COVID-19 vaccine

Diagram of the operation of an RNA vaccine. Messenger RNA contained in the vaccine enters cells and is translated into foreign proteins, which trigger an immune response.

Several COVID‑19 vaccines, including the Pfizer–BioNTech and Moderna vaccines, have been developed to use RNA to stimulate an immune response. When introduced into human tissue, the vaccine contains either self-replicating RNA or messenger RNA (mRNA), which both cause cells to express the SARS-CoV-2 spike protein. This teaches the body how to identify and destroy the corresponding pathogen. 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.[72][73][74][75]

RNA vaccines are the first COVID‑19 vaccines to be authorized in the United Kingdom, the United States and the European Union.[76][77] Authorized vaccines of this type are the Pfizer–BioNTech[78][79][80] and Moderna vaccines.[81][82] The CVnCoV RNA vaccine from CureVac failed in clinical trials.[83]

Severe allergic reactions are rare. In December 2020, 1,893,360 first doses of Pfizer–BioNTech COVID‑19 vaccine administration resulted in 175 cases of severe allergic reaction, of which 21 were anaphylaxis.[84] For 4,041,396 Moderna COVID‑19 vaccine dose administrations in December 2020 and January 2021, only ten cases of anaphylaxis were reported.[84] Lipid nanoparticles (LNPs) were most likely responsible for the allergic reactions.[84]

These vaccines are examples of non-replicating viral vector vaccines, using an adenovirus shell containing DNA that encodes a SARS‑CoV‑2 protein.[85][86] 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.[85]

Authorized vaccines of this type are the Oxford–AstraZeneca COVID‑19 vaccine,[87][88][89] the Sputnik V COVID‑19 vaccine,[90] Convidecia, and the Janssen COVID‑19 vaccine.[91][92]

Convidecia and the Janssen COVID‑19 vaccine are both one-shot vaccines which offer less complicated logistics and can be stored under ordinary refrigeration for several months.[93][94]

Sputnik V uses Ad26 for its first dose, which is the same as Janssen's only dose, and Ad5 for the second dose, which is the same as Convidecia's only dose.[95]

In August 2021, the developers of Sputnik V proposed, in view of the Delta case surge, that Pfizer test the Ad26 component (termed its 'Light' version)[96] as a booster shot:

Delta cases surge in US & Israel shows mRNA vaccines need a heterogeneous booster to strengthen & prolong immune response. #SputnikV pioneered mix&match approach, combo trials & showed 83.1% efficacy vs Delta. Today RDIF offers Pfizer to start trial with Sputnik Light as booster.[97]

Inactivated vaccines consist of virus particles that are grown in culture and then killed using a method such as heat or formaldehyde to lose disease producing capacity, while still stimulating an immune response.[98]

Authorized vaccines of this type are the Chinese CoronaVac[99][100][101] and the Sinopharm BIBP[102] and WIBP vaccines; the Indian Covaxin; later this year the Russian CoviVac;[103] the Kazakh vaccine QazVac;[104] and the Iranian COVIran Barekat.[105] Vaccines in clinical trials include the Valneva COVID‑19 vaccine.[106][107]

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.[108]

The authorized vaccines of this type are the peptide vaccine EpiVacCorona,[109] ZF2001,[63] MVC-COV1901,[110] and Corbevax.[111][112] Vaccines with pending authorizations or include the Novavax COVID‑19 vaccine,[113] Soberana 02 (a conjugate vaccine), and the Sanofi–GSK vaccine.

The V451 vaccine was previously in clinical trials, which were terminated because it was found that the vaccine may potentially cause incorrect results for subsequent HIV testing.[114][115]

Additional types of vaccines that are in clinical trials include virus-like particle vaccines, multiple DNA plasmid vaccines,[116][117][118][119][120][121] at least two lentivirus vector vaccines,[122][123] a conjugate vaccine, and a vesicular stomatitis virus displaying the SARS‑CoV‑2 spike protein.[124]

Scientists investigated whether existing vaccines for unrelated conditions could prime the immune system and lessen the severity of COVID‑19 infection.[125] 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.[126]

Currently, all coronavirus vaccines available, regardless of the different types of technology they are based on, are administrated by injection. However, various other types of vaccine delivery methods have been studied for future coronavirus vaccines.[127]

Intranasal vaccines target mucosal immunity in the nasal mucosa which is a portal for viral entrance to the body.[128][129] These vaccines are designed to stimulate nasal immune factors, such as IgA.[128] In addition to inhibiting the virus, nasal vaccines provide ease of administration because no needles (and the accompanying needle phobia) are involved.[129][130] Nasal vaccines have been approved for influenza,[129][130] but not for COVID-19.

