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A COVID‑19 vaccine is a vaccine intended to provide acquired immunity against severe acute respiratory syndrome coronavirus 2 (SARS‑CoV‑2), the virus causing coronavirus disease 2019 (COVID‑19). Prior to the COVID‑19 pandemic, there was established body of knowledge about the structure and function of coronaviruses causing diseases like severe acute respiratory syndrome (SARS) and Middle East respiratory syndrome (MERS), which enabled accelerated development of various vaccine technologies during early 2020.[1] On 10 January 2020, the SARS-CoV-2 genetic sequence data was shared through GISAID, and by 19 March, the global pharmaceutical industry announced a major commitment to address COVID-19.[2]
As of February 2021, 66 vaccine candidates are in clinical research, including 17 in Phase I trials, 23 in Phase I–II trials, 6 in Phase II trials, and 20 in Phase III trials.[3] Trials for four other candidates were terminated.[3] In Phase III trials, several COVID‑19 vaccines demonstrate efficacy as high as 95% in preventing symptomatic COVID‑19 infections. As of February 2021, eleven vaccines are authorized by at least one national regulatory authority for public use: two RNA vaccines (the Pfizer–BioNTech vaccine and the Moderna vaccine), four conventional inactivated vaccines (BBIBP-CorV, Covaxin, CoronaVac, and CoviVac ), four viral vector vaccines (Sputnik V, the Oxford–AstraZeneca vaccine, Convidicea, and the Johnson & Johnson vaccine), and one peptide vaccine (EpiVacCorona).[3]
Many countries have implemented phased distribution plans that prioritize those at highest risk of complications, such as the elderly, and those at high risk of exposure and transmission, such as healthcare workers.[4] As of 6 March 2021, 300.19 million doses of COVID‑19 vaccine have been administered worldwide based on official reports from national health agencies.[5] AstraZeneca-Oxford anticipates producing 3 billion doses in 2021, Pfizer-BioNTech 1.3 billion doses, and Sputnik V, Sinopharm, Sinovac, and Johnson & Johnson 1 billion doses each. Moderna targets producing 600 million doses and Convidicea 500 million doses in 2021.[6][7] By December 2020, more than 10 billion vaccine doses had been preordered by countries,[8] with about half of the doses purchased by high-income countries comprising 14% of the world's population.[9]
Background
![](https://web.archive.org/web/20210310111532im_/https://upload.wikimedia.org/wikipedia/commons/thumb/2/28/COVID_Vaccine_%2850745583447%29.jpg/220px-COVID_Vaccine_%2850745583447%29.jpg)
Prior to COVID‑19, a vaccine for an infectious disease had never been produced in less than several years—and no vaccine existed for preventing a coronavirus infection in humans.[10] However, vaccines have been produced against several animal diseases caused by coronaviruses, including (as of 2003) infectious bronchitis virus in birds, canine coronavirus, and feline coronavirus.[11] Previous projects to develop vaccines for viruses in the family Coronaviridae that affect humans have been aimed at severe acute respiratory syndrome (SARS) and Middle East respiratory syndrome (MERS). Vaccines against SARS[12] and MERS[13] have been tested in non-human animals.
According to studies published in 2005 and 2006, the identification and development of novel vaccines and medicines to treat SARS was a priority for governments and public health agencies around the world at that time.[14][15][16] As of 2020, there is no cure or protective vaccine proven to be safe and effective against SARS in humans.[17][18] There is also no proven vaccine against MERS.[19] When MERS became prevalent, it was believed that existing SARS research may provide a useful template for developing vaccines and therapeutics against a MERS-CoV infection.[17][20] As of March 2020, there was one (DNA based) MERS vaccine which completed Phase I clinical trials in humans[21] and three others in progress, all being viral-vectored vaccines: two adenoviral-vectored (ChAdOx1-MERS, BVRS-GamVac) and one MVA-vectored (MVA-MERS-S).[22]
Planning and development
Since early 2020, vaccine development has been expedited via unprecedented collaboration in the multinational pharmaceutical industry and between governments.[23] According to the Coalition for Epidemic Preparedness Innovations (CEPI), the geographic distribution of COVID‑19 vaccine development puts North American entities having about 40% of the activity compared to 30% in Asia and Australia, 26% in Europe, and a few projects in South America and Africa.[23][24]
Multiple steps along the entire development path are evaluated, including:[10][25]
- the level of acceptable toxicity of the vaccine (its safety),
- targeting vulnerable populations,
- the need for vaccine efficacy breakthroughs,
- the duration of vaccination protection,
- special delivery systems (such as oral or nasal, rather than by injection),
- dose regimen,
- stability and storage characteristics,
- emergency use authorization before formal licensing,
- optimal manufacturing for scaling to billions of doses, and
- dissemination of the licensed vaccine.
Challenges
There have been several unique challenges with COVID-19 vaccine development.
