[107] Mexico,[108] Nepal,[109] Pakistan,[110] the Philippines,[111] Sri Lanka,[112] and Taiwan[113] regulatory authorities for emergency usage in their respective countries.

South Korea granted approval of the AstraZeneca vaccine on 10 February 2021, thus becoming the first vaccine to be approved for use in that country. The regulator recommended the two-shot regimen be used in all adults, including the elderly, noting that consideration is needed when administering the vaccine to individuals over 65 years of age due to limited data from that demographic in clinical trials.[114][115] On the same day, the World Health Organization (WHO) issued interim guidance and recommended the AstraZeneca vaccine for all adults, its Strategic Advisory Group of Experts also having considered use where variants were present and concluded there was no need not to recommend it.[116]

Later in February, the government and regulatory authorities in Australia (16 February 2021)[1][11] and Canada (26 February 2021) granted approval for temporary use of the vaccine.[117]

Suspensions

South Africa

On 7 February 2021, the vaccine rollout in South Africa was suspended. Researchers from the University of the Witwatersrand released interim, non-peer-reviewed data that suggested the AstraZeneca vaccine provided minimal protection against mild or moderate disease infection among young people.[118][119] The BBC reported on 8 February 2021 that Katherine O'Brien, director of immunisation at the WHO, felt it was "really plausible" the AstraZeneca vaccine could have a "meaningful impact" on the Beta variant (lineage B.1.351), particularly in preventing serious illness and death.[120] The same report also indicated the Deputy Chief Medical Officer for England Jonathan Van-Tam said the Witwatersrand study did not change his opinion that the AstraZeneca vaccine was "rather likely" to have an effect on severe disease from the Beta variant.[120] The South African government subsequently cancelled the use of the AstraZeneca vaccine.[121]

Europe

On 3 March 2021, Austria suspended the use of one batch of vaccine after two persons suffered blood clots after vaccination, one of whom died.[122] In total, four cases of blood clots have been identified in the same batch of 1 million doses.[122] Although no causal link with vaccination has been shown,[123] several other countries, including Denmark,[124] Norway,[124] Iceland,[124] Bulgaria,[125] Ireland,[126] Italy,[123] Spain,[127] Germany,[128] France, the Netherlands[129] and Slovenia[130] also halted the vaccine rollout over the following days while waiting for the EMA to finish a safety review triggered by the cases.[citation needed]

In April 2021, the EMA concluded its safety review and concluded that unusual blood clots with low blood platelets should be listed as very rare side effects while reaffirming the overall benefits of the vaccine.[29][131][43][44] Following this announcement EU countries have resumed use of the vaccine with some limiting its use to elderly people at higher risk for severe COVID-19 illness.[34][132]

On 11 March 2021, the Norwegian government temporarily suspended the vaccine's use, awaiting more information regarding potential adverse effects. Then, on 15 April, the Norwegian Institute of Public Health recommended to the government to permanently suspended vaccination with AstraZeneca due to the "rare but severe incidents with low platelet counts, blood clots, and haemorrhages," since in the case of Norway, "the risk of dying after vaccination with the AstraZeneca vaccine would be higher than the risk of dying from the disease, particularly for younger people."[133] At the same time, the Norwegian government announced their decision to wait for a final decision and to establish an expert group to provide a broader assessment on the safety of the AstraZeneca and Janssen vaccines.[134][135] On 10 May, the expert committee also recommended suspending the use of both vaccines.[136] Finally, on 12 May —two months after the initial suspension— the Prime Minister of Norway announced that the government decided to completely remove the AstraZeneca vaccine from the Norwegian Coronavirus Immunisation Programme, and people who have had the first will be offered another coronavirus vaccine for their second dose.[137][138][133]

On 30 March 2021, the German Ministry of Health announced that the use of the vaccine in people aged 60 and below should be the result of a recipient-specific discussion,[139] and that younger patients could still be given the AstraZeneca vaccine, but only "at the discretion of doctors, and after individual risk analysis and thorough explanation".[139]