A variety of intranasal COVID-19 vaccines are undergoing clinical trials. One is in use in China.[131] Examples include a vaccine candidate which uses a modified avian virus as a vector to target SARS-CoV-2 spike proteins and an mRNA vaccine delivered via a nasal nanoparticle spray.[132]

Aivita Biomedical is developing an experimental autologous dendritic cell COVID‑-19 vaccine kit where the vaccine is prepared and incubated at the point-of-care using cells from the intended recipient.[133] The vaccine is undergoing small phase I and phase II clinical studies.[133][134][135]

A universal coronavirus vaccine is effective against all coronavirus (and possibly other) viruses.[136][137] The concept was publicly endorsed by NIAID director Anthony Fauci, virologist Jeffery K. Taubenberger, and David M. Morens.[138] In March 2022, the White House released the "National COVID-19 Preparedness Plan", which recommended to accelerate development of such vaccines.[139]

One strategy for developing such vaccines was developed at Walter Reed Army Institute of Research (WRAIR). It uses a spike ferritin-based nanoparticle (SpFN). This vaccine began a Phase I clinical trial in April 2022.[140]

Another strategy is to attach vaccine fragments from multiple strains to a nanoparticle scaffold. Universality is enhanced by targeting the receptor-binding domain rather than the spike protein.[141]

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 several years.[143] Public health programs have been described as in "[a] race to vaccinate individuals" with the early wave vaccines.[144]

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.[143][145] As an example, Chinese vaccine developers and the government Chinese Center for Disease Control and Prevention began their efforts in January 2020,[146] 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.[143][147]

The rapid development and urgency of producing a vaccine for the COVID‑19 pandemic was expected to increase the risks and failure rate of delivering a safe, effective vaccine.[69][70][148] Additionally, research at universities is obstructed by physical distancing and closing of laboratories.[149][150]

Vaccines must progress through several phases of clinical trials to test for safety, immunogenicity, effectiveness, dose levels and adverse effects of the candidate vaccine.[151][152] 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 rates across and within countries, forcing companies to compete for trial participants.[153] Clinical trial organizers also may encounter people unwilling to be vaccinated due to vaccine hesitancy[154] or disbelief in the science of the vaccine technology and its ability to prevent infection.[155] 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.[156][157][158]

Internationally, the Access to COVID‑19 Tools Accelerator is a G20 and World Health Organization (WHO) initiative announced in April 2020.[159][160] 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.[161] 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.[162]

National governments have also been involved in vaccine development. Canada announced funding of 96 projects for development and production of vaccines at Canadian companies and universities with plans to establish a "vaccine bank" that could be used if another coronavirus outbreak occurs,[163] and to support clinical trials and develop manufacturing and supply chains for vaccines.[164]

China provided low-rate loans to one vaccine developer through its central bank, and "quickly made land available for the company" to build production plants.[145] Three Chinese vaccine companies and research institutes are supported by the government for financing research, conducting clinical trials, and manufacturing.[165]

The United Kingdom government 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. The UK's Vaccine Taskforce contributed to every phase of development from research to manufacturing.[166]

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.[145][167] In May 2020, the government announced funding for a fast-track program called Operation Warp Speed.[168][169] By March 2021, BARDA had funded an estimated $19.3 billion in COVID‑19 vaccine development.[170]

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 toward effective vaccines.[145][143]

As of March 2022, elderly residents' protection against severe illness, hospitalization and death in English care homes was high immediately after vaccination, but protection declined significantly in the months following vaccination. Protection among care home staff, who were younger, declined much more slowly. Regular boosters are recommended for older people and boosters every six months for care home residents appear reasonable.[221]

A December 2021 Qatari study found that the Pfizer–BioNTech COVID-19 vaccine was 81.5% effective at preventing infection in the first month after receiving the second dose, but that efficacy dropped to 12.8% within 6 months.[222]