The urgency to create a vaccine for COVID‑19 led to compressed schedules that shortened the standard vaccine development timeline, in some cases combining clinical trial steps over months, a process typically conducted sequentially over years.[26]
Timelines for conducting clinical research – normally a sequential process requiring years – are being compressed into safety, efficacy, and dosing trials running simultaneously over months, potentially compromising safety assurance.[26][27] As an example, Chinese vaccine developers and the government Chinese Center for Disease Control and Prevention began their efforts in January 2020,[28] and by March were pursuing numerous candidates on short timelines, with the goal to showcase Chinese technology strengths over those of the United States, and to reassure the Chinese people about the quality of vaccines produced in China.[26][29]
The rapid development and urgency of producing a vaccine for the COVID‑19 pandemic may increase the risks and failure rate of delivering a safe, effective vaccine.[24][30][31] Additionally, research at universities is obstructed by physical distancing and closing of laboratories.[32][33]
Vaccines must progress through several phases of clinical trials to test for safety, immunogenicity, effectiveness, dose levels and adverse effects of the candidate vaccine.[34][35] Vaccine developers have to invest resources internationally to find enough participants for Phase II–III clinical trials when the virus has proved to be a "moving target" of changing transmission rate across and within countries, forcing companies to compete for trial participants;[36] clinical trial organizers may encounter people unwilling to be vaccinated due to vaccine hesitancy[37] or disbelieving the science of the vaccine technology and its ability to prevent infection.[38] Even as new vaccines are developed during the COVID‑19 pandemic, licensure of COVID‑19 vaccine candidates requires submission of a full dossier of information on development and manufacturing quality.[39][40][41]
Organizations
Internationally, the Access to COVID-19 Tools Accelerator is a G20 and World Health Organization (WHO) initiative announced in April 2020.[42][43] It is a cross-discipline support structure to enable partners to share resources and knowledge. It comprises four pillars, each managed by two to three collaborating partners: Vaccines (also called "COVAX"), Diagnostics, Therapeutics, and Health Systems Connector.[44] The WHO's April 2020 "R&D Blueprint (for the) novel Coronavirus" documented a "large, international, multi-site, individually randomized controlled clinical trial" to allow "the concurrent evaluation of the benefits and risks of each promising candidate vaccine within 3–6 months of it being made available for the trial." The WHO vaccine coalition will prioritize which vaccines should go into Phase II and III clinical trials, and determine harmonized Phase III protocols for all vaccines achieving the pivotal trial stage.[45]
National governments have also been involved in vaccine development. Canada announced funding for 96 research vaccine research projects at Canadian companies and universities, with plans to establish a "vaccine bank" that could be used if another coronavirus outbreak occurs,[46] and to support clinical trials and develop manufacturing and supply chains for vaccines.[47] China provided low-rate loans to a vaccine developer through its central bank and "quickly made land available for the company" to build production plants.[27] Three Chinese vaccine companies and research institutes are supported by the government for financing research, conducting clinical trials, and manufacturing.[48] Great Britain formed a COVID‑19 vaccine task force in April 2020 to stimulate local efforts for accelerated development of a vaccine through collaborations of industry, universities, and government agencies. It encompassed every phase of development from research to manufacturing.[49] In the United States, the Biomedical Advanced Research and Development Authority (BARDA), a federal agency funding disease-fighting technology, announced investments to support American COVID‑19 vaccine development and manufacture of the most promising candidates.[27][50] In May 2020, the government announced funding for a fast-track program called Operation Warp Speed.[51][52]
Large pharmaceutical companies with experience in making vaccines at scale, including Johnson & Johnson, AstraZeneca, and GlaxoSmithKline (GSK), formed alliances with biotechnology companies, governments, and universities to accelerate progression to an effective vaccine.[27][26]
History
![](https://web.archive.org/web/20210310111532im_/https://upload.wikimedia.org/wikipedia/commons/thumb/8/8c/COVID-19_vaccine_in_NIAID_lab_freezer.jpg/220px-COVID-19_vaccine_in_NIAID_lab_freezer.jpg)
After a coronavirus was isolated in December 2019,[53] its genetic sequence was published on 11 January 2020, triggering an urgent international response to prepare for an outbreak and hasten development of a preventive COVID-19 vaccine.[54][55][56] Since early 2020, vaccine development has been expedited via unprecedented collaboration in the multinational pharmaceutical industry and between governments.[57] By June 2020, tens of billions of dollars were invested by corporations, governments, international health organizations, and university research groups to develop dozens of vaccine candidates and prepare for global vaccination programs to immunize against COVID‑19 infection.[55][58][59][60] According to the Coalition for Epidemic Preparedness Innovations (CEPI), the geographic distribution of COVID‑19 vaccine development puts North American entities having about 40% of the activity compared to 30% in Asia and Australia, 26% in Europe, and a few projects in South America and Africa.[54][57]
In February 2020, the WHO said it did not expect a vaccine against severe acute respiratory syndrome coronavirus 2 (SARS‑CoV‑2), the causative virus, to become available in less than 18 months.[61] The rapidly growing infection rate of COVID‑19 worldwide during early 2020 stimulated international alliances and government efforts to urgently organize resources to make multiple vaccines on shortened timelines,[62] with four vaccine candidates entering human evaluation in March (see the table of clinical trials started in 2020, below).[54][63]
On 24 June 2020, China approved the CanSino vaccine for limited use in the military and two inactivated virus vaccines for emergency use in high-risk occupations.[64] On 11 August 2020, Russia announced the approval of its Sputnik V vaccine for emergency use, though one month later only small amounts of the vaccine had been distributed for use outside of the phase 3 trial.[65]
The Pfizer–BioNTech partnership submitted an EUA request to the FDA for the mRNA vaccine BNT162b2 (active ingredient tozinameran) on 20 November 2020.[66][67] On 2 December 2020, the United Kingdom's Medicines and Healthcare products Regulatory Agency (MHRA) gave temporary regulatory approval for the Pfizer–BioNTech vaccine,[68][69] becoming the first country to approve this vaccine and the first country in the Western world to approve the use of any COVID‑19 vaccine.[70][71][72] As of 21 December, many countries and the European Union[73] have authorized or approved the Pfizer–BioNTech COVID‑19 vaccine. Bahrain and the United Arab Emirates granted emergency marketing authorization for BBIBP-CorV, manufactured by Sinopharm.[74][75] On 11 December 2020, the United States Food and Drug Administration (FDA) granted an Emergency Use Authorization (EUA) for the Pfizer–BioNTech COVID‑19 vaccine.[76] A week later, they granted an EUA for mRNA-1273, the Moderna vaccine.[77][78][79]Vaccine types
![](https://web.archive.org/web/20210310111532im_/https://upload.wikimedia.org/wikipedia/commons/thumb/f/fe/Vaccine_candidate_mechanisms_for_SARS-CoV-2_%2849948301838%29.jpg/400px-Vaccine_candidate_mechanisms_for_SARS-CoV-2_%2849948301838%29.jpg)
As of January 2021, nine different technology platforms – with the technology of numerous candidates remaining undefined – are under research and development to create an effective vaccine against COVID‑19.[3][80] Most of the platforms of vaccine candidates in clinical trials are focused on the coronavirus spike protein and its variants as the primary antigen of COVID‑19 infection.[80] Platforms being developed in 2020 involved nucleic acid technologies (nucleoside-modified messenger RNA and DNA), non-replicating viral vectors, peptides, recombinant proteins, live attenuated viruses, and inactivated viruses.[10][80][24][30]
Many vaccine technologies being developed for COVID‑19 are not like vaccines already in use to prevent influenza, but rather are using "next-generation" strategies for precision on COVID‑19 infection mechanisms.[80][24][30] Vaccine platforms in development may improve flexibility for antigen manipulation and effectiveness for targeting mechanisms of COVID‑19 infection in susceptible population subgroups, such as healthcare workers, the elderly, children, pregnant women, and people with existing weakened immune systems.[80][24]
RNA vaccines
![](https://web.archive.org/web/20210310111532im_/https://upload.wikimedia.org/wikipedia/commons/thumb/9/96/RNA_vaccine_illustration_%28en%29.jpg/220px-RNA_vaccine_illustration_%28en%29.jpg)
An RNA vaccine contains RNA which, when introduced into a tissue, acts as messenger RNA (mRNA) to cause the cells to build the foreign protein and stimulate an adaptive immune response which teaches the body how to identify and destroy the corresponding pathogen or cancer cells. RNA vaccines often, but not always, use nucleoside-modified messenger RNA. The delivery of mRNA is achieved by a coformulation of the molecule into lipid nanoparticles which protect the RNA strands and help their absorption into the cells.[81][82][83][84]
RNA vaccines were the first COVID-19 vaccines to be authorized in the United States and the European Union.[85][86] As of January 2021, authorized vaccines of this type are the Pfizer-BioNTech COVID‑19 vaccine
Adenovirus vector vaccines
These vaccines are examples of non-replicating viral vectors, using an adenovirus shell containing DNA that encodes a SARS‑CoV‑2 protein.[93] The viral vector-based vaccines against COVID-19 are non-replicating, meaning that they do not make new virus particles, but rather produce only the antigen which elicits a systemic immune response.[93]
As of January 2021, authorized vaccines of this type are the British Oxford–AstraZeneca COVID-19 vaccine,
Convidicia and Johnson & Johnson's vaccine's are both one-shot vaccines which offer less complicated logistics; and can be stored under ordinary refrigeration for several months.[100][101]
Sputnik V uses Ad26 for the first dose the same as Johnson & Johnson's vaccine and Ad5 for the 2nd dose the same as Convidicia with similar single dose effectiveness and full trial taking place on single dose effectiveness.