On 14 April, the Danish Health Authority indefinitely suspended use of the vaccine.[140][141][142] The Danish Health Authority said that it had other vaccines available, and that the next target groups being a lower-risk population had to be "[weighed] against the fact that we now have a known risk of severe adverse effects from vaccination with AstraZeneca, even if the risk in absolute terms is slight."[142]

Canada

On 29 March 2021, Canada's National Advisory Committee on Immunization (NACI) recommended that distribution of the vaccine be suspended for patients below the age of 55; NACI chairwoman Caroline Quach-Thanh stated that the risk of blood clots was higher in younger patients, and that NACI needed to "evolve" its recommendations as new data becomes available. Most Canadian provinces subsequently announced that they would follow this guidance.[143][144][145] As of 20 April 2021 there had been three confirmed cases of blood clotting tied to the vaccine in Canada, out of over 700,000 doses administered in the country.[146][147][148]

Beginning 18 April, amid a major third wave of the virus, several Canadian provinces announced that they would backtrack on the NACI recommendation and extend eligibility for the AstraZeneca vaccine to residents as young as 40 years old, including Alberta, British Columbia, Ontario, and Saskatchewan. Quebec also extended eligibility to residents 45 and older.[149][150][151] The NACI guidance is a recommendation which does not affect the formal approval of the vaccine by Health Canada for all adults over 18; it stated on 14 April that it had updated its warnings on the vaccine as part of an ongoing review, but that "the potential risk of these events is very rare, and the benefits of the vaccine in protecting against COVID-19 outweigh its potential risks."[152]

On 23 April, citing the current state of supplies for mRNA-based vaccines and new data, NACI issued a recommendation that the vaccine can be offered to patients as young as 30 years old if benefits outweigh the risks, and the patient "does not wish to wait for an mRNA vaccine".[153]

Beginning 11 May, multiple provinces announced that they would suspend use of the AstraZeneca vaccine once again, citing either supply issues or the blood clotting risk. Some provinces stated that they planned to only use the AstraZeneca vaccine for second doses, and NACI is also investigating efficacy of a mixed-dose regimen with a second vaccine.[154][155][156]

Indonesia

In mid-March, Indonesia halted the rollout of the vaccine while awaiting more safety guidance from the World Health Organization,[157] and then resumed using the vaccine on 19 March.[158]

Australia

On 17 June 2021, Australia revised its recommendations for the rollout of the vaccine to people under the age of 60, recommending that the Pfizer Comirnaty vaccine be used instead where people aged under 60 years have not already received a first dose of AstraZeneca COVID-19 vaccine. The AstraZeneca COVID-19 vaccine can still be used in adults aged under 60 years where the benefits are likely to outweigh the risks for that individual and the person has made an informed decision based on an understanding of the risks and benefits in consultation with a medical professional.[159]

Malaysia

After initially approving the use of the AstraZeneca vaccine, Malaysian health authorities removed the vaccine from the country's mainstream vaccination programme due to public concerns about its safety.[160] The AstraZeneca vaccines will be distributed in designated vaccination centres, and the public can register for the vaccine on a voluntary basis. All 268,800 doses of the initial batch of the vaccine were fully booked in three and a half hours after the registration opened for residents of the state of Selangor and the Federal Territory of Kuala Lumpur.[161] A second batch of 1,261,000 doses was offered to residents of the states of Selangor, Penang, Johore, Sarawak, and the Federal Territory of Kuala Lumpur. A total of 29,183 doses were reserved for previously waitlisted registrants, and 275,208 doses were taken up by senior citizens during a grace 3-day period. The remaining 956,609 doses were then offered to those aged 18 and above, and was completely booked within an hour.[162]