The CDC recommends a fourth dose of the Pfizer mRNA vaccine as of March 2022, for "certain immunocompromised individuals and people over the age of 50".[223][224]

In contrast to other investigated prior variants, the SARS-CoV-2 Omicron variant[225][226][227][228][229] as well as its BA.4/5 subvariants[230] are evading immunity induced by vaccines that may lead to breakthrough infections despite, even recent, vaccination. Nevertheless, current vaccines are thought to provide a level of protection against severe illness, hospitalizations, and deaths due to Omicron.[231]

As of 2022, fully vaccinated individuals with breakthrough infections with SARS-CoV-2 delta (B.1.617.2) variant have peak viral load similar to unvaccinated cases and are able to transmit infection in household settings.[233]

Note about table in this section: Number and percentage of people who have received at least one dose of a COVID‑19 vaccine (unless noted otherwise). May include vaccination of non-citizens, which can push totals beyond 100% of the local population. Table is updated daily by a bot.[note 2]

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Updated November 2, 2022.

COVID-19 vaccine distribution by country[250]

	Location	Vaccinated[lower-alpha 2]	Percent[lower-alpha 3]
	World[lower-alpha 4][lower-alpha 5]	5,421,024,323	67.97%
	China[lower-alpha 6]	1,302,773,000	91.37%
	India	1,026,864,496	72.46%
	European Union[lower-alpha 7]	337,889,159	75.06%
	United States[lower-alpha 8]	266,031,472	80.13%
	Indonesia	204,306,153	74.16%
	Brazil	187,385,670	87.03%
	Bangladesh	140,109,254	81.85%
	Pakistan	139,532,638	59.17%
	Japan	104,279,877	84.13%
	Mexico	97,179,493	76.70%
	Vietnam	90,034,165	92.37%
	Russia	85,859,068	59.33%
	Philippines	77,931,484	68.43%
	Iran	65,075,871	73.49%
	Germany	64,803,231	77.73%
	Turkey	57,936,783	67.89%
	Nigeria	57,013,442	26.09%
	Thailand	57,005,497	79.62%
	France	54,587,663	80.50%
	United Kingdom	53,806,963	79.97%
	Egypt	53,448,279	48.16%
	Italy[lower-alpha 9]	50,849,105	86.13%
	South Korea	45,121,392	87.08%
	Ethiopia	44,695,420	37.16%
	Colombia	42,816,825	82.54%
	Argentina	41,349,336	90.86%
	Spain	41,310,693	86.99%
	Myanmar	34,777,314	64.64%
	Canada	33,811,874	87.93%
	Peru	29,972,259	88.03%
	Malaysia	28,109,091	82.82%
	Nepal	27,290,944	89.34%
	Saudi Arabia	26,892,699	74.81%
	Morocco	25,008,403	66.76%
	Tanzania	23,687,636	37.25%
	Poland	22,805,660	57.22%
	Australia	22,443,557	86.58%
	South Africa	22,397,220	37.39%
	Venezuela	22,157,232	77.19%
	Taiwan	21,777,653	91.15%
	Uzbekistan	21,037,140	61.73%
	Uganda	18,867,075	41.15%
	Mozambique	18,541,300	56.24%
	Chile	18,075,475	92.20%
	Sri Lanka	17,133,773	78.48%
	Ukraine	15,729,617	36.19%
	Ecuador	15,237,333	85.61%
	Cambodia	15,207,117	90.69%
	Angola	14,220,830	39.96%
	Kenya	13,610,115	25.68%
	Netherlands	12,775,557	73.00%
	Ghana	11,753,461	35.80%
	Iraq	11,234,347	25.25%
	Afghanistan	11,084,618	26.95%
	Kazakhstan	10,842,957	55.90%