Inactivated virus vaccines
Inactivated vaccines consist of virus particles that have been grown in culture and then are killed using a method such as heat or formaldehyde to lose disease producing capacity, while still stimulating an immune response.[102]
As of January 2021, authorized vaccines of this type are the Chinese CoronaVac[103][104][105] and BBIBP-CorV
Subunit vaccines
Subunit vaccines present one or more antigens without introducing whole pathogen particles. The antigens involved are often protein subunits, but can be any molecule that is a fragment of the pathogen.[109]
As of January 2021, the only authorized vaccine of this type is the peptide vaccine EpiVacCorona.
Other types
Additional types of vaccines that are in clinical trials include multiple DNA plasmid vaccines,[114]
Scientists investigated whether existing vaccines for unrelated conditions could prime the immune system and lessen the severity of COVID‑19 infection.[123] There is experimental evidence that the BCG vaccine for tuberculosis has non-specific effects on the immune system, but no evidence that this vaccine is effective against COVID‑19.[124]
Trial and authorization status
Phase I trials test primarily for safety and preliminary dosing in a few dozen healthy subjects, while Phase II trials – following success in Phase I – evaluate immunogenicity, dose levels (efficacy based on biomarkers) and adverse effects of the candidate vaccine, typically in hundreds of people.[34][35] A Phase I–II trial consists of preliminary safety and immunogenicity testing, is typically randomized, placebo-controlled, while determining more precise, effective doses.[35] Phase III trials typically involve more participants at multiple sites, include a control group, and test effectiveness of the vaccine to prevent the disease (an "interventional" or "pivotal" trial), while monitoring for adverse effects at the optimal dose.[34][35] Definition of vaccine safety, efficacy, and clinical endpoints in a Phase III trial may vary between the trials of different companies, such as defining the degree of side effects, infection or amount of transmission, and whether the vaccine prevents moderate or severe COVID‑19 infection.[36][125][126]
A clinical trial design in progress may be modified as an "adaptive design" if accumulating data in the trial provide early insights about positive or negative efficacy of the treatment.[127][128] Adaptive designs within ongoing Phase II–III clinical trials on candidate vaccines may shorten trial durations and use fewer subjects, possibly expediting decisions for early termination or success, avoiding duplication of research efforts, and enhancing coordination of design changes for the Solidarity trial across its international locations.[127][129]
List of authorized and approved vaccines
National regulatory authorities have granted emergency use authorizations for eleven vaccines. Six of those have been approved for emergency or full use by at least one WHO-recognized stringent regulatory authorities.
Vaccine, developers/sponsors | Country of origin | Type (technology) | Doses, interval | Storage temperature | Current phase (participants) | Authorization |
---|---|---|---|---|---|---|
Pfizer–BioNTech COVID-19 vaccine (Comirnaty) BioNTech, Pfizer |
United States, Germany | RNA (modRNA in lipid nanoparticles) |
2 doses 3–4 weeks |
-70±10 °C (ULT) |
Phase III (43,448) Randomized, placebo-controlled. Positive results from an interim analysis were announced on 18 November 2020[135] and published on 10 December 2020 reporting an overall efficacy of 95%.[136][137] Jul 2020 – Nov 2020,[138][139] Germany, United States |
Emergency (35)
|
Sputnik V COVID-19 vaccine Gamaleya Research Institute of Epidemiology and Microbiology |
Russia | Adenovirus vector (recombinant Ad5 and Ad26) |
2 doses 3 weeks |
-18 °C (freezer) |
Phase III (40,000) Randomized double-blind, placebo-controlled to evaluate efficacy, immunogenicity, and safety.[203] Interim analysis from the trial was published in The Lancet, indicating 91.6% efficacy without unusual side effects.[204] Aug 2020 – May 2021, Russia, Belarus,[205] India,[206][207] Venezuela,[208][209] UAE[210] |
Emergency (37)
|
Oxford–AstraZeneca COVID-19 vaccine (Covishield) University of Oxford, AstraZeneca, CEPI |
United Kingdom, Sweden | Adenovirus vector (ChAdOx1) |
2 doses 4–12 weeks |
2–8 °C |
Phase III (30,000) Interventional; randomized, placebo-controlled study for efficacy, safety, and immunogenicity.[258] Positive results from an interim analysis of four ongoing trials were announced on 23 November 2020, and published on 8 December 2020. Overall efficacy was 70%, ranging from 62% to 90% with different dosing regimens, with a peer-reviewed safety profile.[259] May 2020 – Aug 2021, Brazil (5,000),[260] United Kingdom, India[261] |
Emergency (32)
|
BBIBP-CorV Sinopharm: Beijing Institute of Biological Products, Wuhan Institute of Biological Products |
China | Inactivated SARS‑CoV‑2 (vero cells) |
2 doses 3–4 weeks |
2–8 °C |
Phase III (48,000) Randomized, double-blind, parallel placebo-controlled, to evaluate safety and protective efficacy. Sinopharm's internal analysis indicated a 79% efficacy.[310] Jul 2020 – Jul 2021, United Arab Emirates, Bahrain, Jordan,[311] Argentina,[312] Morocco,[313] Peru[314] |
Emergency (22) |
CoronaVac[103][104][105] Sinovac |
China | Inactivated SARS‑CoV‑2 (vero cells) |
2 doses 2 weeks |
2–8 °C |
Phase III (33,620) Double-blind, randomized, placebo-controlled to evaluate efficacy and safety. Positive results from an interim analysis of a small sample were announced by Turkey on 24 December 2020, with an efficacy of 91%.[342] Additional results were announced by Indonesia on 11 January, with an overall efficacy of 65%.[343] The vaccine was 50% effective at preventing symptomatic infections in a Brazilian trial.[344] Jul 2020 – Oct 2021, Brazil (15,000);[345] Aug 2020 – January 2021, Indonesia (1,620); Chile (3,000);[346] Turkey (13,000)[347] |
Emergency (18) |