Safety review

On 11 March 2021, the European Medicines Agency (EMA) stated that there is no indication that vaccination has been the cause of the observed clotting issues, which were not listed as side effects of the vaccine.[122][163] At the time, according to the EMA, the number of thromboembolic events in vaccinated people was no higher than that seen in the general population.[163] As of 11 March 2021, 30 cases of thromboembolic events had been reported among the almost 5 million people vaccinated in the European Economic Area.[163] The UK's MHRA also stated that after more than 11 million doses administered, it had not been confirmed that the reported blood clots were caused by the vaccine and that vaccinations would not be stopped.[164] On 12 March 2021 the WHO stated that a causal relationship had not been shown and that vaccinations should continue.[165] AstraZeneca confirmed on 14 March 2021 that after examining over 17 million people who have been vaccinated with the vaccine, no evidence of an increased risk of blood clots in any particular country was found.[166] The company reported that as of 8 March 2021, across the EU and UK, there had been 15 events of deep vein thrombosis and 22 events of pulmonary embolism reported among those given the vaccine, which is much lower than would be expected to occur naturally in a general population of that size.[166]

On 15 March 2021, the German Paul-Ehrlich Institute (PEI) reported that out of 1.6 million vaccinations, seven cases of cerebral vein thrombosis in conjunction with a deficiency of blood platelets had occurred.[167] According to the PEI, the number of cases of cerebral vein thrombosis after vaccination was statistically significantly higher than the number that would occur in the general population during a similar time period.[167] These reports prompted the PEI to recommended a temporary suspension of vaccinations until the EMA had completed their review of the cases.[168]

The World Health Organization (WHO) issued a statement on 17 March, regarding the AstraZeneca COVID-19 vaccine safety signals, and still considers the benefits of the vaccine to outweigh its potential risks, further recommending that vaccinations continue.[169] On 18 March, the EMA announced that out of the around 20 million people who had received the vaccine, general blood clotting rates were normal, but that it had identified seven cases of disseminated intravascular coagulation, and eighteen cases of cerebral venous sinus thrombosis.[170] A causal link with the vaccine was not proven, but the EMA said it would conduct further analysis and recommended informing people eligible for the vaccine of the fact that the possibility it may cause rare clotting problems had not been disproven.[170] The EMA confirmed that the vaccine's benefits outweighed the risks.[170] On 25 March, the EMA released updated product information.[171][27][172]

According to the EMA, 100,000 cases of blood clots occur naturally each month in the EU, and the risk of blood clots was not statistically higher in the vaccinated population. The EMA noted that COVID-19 itself causes an increased risk of the development of blood clots, and as such the vaccine would lower the risk of the formation of blood clots even if the 15 cases' causal link were to be confirmed.[173] Italy resumed vaccinations after the EMA's statement,[174] with most of the remaining European countries following suit and resuming their AstraZeneca inoculations shortly thereafter.[175] To reassure the public of the vaccine's safety, the British and French Prime Ministers, Boris Johnson and Jean Castex, had themselves vaccinated live before the media with it shortly after the restart of the AstraZeneca vaccination campaigns in the EU.[176]

On 13 April 2021, the EMA issued its direct healthcare professional communication (DHPC) about the vaccine.[177] The DHPC indicated that a causal relationship between the vaccine and blood clots (thrombosis) in combination with low blood platelets (thrombocytopenia) was plausible and identified it as a very rare side effect of the vaccine.[177] According to the EMA these very rare adverse events occur in around 1 out of 100,000 vaccinated people.[26]