Moderna COVID-19 vaccine Moderna, NIAID, BARDA, CEPI |
United States | RNA (modRNA in lipid nanoparticles) |
2 doses 4 weeks |
-20±5 °C (freezer) |
Phase III (30,000) Interventional; randomized, placebo-controlled study for efficacy, safety, and immunogenicity. Positive results from an interim analysis were announced on 15 November 2020[367] and published on 30 December 2020 reporting an overall efficacy of 94%.[368] Jul 2020 – Oct 2022, United States |
Emergency (9) |
Johnson & Johnson COVID-19 vaccine[98][99] Janssen Pharmaceutica (Johnson & Johnson), BIDMC |
United States, Netherlands | Adenovirus vector (recombinant Ad26) |
1 dose[385] | 2–8 °C[385] | Phase III (40,000) Randomized, double-blinded, placebo-controlled Positive results from an interim analysis were announced on 29 January 2021.[386] Jul 2020 – 2023, United States, Argentina, Brazil, Chile, Colombia, Mexico, Peru, the Philippines, South Africa, Ukraine |
Emergency (5) Full (0)
|
BBV152 (Covaxin) Bharat Biotech, Indian Council of Medical Research |
India | Inactivated SARS‑CoV‑2 (vero cells) |
2 doses 4 weeks |
2–8 °C |
Phase III (25,800) Randomised, observer-blinded, placebo-controlled[395] The interim efficacy rate is 81% as per third phase trial.[396] All data from the second interim and final analyses is yet to be made available through peer-reviewed journal.[397] Nov 2020 – Mar 2021, India. |
Full (0)
|
Ad5-nCoV (Convidicea) CanSino Biologics, Beijing Institute of Biotechnology of the Academy of Military Medical Sciences |
China | Adenovirus vector (recombinant Ad5) |
1 dose[401] | 2–8 °C[401] | Phase III (40,000) Global multi-center, randomized, double-blind, placebo-controlled to evaluate efficacy, safety and immunogenicity. In February 2021, interim analysis from global trials showed an efficacy of 65.7% against moderate cases of COVID-19 and 90.98% efficacy against severe cases.[402] Mar–Dec 2020, China; Sep 2020 – Dec 2021, Pakistan; Sep 2020 – Nov 2020, Russia,[403] China, Argentina, Chile;[404] Mexico;[405] Pakistan;[406] Saudi Arabia[407][408] |
Full (0)
|
EpiVacCorona Vector Institute |
Russia | Subunit (peptide) |
2 doses 3–4 weeks |
2–8 °C |
Phase III (40,000) Randomized double-blind, placebo-controlled to evaluate efficacy, immunogenicity, and safety Nov 2020 – Dec 2021, Russia[413] |
|
CoviVac[418] The Chumakov Centre at the Russian Academy of Sciences |
Russia | Inactivated SARS‑CoV‑2 |
2 doses 2 weeks |
2–8 °C |
Phase III (3,000) Double-blind, randomized, placebo-controlled to evaluate efficacy and safety. |
Emergency (1)
Full (0)
|
ZF2001 (RBD-Dimer)[3] Anhui Zhifei Longcom Biopharmaceutical Co. Ltd. |
China | Subunit (recombinant) | 3 doses 30 days |
Phase III (29,000) Randomized, double-blind, placebo-controlled[422] Dec 2020 – Apr 2022, China, Ecuador, Indonesia, Malaysia, Pakistan, Uzbekistan[424][425] |
Full (0)
|
Vaccine candidates in human trials
Vaccine candidates, developers, and sponsors |
Country of origin | Type (technology) | Current phase (participants) design |
Completed phase[g] (participants) Immune response |
Pending authorization |
---|---|---|---|---|---|
Novavax COVID-19 vaccine Novavax, CEPI |
United States | Subunit[430][431][432]/virus-like particle[433][434] (SARS‑CoV‑2 recombinant spike protein nanoparticle with adjuvant) | Phase III (45,000) Randomised, observer-blinded, placebo-controlled trial[435] Sep 2020 – Jan 2021, UK (15,000); December 2020 – Mar 2021, US, Mexico, (30,000)[436] |
Phase I–II (131) IgG and neutralizing antibody response with adjuvant after booster dose.[437] |
|
FINLAY-FR-2 (SOBERANA 02) Instituto Finlay de Vacunas |
Cuba | Conjugate | Phase III (44,010) Multicenter, adaptive, parallel-group, randomized, placebo-controlled, double-blind Mar 2021 – Jan 2022, Cuba |
Phase I–II (950) Phase I (40): Non-randomized controlled trial. Masking: Open. Control group: Uncontrolled. Study design: Adaptive, sequential Phase II (910): Randomized controlled trial. Masking: Double Blind. Control group: Placebo. Study design: Parallel. Nov 2020 – Mar 2021, Cuba |
|
CureVac COVID-19 vaccine (CVnCoV) CureVac, CEPI |
Germany | RNA (unmodified RNA)[444] | Phase III (36,500) Phase 2b/3: Multicenter efficacy and safety trial in adults Nov 2020 – ?, Argentina, Belgium, Colombia, Dominican Republic, France, Germany, Mexico, Netherlands, Panama, Peru, Spain |
Phase I–II (944) Phase I (284): Partially blind, controlled, dose-escalation to evaluate safety, reactogenicity and immunogenicity. Phase IIa (660):Partially observer-blind, multicenter, controlled, dose-confirmation. Jun 2020 – Oct 2021, Belgium (phase I), Germany (phase I), Panama (phase IIa), Peru (phase IIa) |
Emergency (1)
|
Unnamed Chinese Academy of Medical Sciences |
China | Inactivated SARS‑CoV‑2 | Phase III (34,020) Randomized, double-blinded, single-center, placebo-controlled Jan 2021 – Jul 2022, Brazil, Malaysia |
Phase I–II (942) Randomized, double-blinded, single-center, placebo-controlled Jun 2020 – Sep 2021, Chengdu |
|
QazCovid-in[450] Research Institute for Biological Safety Problems |
Kazakhstan | Inactivated SARS‑CoV‑2 | Phase III (3,000) Randomised, blind, placebo-controlled trial[451] Dec 2020 – Jul 2021, Kazakhstan [451] |
Phase I–II (244[452]) Sep 2020 – Nov 2020, Kazakhstan |
|
ZyCoV-D Cadila Healthcare |
India | DNA (plasmid expressing SARS‑CoV‑2 S protein) | Phase III (26,000) Randomised, blind, placebo-controlled trial[454] Jan 2021 – ?, India[455] |
Phase I–II (1,000) Interventional; randomized, double-blind, placebo-controlled[456][454] Jul 2020 – Jan 2021, India |
|
CoVLP[457] Medicago, GSK |
Canada, United Kingdom | Virus-like particles[h] (recombinant, plant-based with AS03) | Phase II–III (30,612) Event-driven, randomized, observer blinded, placebo-controlled[459] Nov 2020 – Apr 2022, Canada |
Phase I (180) Neutralizing antibodies at day 42 after the first injection (day 21 after the second injection) were at levels 10x that of COVID-19 survivors. |
|
SCB-2019 Clover Biopharmaceuticals,[462][463] GSK, CEPI |
China, United Kingdom | Subunit (Spike protein trimeric subunit with AS03) | Phase II–III (22,000) Mar 2021 – Jul 2022, Belgium, Brazil, Colombia, Dominican Republic, Germany, Nepal, Panama, the Philippines, Poland, South Africa |
Phase I (150) Jun 2020 – Mar 2021, Perth |
|
IIBR-100 (Brilife) The Israel Institute for Biological research |
Israel | Vesicular stomatitis vector (recombinant) | Phase II (1,000) Dec 2020 – spring 2021, Israel |
Phase I (80) Subjects (18–55 years old) randomly receiving a single administration of IIBR-100 at the low, mid, or high dose, or saline, or two administrations at a low dose, or saline, 28 days apart. Oct–Nov 2020, Israel |
|
Nano Covax[465] Nanogen Pharmaceutical Biotechnology JSC |
Vietnam | Subunit (SARS‑CoV‑2 recombinant spike protein with aluminum adjuvant)[466][467] | Phase II (560) Randomization, double-blind, multicenter, placebo-controlled Feb – May 2021, Vietnam |
Phase I (60) Open label, dose escalation Dec 2020 – Jan 2021, Vietnam |
|
INO-4800[115][116] Inovio, CEPI, Korea National Institute of Health, International Vaccine Institute |
South Korea, United States | DNA vaccine (plasmid delivered by electroporation) | Phase II–III (401) Randomized, placebo-controlled, multi-center Nov 2020 – Sep 2022, United States |
Phase I (120) Open-label trial. April 2020 – Jan 2021, United States |
|
AG0301-COVID‑19 AnGes Inc.,[469] AMED |
Japan | DNA vaccine (plasmid) | Phase I–II (30) Non-randomized, single-center, two doses Jun 2020 – Jul 2021, Osaka |
Preclinical |
|
Lunar-COV19/ARCT-021[470][471] Arcturus Therapeutics, Duke–NUS Medical School |
United States, Singapore | RNA | Phase I–II (92) Randomized, double-blinded Aug 2020 – ?, Singapore |
Preclinical |
|
VLA2001[107][108] Valneva |
France | Inactivated SARS‑CoV‑2 | Phase I–II (150) Randomized, multi-center, double-blinded Dec 2020 – Feb 2021, United Kingdom |
Preclinical |
|
TAK-019 Takeda |
Japan | Subunit (recombinant) | Phase I–II (200) Randomized, observer-blind, placebo-controlled Feb 2021 – April 2022, Japan |
Preclinical |
|
COVID‑19/aAPC Shenzhen Genoimmune Medical Institute[473] |
China | Lentiviral vector (with minigene modifying aAPCs) | Phase I (100) Mar 2020 – 2023, Shenzhen |
Preclinical |
|
LV-SMENP-DC Shenzhen Genoimmune Medical Institute[473] |
China | Lentiviral vector (with minigene modifying DCs) | Phase I (100) Mar 2020 – 2023, Shenzhen |
Preclinical |
|
LNP-nCoVsaRNA MRC clinical trials unit at Imperial College London |
United Kingdom | RNA | Phase I (105) Randomized trial, with dose escalation study (15) and expanded safety study (at least 200) Jun 2020 – Jul 2021, United Kingdom |
Preclinical |
|
GRAd-COV2 ReiThera, Lazzaro Spallanzani National Institute for Infectious Diseases |
Italy | Adenovirus vector (modified chimpanzee adenovirus vector, GRAd) | Phase I (90) Subjects (two groups: 18–55 and 65–85 years old) randomly receiving one of three escalating doses of GRAd-COV2 or a placebo, then monitored over a 24-week period. 93% of subjects who received GRAd-COV2 developed anti-bodies. Aug–Dec 2020, Rome |
Preclinical |
|
GX-19 Genexine consortium,[478] International Vaccine Institute |
South Korea | DNA vaccine | Phase I (40) Jun 2020 – Jun 2022, Seoul |
Preclinical |
|
COVAX-19 Vaxine Pty Ltd[480] |
Australia | Subunit (recombinant protein) | Phase I (40) Jun 2020 – Jul 2021, Adelaide |
Preclinical |
|
Unnamed PLA Academy of Military Science, Walvax Biotech[482] |
China | RNA | Phase I (168) Jun 2020 – Dec 2021, China |
Preclinical |
|
HGC019 Gennova Biopharmaceuticals, HDT Biotech Corporation[484] |
India, United States | RNA | Phase I (120) Jan 2021 – ?, India |
Preclinical |
|
Bio E COVID-19 Biological E. Limited, Baylor College of Medicine,[488] CEPI |
India, United States | Inactivated SARS‑CoV‑2 (using an antigen) | Phase I–II (360) Randomized, Parallel Group Trial Nov 2020 – Feb 2021, India |
Preclinical |
|
Bangavax Globe Biotech Ltd. of Bangladesh |
Bangladesh | RNA | Phase I (100) Randomized, Parallel Group Trial Feb 2021 – Feb 2022,[493] Bangladesh |
Preclinical |
|
PTX-COVID19-B[494] Providence Therapeutics |
Canada | RNA | Phase I (60) Jan 2021 – May 2021, Canada |
Preclinical |
|
COVAC-2[495] VIDO (University of Saskatchewan) |
Canada | Subunit | Phase I (108) Feb 2021 – Jan 2022, Halifax |
Preclinical |
|
BBV154 Bharat Biotech[497] |
India | Adenovirus vector (intranasal) | Phase I (175) March 2021 – May 2021, India |
Preclinical |
|
SARS-CoV-2 Sclamp/V451 UQ, Syneos Health, CEPI, Seqirus |
Australia | Subunit (molecular clamp stabilized spike protein with MF59) | Terminated (120) Randomised, double-blind, placebo-controlled, dose-ranging. False positive HIV test found among participants. Jul–Oct 2020, Brisbane |
? |
|
V590[498] and V591/MV-SARS-CoV-2[499] Merck & Co. (Themis BIOscience), Institut Pasteur, University of Pittsburgh's Center for Vaccine Research (CVR), CEPI | United States, France | Terminated In phase I, immune responses were inferior to those seen following natural infection and those reported for other SARS-CoV-2/COVID-19 vaccines.[500] |
- ^ a b Recommended interval. The second dose of the Pfizer-BioNTech and Moderna vaccines can be administered up to 6 weeks after the first dose to alleviate a shortage of supplies.[131][132]
- ^ Long-term storage temperature. The Pfizer–BioNTech COVID-19 vaccine can be kept between −25 and −15 °C (−13 and 5 °F) for up to two weeks before use, and between 2 and 8 °C (36 and 46 °F) for up to five days before use.[133][134]
- ^ a b c US authorization also includes the three sovereign nations in the Compact of Free Association: Palau, the Marshall Islands, and Micronesia.[175][176]
- ^ Storage temperature for the frozen Gam-COVID-Vac formulation. The lyophilised Gam-COVID-Vac-Lyo formulation can be stored at 2-8°C.[202]
- ^ Serum Institute of India will be producing the ChAdOx1 nCoV-19 vaccine for India[253] and other low and middle income countries.[254]
- ^ Oxford name: ChAdOx1 nCoV-19. Manufacturing in Brazil to be carried out by Oswaldo Cruz Foundation.[255]
- ^ Latest Phase with published results.