Further development

Efficacy against variants

A study published in April 2021 by researchers from the COVID-19 Genomics United Kingdom Consortium, the AMPHEUS Project, and the Oxford COVID-19 Vaccine Trial Group indicated the Oxford–AstraZeneca vaccine showed somewhat reduced efficacy against infection with the Alpha variant (lineage B.1.1.7), with 70.4% efficacy in absolute terms against Alpha versus 81.5% against other variants.[178] Despite this, the researchers concluded that the vaccine remained effective at preventing symptomatic infection from this variant and that individuals infected symptomatically typically had shorter duration of symptoms and less viral load, thereby reducing the risk of transmission.[179] Following the identification of notable variants of concern, concern arose that the E484K mutation, present in the Beta and Gamma variants (lineages B.1.351 and P.1), could evade the protection given by the vaccine.[180] In February 2021, the collaboration was working to adapt the vaccine to target these variants,[181] with the expectation that a modified vaccine would be available "in a few months" as a "booster" given to people who had already completed the two-dose series of the original vaccine.[182]

Heterologous prime-boost vaccination

In December 2020, a clinical trial was registered to examine a heterologous prime-boost vaccination course consisting of one dose of the Oxford–AstraZeneca vaccine followed by the first dose of the Sputnik V COVID-19 vaccine based on the Ad26 vector 29 days later.[183]

After suspensions due to rare cases of blood clots in March 2021, Canada and several European countries recommended receiving a different vaccine for the second dose. Despite the lack of clinical data on the efficacy and safety of such heterologous combinations, some experts believe that doing so may boost immunity, and several studies have begun to examine this effect.[184][185]

In June 2021, preliminary results from a study of 463 participants showed that a heterologous prime-boost vaccination course consisting of one dose of the Oxford–AstraZeneca vaccine followed by one dose of the Pfizer–BioNTech vaccine produced the strongest T cell activity and an antibody level almost as high as two doses of the Pfizer-BioNTech vaccine. The reversal of the order resulted in T cell activity at half the potency and one-seventh the antibody levels, the latter still five times higher than two doses of Oxford–AstraZeneca. The lowest T cell activity was observed in homologous courses, when both doses were of the same vaccine.[186]

Society and culture

The Oxford University and AstraZeneca collaboration was seen as having the potential as being a low-cost vaccine with no onerous storage requirements.[187] A series of events from AstraZeneca, including miscommunication, supply difficulties, reports of adverse effects, national rollout suspensions, and politics including the high-profile European Commission–AstraZeneca COVID-19 vaccine dispute, have been a public relations disaster,[188] and in the opinion of one academic has led to increased vaccine hesitancy.[187]

The vaccine remains a key component of the WHO backed COVAX (COVID-19 Vaccines Global Access) program,[187] with the WHO, the EMA, and the MHRA continuing to state that the benefits of the vaccine outweigh any possible side effects.[189]

Economics

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Vaccine supply agreements by country
Country Date Doses
UK 17 May 2020[lower-alpha 4] 100 million[190][191]
US 21 May 2020 300 million[192]
COVAX (WHO) 4 June 2020 300 million[193]
29 September 2020 100 million[194]
Egypt 22 June 2020 Unknown[195]
Japan 8 August 2020 120 million[196]
Australia 19 August 2020 25 million[197]
European Union[lower-alpha 5] 27 August 2020[lower-alpha 6] 400 million[198][199][200][201]
Canada 25 September 2020 20 million[202][203]
Switzerland 16 October 2020 5.3 million[204][205]
Bangladesh 5 November 2020 30 million[206]
Thailand 27 November 2020 26 million[207]
Philippines 27 November 2020 2.6 million[208]
South Korea 1 December 2020 20 million[209]
South Africa 7 January 2021 1 million[lower-alpha 7][210]
  1. A vaccine is generally considered effective if the estimate is ≥50% with a >30% lower limit of the 95% confidence interval.[36]
  2. 2.0 2.1 2.2 2.3 Preliminary data of effectiveness against hospitalization referenced by Public Health England.[38][39]
  3. Efficacy from a study with 2026 participants.[40]
  4. Contingent on completion of trials and efficacy, agreement finalized in August
  5. To be supplied to EU member countries and others in the European Economic Area. Preliminary negotiations were enterd into by the Inclusive Vaccines Alliance composed of: France, Germany, Italy, and the Netherlands, before the EU elected to centrally negotiate for the block
  6. A preliminary agrement with the abandoned 4 nation, Inclusive vaccine alliance, of France, Italy, Germany and Netherlands, was agreed on 13 Jun 2020, before EU elected to centally procure vaccines for all EU member states, and elective EEA states
  7. Was to be followed by 500,000 at a later date. South Africa later suspended use the use of the vaccine before the rollout began and sold purchased supply to 14 African Union Members.

Agreements for access to vaccines began being signed in May 2020, with the UK having priority for the first 100 million doses if trials proved successful, with the final agreement being signed at the end of August.[190][191][211][212]

On 21 May 2020, AstraZeneca agreed to provide 300 million doses to the US for US$1.2 billion, implying a cost of US$4 per dose.[192] An AstraZeneca spokesman said the funding also covers development and clinical testing.[213] It also reached a technology transfer agreement with the Mexican and Argentinean governments and agreed to produce at least 400 million doses to be distributed throughout Latin America. The active ingredients would be produced in Argentina and sent to Mexico to be completed for distribution.[214] In June 2020, Emergent BioSolutions signed a US$87 million deal to manufacture doses of the AstraZeneca vaccine specifically for the US market. The deal was part of the Trump administration's Operation Warp Speed initiative to develop and rapidly scale production of targeted vaccines before the end of 2020.[215] Catalent would be responsible for the finishing and packaging process.[216]

On 4 June 2020, the WHO's COVAX (COVID-19 Vaccines Global Access) facility made initial purchases of 300 million doses from the company for low- to middle-income countries.[193] Also, AstraZeneca and Serum Institute of India reached a licensing agreement to independently supply 1 billion doses of the Oxford University vaccine to middle- and low-income countries, including India.[217][218] Later in September, funded by a grant from the Bill and Melinda Gates Foundation, the COVAX program secured an additional 100  million doses at US$3 per dose.[194]

On 27 August 2020, AstraZeneca concluded an agreement with the EU, to supply up to 400 million doses to all EU and select European Economic Area (EEA) member states.[198][199] The European Commission took over negotiations started by the Inclusive Vaccines Alliance, a group made up of France, Germany, Italy, and the Netherlands, in June 2020.[219][220][221]

On 5 November 2020, a tripartite agreement was signed between the government of Bangladesh, the Serum Institute of India, and Beximco Pharma of Bangladesh. Under the agreement Bangladesh ordered 30 million doses of Oxford–AstraZeneca vaccine from Serum through Beximco for $4 per shot.[206] On the other hand, Indian government has given 3.2 million doses to Bangladesh as a gift which were also produced by Serum. But Serum supplied only 7 million doses from the tripartite agreement in the first two months of the year.[222] Bangladesh was supposed to receive 5 million doses per month but not received shipments in March and April.[223] As a result, rollout of vaccine has been disrupted by supply shortfalls.[223] The situation became complicated when the second dose of 1.3 million citizens is uncertain as India halts exports.[224] Not getting the second dose at the right time is likely to reduce the effectiveness of the vaccination program. In addition, several citizens of Bangladesh have expressed doubts about its effectiveness and safety.[222] Bangladesh is looking for alternative vaccine sources because India isn't supplying the vaccine according to the timeline of the deal.[225]

Thailand's agreement in November 2020 for 26 million doses of vaccine[207] would cover 13 million people,[226] approximately 20% of the population, with the first lot expected to be delivered at the end of May.[227][228][229] The public health minister indicated the price paid was $5 per dose;[230] AstraZeneca (Thailand) explained in January 2021 after a controversy that the price each country paid depended on production cost and differences in supply chain, including manufacturing capacity, labour and raw material costs.[231] In January 2021, the Thai cabinet approved further talks on ordering another 35 million doses,[232] and the Thai FDA approved the vaccine for emergency use for 1 year.[233][234] Siam Bioscience, a company owned by Vajiralongkorn, will receive technological transfer[235] and has the capacity to manufacture up to 200 million doses a year for export to ASEAN.[236]