- ^ Virus-like particles grown in Nicotiana benthamiana[458]
- ^ Phase I–IIa in South Korea in parallel with Phase II–III in the US
Efficacy
![](https://web.archive.org/web/20210310111532im_/https://upload.wikimedia.org/wikipedia/commons/thumb/b/b7/BNT162b2_vaccine_efficacy_data.png/260px-BNT162b2_vaccine_efficacy_data.png)
The effectiveness of a new vaccine is defined by its efficacy during clinical trials.[139] The efficacy is the risk of getting the disease by vaccinated participants in the trial compared with the risk of getting the disease by unvaccinated participants.[139] An efficacy of 0% means that the vaccine does not work (identical to placebo). An efficacy of 50% means that there are half as many cases of infection as in unvaccinated individuals.
It is not straightforward to compare the efficacies of the different vaccines because the trials were run with different populations, geographies, and variants of the virus.[502] In the case of COVID‑19, a vaccine efficacy of 67% may be enough to slow the pandemic, but this assumes that the vaccine confers sterilizing immunity, which is necessary to prevent transmission. Vaccine efficacy reflects disease prevention, a poor indicator of transmissibility of SARS‑CoV‑2 since asymptomatic people can be highly infectious.[503] The US Food and Drug Administration (FDA) and the European Medicines Agency (EMA) set a cutoff of 50% as the efficacy required to approve a COVID‑19 vaccine.[504][505] Aiming for a realistic population vaccination coverage rate of 75%, and depending on the actual basic reproduction number, the necessary effectiveness of a COVID-19 vaccine is expected to be at least 70% to prevent an epidemic and at least 80% to extinguish it without further measures, such as social distancing.[506]
In efficacy calculations, symptomatic COVID-19 is generally defined as having both a positive PCR test and at least one or two of a defined list of COVID-19 symptoms, although exact specifications varying between trials. The trial location also affects the reported efficacy because different countries have different prevalences of SARS-CoV-2 variants. Ranges below are 95% Confidence intervals. Authorized and approved vaccines have shown the following efficacies:
Vaccine | Efficacy against symptomatic COVID-19 | Efficacy against severe COVID-19 | Trial location | Refs |
---|---|---|---|---|
Moderna vaccine | 89–97% | no cases | United States | [507] |
Pfizer–BioNTech vaccine | 90–97% | not reported | multinational | [508] |
Sputnik V | 86–95% | 94–100% | Russia | [509] |
Oxford–AstraZeneca vaccine | 62–90% | [259] | ||
Novavax vaccine | 75–95% | no cases | United Kingdom | [510][511] |
20–80% | no cases | South Africa | ||
BBIBP-CorV | ~79% | multinational | [512][513] | |
CoronaVac | ~78% | ~100% | Brazil | [514][515][unreliable medical source?] |
Johnson & Johnson vaccine | 55–75% (moderate cases) | 54–97% | multinational | [516][517] |
58–82% (moderate cases) | −9–100% | United States | ||
49–81% (moderate cases) | 8–100% | Brazil | ||
41–79% (moderate cases) | 46–95% | South Africa | ||
Covaxin | ~81% | India | [518][unreliable medical source?] |
Variants
The emergence of a SARS-CoV-2 variant that is moderately or fully resistant to the antibody response elicited by the current generation of COVID-19 vaccines may require modification of the vaccines.[519] Trials indicate many vaccines developed for the initial strain have lower efficacy for some variants against symptomatic COVID-19.[520] As of February 2021, the US Food and Drug Administration believed that all FDA authorized vaccines remained effective in protecting against circulating strains of SARS-CoV-2.[521]
In December 2020, a new SARS‑CoV‑2 variant, B.1.1.7, was identified in the UK.[522] Early results suggest protection to the UK variant from the Pfizer and Moderna vaccines.[523] One study indicated that the Oxford–AstraZeneca vaccine had an efficacy of 42–89% against the B.1.1.7 variant, versus 71–91% against non-B.1.1.7 variants.[524] Preliminary data from a clinical trial indicated that the Novavax vaccine was ~96% effective for symptoms against the original variant, ~86% against B.1.1.7, and ~60% against the "South African" B.1.351 variant.[525]
501.V2 variant
Moderna has launched a trial of a new vaccine to tackle the South African 501.V2 variant (also known as B.1.351).[526] On 17 February 2021, Pfizer announced neutralization activity was reduced by two-thirds for the 501.V2 variant, while stating no claims about the efficacy of the vaccine in preventing illness for this variant could yet be made.[527]
In January, Johnson & Johnson, which held trials for its Ad26.COV2.S vaccine in South Africa, reported the level of protection against moderate to severe COVID-19 infection was 72% in the United States and 57% in South Africa.[528]
On 6 February 2021, the Financial Times reported that provisional trial data from a study undertaken by South Africa's University of the Witwatersrand in conjunction with Oxford University demonstrated reduced efficacy of the Oxford–AstraZeneca COVID-19 vaccine against the 501.V2 variant.[529] The study found that in a sample size of 2,000 the AZD1222 vaccine afforded only "minimal protection" in all but the most severe cases of COVID-19.[530] On 7 February 2021, the Minister for Health for South Africa suspended the planned deployment of around 1 million doses of the vaccine whilst they examine the data and await advice on how to proceed.[531][532]
Formulation
As of September 2020, eleven of the vaccine candidates in clinical development use adjuvants to enhance immunogenicity.[80] An immunological adjuvant is a substance formulated with a vaccine to elevate the immune response to an antigen, such as the COVID‑19 virus or influenza virus.[533] Specifically, an adjuvant may be used in formulating a COVID‑19 vaccine candidate to boost its immunogenicity and efficacy to reduce or prevent COVID‑19 infection in vaccinated individuals.[533][534] Adjuvants used in COVID‑19 vaccine formulation may be particularly effective for technologies using the inactivated COVID‑19 virus and recombinant protein-based or vector-based vaccines.[534] Aluminum salts, known as "alum", were the first adjuvant used for licensed vaccines, and are the adjuvant of choice in some 80% of adjuvanted vaccines.[534] The alum adjuvant initiates diverse molecular and cellular mechanisms to enhance immunogenicity, including release of proinflammatory cytokines.[533][534]
Deployment
Location | Vaccinated[b] | % of pop.[c] | |
---|---|---|---|
![]() |
286,586,871 | 2.4% | |
![]() |
60,005,231 | 17.9% | |
![]() |
52,520,000 | -- | |
![]() |
28,981,174 | 6.5% | |
![]() |
22,377,255 | 33.0% | |
![]() |
20,004,227 | 1.4% | |
![]() |
8,227,671 | 3.9% | |
![]() |
7,565,023 | 9.0% | |
![]() |
6,287,751 | -- | |
![]() |
5,350,408 | 6.4% | |
![]() |
5,136,605 | 3.5% | |
![]() |
4,995,253 | 57.7% | |
![]() |
4,176,094 | 21.9% | |
![]() |
3,961,941 | 10.7% | |
![]() |
3,890,367 | 6.4% | |
![]() |
3,881,967 | 5.7% | |
![]() |
3,682,152 | 2.2% | |
![]() |
3,328,703 | 7.1% | |
![]() |
2,888,757 | 1.1% | |
![]() |
2,570,094 | 6.8% | |
![]() |
2,245,291 | 1.7% | |
![]() |
1,964,221 | 5.2% | |
![]() |
1,484,935 | -- | |
![]() |
1,202,998 | 2.7% | |
![]() |
1,173,219 | 6.1% | |
![]() |
1,081,366 | 15.9% | |
![]() |
1,047,045 | 10.8% | |
![]() |
1,004,757 | 5.9% | |
![]() |
753,636 | 7.2% | |
![]() |
739,762 | 7.3% | |
![]() |
737,062 | -- | |
![]() |
618,280 | 5.3% | |
![]() |
597,424 | 5.9% | |
![]() |
594,930 | 5.6% | |
![]() |
582,436 | 6.7% | |
![]() |
582,407 | 6.5% | |
![]() |
539,710 | 9.3% | |
![]() |
481,577 | 8.7% | |
![]() |
446,941 | 0.8% | |
![]() |
402,264 | -- | |
![]() |
400,041 | 3.7% | |
![]() |
391,072 | 7.2% | |
![]() |
379,000 | 6.5% | |
![]() |
373,149 | 7.6% | |
![]() |
356,536 | 6.5% | |
![]() |
346,046 | 1.0% | |
![]() |
337,315 | 3.3% | |
![]() |
327,000 | -- | |
![]() |
322,000 | 7.5% | |
![]() |
316,079 | -- | |
![]() |
309,741 | 18.2% | |
![]() |
243,479 | 3.5% | |
![]() |
218,156 | 8.0% | |
![]() |
211,751 | -- | |
![]() |
182,000 | 4.4% | |
![]() |
158,898 | 1.2% | |
![]() |
150,000 | -- | |
![]() |
145,768 | -- | |
![]() |
144,678 | 7.0% | |
![]() |
142,049 | 2.8% | |
![]() |
112,914 | 0.4% | |
![]() |
106,200 | 0.3% | |
![]() |
103,800 | 1.4% | |
![]() |
103,142 | 0.2% | |
![]() |
102,236 | 0.9% | |
![]() |
101,841 | 0.2% | |
![]() |
101,452 | 7.7% | |
![]() |
100,000 | -- | |
![]() |
77,963 | 0.5% | |
![]() |
75,000 | -- | |
![]() |
72,882 | 0.0% | |
![]() |
70,796 | 0.1% | |
![]() |
70,408 | 2.0% | |
![]() |
68,244 | 0.4% | |
![]() |
66,768 | 0.4% | |
![]() |
65,776 | 3.5% | |
![]() |
65,002 | 14.7% | |
![]() |
64,007 | -- | |
![]() |
57,095 | 58.1% | |
![]() |
48,886 | 17.0% | |
![]() |
48,641 | 1.0% | |
![]() |
44,000 | 0.0% | |
![]() |
35,518 | 0.2% | |
![]() |
32,591 | 5.2% | |
![]() |
30,191 | 29.9% | |
![]() |
29,317 | 8.6% | |
![]() |
28,140 | 83.5% | |
![]() |
22,040 | -- | |
![]() |
20,944 | 0.2% | |
![]() |
20,157 | 0.1% | |
![]() |
19,118 | 0.0% | |
![]() |
17,702 | 26.9% | |
![]() |
16,000 | 0.3% | |
![]() |
15,833 | 18.6% | |
![]() |
15,793 | -- | |
![]() |
15,294 | 24.6% | |
![]() |
12,194 | 0.0% | |
![]() |
11,000 | -- | |
![]() |
10,000 | 0.0% | |
![]() |
9,431 | 0.2% | |
![]() |
7,262 | -- | |
![]() |
7,202 | 10.0% | |
![]() |
6,433 | 16.6% | |
![]() |
4,926 | -- | |
![]() |
4,260 | 8.7% | |
![]() |
3,929 | 26.2% | |
![]() |
3,927 | 6.9% | |
![]() |
3,849 | 0.1% | |
![]() |
3,843 | 0.3% | |
![]() |
2,721 | -- | |
![]() |
2,684 | 0.0% | |
![]() |
2,526 | 3.3% | |
![]() |
2,467 | 7.3% | |
![]() |
2,427 | 0.0% | |
![]() |
2,406 | 0.4% | |
![]() |
2,400 | -- | |
![]() |
2,094 | 1.1% | |
![]() |
2,000 | -- | |
![]() |
1,852 | 0.2% | |
![]() |
1,775 | 0.0% | |
![]() |
1,732 | 49.7% | |
![]() |
1,315 | -- | |
![]() |
996 | 0.3% | |
![]() |
652 | 13.0% | |
![]() |
440 | 0.0% | |
![]() |
146 | 0.1% | |
![]() |
107 | -- | |
![]() |
11,506 | 11.1% | |
![]() |
10,732 | 18.4% | |
![]() |
5,147 | 28.7% | |
Sources List of sources by country.