Also in November, the Philippines agreed to buy 2.6 million doses,[208] reportedly worth around ₱700 million (approximately US$5.60 per dose).[237] In December 2020, South Korea signed a contract with AstraZeneca to secure 20 million doses of its vaccine, reportedly equivalent in worth to those signed by Thailand and the Philippines,[209] with the first shipment expected as early as January 2021. As of January 2021, the vaccine remains under review by the South Korea Disease Control and Prevention Agency.[238][239] AstraZeneca signed a deal with South Korea's SK Bioscience to manufacture its vaccine products. The collaboration calls for the SK affiliate to manufacture AZD1222 for local and global markets.[240]

On 7 January 2021, the South African government announced that they had secured an initial 1 million doses from the Serum Institute of India, to be followed by another 500,000 doses in February,[210] however the South African government subsequently cancelled the use of the vaccine, selling its supply to other African countries, and switched its vaccination program to use the Janssen COVID-19 vaccine.[121][241]

On 22 January 2021, AstraZeneca announced that in the event the European Union approved the COVID-19 Vaccine AstraZeneca, initial supplies would be lower than expected due to production issues at Novasep in Belgium. Only 31 million of the previously predicted 80 million doses would be delivered to the EU by March 2021.[242] In an interview with Italian newspaper La Repubblica, AstraZeneca's CEO Pascal Soriot said the delivery schedule for the doses in the EU was two months behind schedule. He mentioned low yield from cell cultures at one large-scale European site.[243] Analysis published in The Guardian also identified an apparently low yield from bioreactors in the Belgium plant and noted the difficulties in setting up this form of process, with variable yields often occurring.[244] As a result, the EU imposed export controls on vaccine doses; controversy erupted as to whether doses were being diverted to the UK and whether deliveries to Northern Ireland would be disrupted.[245]

On 24 February 2021, a shipment of the vaccine to Accra, Ghana, via COVAX made it the first country in Africa to receive vaccines via the initiative.[246]

In early 2021, the Bureau for Investigative Journalism found that South Africa had paid double the rate for the European Commission, while Uganda paid triple.[247][248]

Brand names

The vaccine is marketed under the brand name Covishield by the Serum Institute of India.[12] The name of the vaccine was changed to Vaxzevria in the European Union on 25 March 2021.[4] Vaxzevria, AstraZeneca COVID‐19 Vaccine, and COVID-19 Vaccine AstraZeneca are manufactured by AstraZeneca.[4][12]

Fake Covishield doses

In July, Indian police arrested 14 people for administering doses of salt water instead of the vaccine at nearly a dozen private vaccination sites in Mumbai. The organizers, including medical professionals, charged between $10–17 for each dose, and more than 2,600 people had paid to receive the vaccine.[249]

Research

As of February 2021, the AZD1222 development team is working on adapting the vaccine to be more effective in relation to newer SARS-CoV-2 variants; redesigning the vaccine being the relatively quick process of switching the genetic sequence of the spike protein.[250] Manufacturing set-up and a small scale trial also being required before the adapted vaccine might be available in autumn.[250]

References

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  4. 4.0 4.1 4.2 4.3 4.4 4.5 4.6 4.7 Lua error in package.lua at line 80: module 'strict' not found. Text was copied from this source which is © European Medicines Agency. Reproduction is authorized provided the source is acknowledged.
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  250. 250.0 250.1 Lua error in package.lua at line 80: module 'strict' not found.

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  • Lua error in package.lua at line 80: module 'strict' not found.
  • Lua error in package.lua at line 80: module 'strict' not found.
  • Lua error in package.lua at line 80: module 'strict' not found.
  • Lua error in package.lua at line 80: module 'strict' not found.
  • Lua error in package.lua at line 80: module 'strict' not found.