Notes
|
As of 8 March 2021, 312.25 million COVID‑19 vaccine doses had been administered worldwide based on official reports from national health agencies collated by Our World in Data.[537]
During a pandemic on the rapid timeline and scale of COVID‑19 infections during 2020, international organizations like the WHO and CEPI, vaccine developers, governments, and industry are evaluating the distribution of the eventual vaccine(s).[538] Individual countries producing a vaccine may be persuaded to favor the highest bidder for manufacturing or provide first-service to their own country.[539][540][541][542] Experts emphasize that licensed vaccines should be available and affordable for people at the frontline of healthcare and having the greatest need.[539][540][542] In April, it was reported that the UK agreed to work with 20 other countries and global organizations including France, Germany and Italy to find a vaccine and to share the results and that UK citizens would not get preferential access to any new COVID‑19 vaccines developed by taxpayer-funded UK universities.[543] Several companies plan to initially manufacture a vaccine at artificially low pricing, then increase prices for profitability later if annual vaccinations are needed and as countries build stock for future needs.[542]
An April 2020 CEPI report stated: "Strong international coordination and cooperation between vaccine developers, regulators, policymakers, funders, public health bodies, and governments will be needed to ensure that promising late-stage vaccine candidates can be manufactured in sufficient quantities and equitably supplied to all affected areas, particularly low-resource regions."[544] The WHO and CEPI are developing financial resources and guidelines for global deployment of several safe, effective COVID‑19 vaccines, recognizing the need is different across countries and population segments.[538][545][546][547] For example, successful COVID‑19 vaccines would likely be allocated first to healthcare personnel and populations at greatest risk of severe illness and death from COVID‑19 infection, such as the elderly or densely-populated impoverished people.[548][549] The WHO, CEPI, and GAVI have expressed concerns that affluent countries should not receive priority access to the global supply of eventual COVID‑19 vaccines, but rather protecting healthcare personnel and people at high risk of infection are needed to address public health concerns and reduce economic impact of the pandemic.[544][546][548]Liability
On 4 February 2020, US Secretary of Health and Human Services Alex Azar published a notice of declaration under the Public Readiness and Emergency Preparedness Act for medical countermeasures against COVID‑19, covering "any vaccine, used to treat, diagnose, cure, prevent, or mitigate COVID‑19, or the transmission of SARS-CoV-2 or a virus mutating therefrom", and stating that the declaration precludes "liability claims alleging negligence by a manufacturer in creating a vaccine, or negligence by a health care provider in prescribing the wrong dose, absent willful misconduct".[550] The declaration is effective in the United States through 1 October 2024.[550]
In the European Union, the COVID‑19 vaccines are licensed under a Conditional Marketing Authorisation which does not exempt manufacturers from civil and administrative liability claims.[551] While the purchasing contracts with vaccine manufacturers remain secret, they do not contain liability exemptions even for side-effects not known at the time of licensure.[552]
Society and culture
Access
Nations pledged to buy doses of COVID-19 vaccine before the doses were available. Though high-income nations represent only 14% of the global population, as of 15 November 2020, they had contracted to buy 51% of all pre-sold doses. Some high-income nations bought more doses than would be necessary to vaccinate their entire populations.[553]
On 18 January 2021, WHO Director-General Tedros Adhanom Ghebreyesus warned of problems with equitable distribution: "More than 39 million doses of vaccine have now been administered in at least 49 higher-income countries. Just 25 doses have been given in one lowest-income country. Not 25 million; not 25 thousand; just 25."[554]
The Chinese Sinopharm's COVID-19 vaccine was authorized for emergency use by Bahrain and the United Arab Emirates in December 2020.[555][556]
Some nations involved in long-standing territorial disputes have reportedly had their access to vaccines blocked by competing nations; Palestine has accused Israel blocking vaccine delivery to Gaza, while Taiwan has suggested that China has hampered its efforts to procure vaccine doses.[557][558][559]
A single dose of the COVID-19 vaccine by AstraZeneca would cost 47 Egyptian pounds (EGP) and the authorities are selling it between 100 and 200 EGP. A report by Carnegie Endowment for International Peace cited the current poverty rate in Egypt as around 29.7 percent, which constitutes approximately 30.5 million people, and claimed that about 15 million of the Egyptians would be unable to gain access to the luxury of vaccination. A human rights lawyer, Khaled Ali launched a lawsuit against the government, forcing them to provide vaccination free of cost to all members of the public.[560]
According to the immunologist Anthony Fauci, mutant strains of virus and limited vaccine distribution pose continuing risks and he said: "we have to get the entire world vaccinated, not just our own country."[561] Edward Bergmark and Arick Wierson are calling for an global vaccination effort and wrote that the wealthier nations' "me-first" mentality could ultimately backfire, because the spread of the virus in poorer countries would lead to more variants, against which current vaccines could be less effective.[562]
Misinformation
Vaccine hesitancy
Some 10% of the public perceives vaccines as unsafe or unnecessary, refusing vaccination – a global health threat called vaccine hesitancy[563] – which increases the risk of further viral spread that could lead to COVID‑19 outbreaks.[37] As of May 2020, estimates from two surveys were that 67% or 80% of people in the U.S. would accept a new vaccination against COVID‑19, with wide disparity by education level, employment status, ethnicity, and geography.[564] As of March 2021, 19% of US adults claim to have been vaccinated and 50% of US adults plan to get vaccinated.[565][566]
In an effort to demonstrate the vaccine's safety, prominent politicians have received it on camera, with others pledging to do so.[567][568][569]
See also
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Further reading
- Funk CD, Laferrière C, Ardakani A (2020). "A Snapshot of the Global Race for Vaccines Targeting SARS-CoV-2 and the COVID-19 Pandemic". Front Pharmacol. 11: 937. doi:10.3389/fphar.2020.00937. PMC 7317023. PMID 32636754.
- Development and Licensure of Vaccines to Prevent COVID-19: Guidance for Industry (Report). U.S. Food and Drug Administration. June 2020.
- Khandekar, Gauri, Otero-Iglesias Miguel (March 1, 2021). "How to quickly ramp up global vaccine production" Politico.
- Ramsay M, ed. (2020). "Chapter 14a: COVID-19". Immunisation against infectious disease. Public Health England.
- Levine, Hallie (23 September 2020). "The 5 Stages of COVID-19 Vaccine Development: What You Need to Know About How a Clinical Trial Works". Johnson & Johnson.
- Ware, Gemma (18 February 2021). "How patent laws get in the way of the global coronavirus vaccine rollout" The Conversation.
- Zimmer C, Sheikh K, Weiland N (20 May 2020). "A New Entry in the Race for a Coronavirus Vaccine: Hope". The New York Times.
Vaccine protocols
- "Protocol mRNA-1273-P301" (PDF). Moderna.
- "Protocol C4591001 PF-07302048 (BNT162 RNA-Based COVID-19 Vaccines)" (PDF). Pfizer.
- "Protocol AZD1222 – D8110C00001" (PDF). AstraZeneca.
- "Protocol VAC31518COV3001; Phase 3 (ENSEMBLE)" (PDF). Janssen Vaccines & Prevention.
- "Protocol VAC31518COV3009; Phase 3 (ENSEMBLE 2)" (PDF). Janssen Vaccines & Prevention.
External links
- "The COVID-19 candidate vaccine landscape". World Health Organization (WHO).
- COVID‑19 Vaccine Tracker. Regulatory Focus
- "STAT's Covid-19 Drugs and Vaccines Tracker". Stat.
- "COVID-19 vaccines: development, evaluation, approval and monitoring". European Medicines Agency.
- "Vaccine Development – 101". U.S. Food and Drug Administration.
- "Coronavirus Variants and Mutations". The New York Times.
- M.I.T. Lecture 10: Kizzmekia Corbett, Vaccines" on YouTube