	Ivory Coast	10,721,755	39.02%
	Cuba	10,710,538	95.53%
	United Arab Emirates	9,991,089	100.00%
	Portugal	9,760,684	95.03%
	Rwanda	9,349,802	67.87%
	Belgium	9,260,208	79.45%
	Tunisia	8,896,848	72.55%
	Guatemala	8,835,536	49.52%
	Romania	8,183,574	41.63%
	Greece	7,930,116	76.36%
	Algeria	7,840,131	17.75%
	Sweden	7,824,196	74.17%
	Zambia	7,540,676	38.72%
	Bolivia	7,361,008	60.94%
	Dominican Republic	7,290,037	64.92%
	Somalia	6,995,177	39.75%
	Czech Republic	6,976,033	66.48%
	Austria	6,891,323	77.09%
	Hong Kong	6,886,345	91.95%
	Israel	6,719,515	71.11%
	Sudan	6,651,268	14.81%
	Belarus	6,512,843	68.30%
	Zimbabwe	6,437,808	40.25%
	Hungary	6,419,183	64.40%
	Honduras	6,404,041	61.38%
	Nicaragua	6,104,149	87.85%
	Switzerland	6,094,299	69.73%
	Laos	5,888,649	79.31%
	Democratic Republic of the Congo	5,719,214	5.78%
	Azerbaijan	5,373,253	52.10%
	Tajikistan	5,282,863	54.18%
	Guinea	5,206,666	37.57%
	Singapore	5,163,385	91.60%
	Jordan	4,821,579	43.25%
	Denmark	4,807,990	81.74%
	El Salvador	4,652,597	73.69%
	Finland	4,522,355	81.62%
	Costa Rica	4,500,155	86.86%
	Norway	4,346,616	79.98%
	New Zealand	4,298,557	82.90%
	Republic of Ireland	4,097,448	82.17%
	Paraguay	3,967,215	58.51%
	Chad	3,879,297	22.58%
	Malawi	3,748,590	18.85%
	Niger	3,742,019	14.28%
	Liberia	3,692,705	69.64%
	Panama	3,509,310	79.60%
	Kuwait	3,447,845	80.77%
	Sierra Leone	3,441,631	39.99%
	Serbia	3,354,075	48.81%
	Oman	3,279,632	72.55%
	Benin	3,207,889	24.02%
	Burkina Faso	3,079,151	13.93%
	Syria	3,050,850	13.79%
	Uruguay	3,001,997	87.71%
	Qatar	2,844,654	105.55%
	Slovakia	2,822,919	51.82%
	Lebanon	2,733,290	49.79%
	Mali	2,550,281	11.29%
	Croatia	2,319,433	57.55%
	Libya	2,308,724	34.28%
	Mongolia	2,272,965	68.27%
	Togo	2,170,804	24.53%
	South Sudan	2,127,334	19.49%
	Bulgaria	2,103,303	31.01%
	Palestine	2,012,767	38.34%
	Mauritania	2,006,570	43.48%
	Lithuania	1,955,797	71.12%
	Madagascar	1,738,967	5.87%
	Central African Republic	1,674,402	30.01%
	Georgia	1,654,504	44.03%
	Kyrgyzstan	1,620,639	24.44%
	Cameroon	1,615,128	5.94%
	Botswana	1,589,621	61.41%
	Senegal	1,563,871	9.27%
	Latvia	1,346,184	71.84%
	Albania	1,339,100	47.11%
	Slovenia	1,265,802	59.72%
	Bahrain	1,240,903	84.29%
	Armenia	1,128,072	38.01%
	Mauritius	1,123,773	86.48%
	Moldova	1,101,302	35.97%
	Bosnia and Herzegovina	943,394	28.91%
	Lesotho	924,248	40.51%
	Yemen	914,722	2.71%
	Kosovo	906,442	50.86%
	Estonia	867,742	65.44%
	Timor-Leste	858,569	64.01%
	North Macedonia	854,335	40.62%
	Jamaica	834,720	29.52%
	Trinidad and Tobago	753,588	49.39%
	Fiji	710,660	76.43%
	Bhutan	699,028	89.34%
	Republic of the Congo	695,760	11.92%
	Cyprus	669,939	74.77%
	Guinea-Bissau	640,393	31.08%
	Macau	625,026	91.03%
	Namibia	594,323	23.15%
	Eswatini	492,300	41.29%
	Guyana	485,891	60.39%
	Luxembourg	481,768	74.39%
	Malta	478,271	89.68%
	Gambia	452,514	17.14%
	Brunei	450,060	101.05%
	Comoros	438,825	53.41%
	Maldives	399,126	76.20%
	Haiti	365,708	3.16%
	Cabo Verde	356,734	60.68%
	Papua New Guinea	356,545	3.52%
	Solomon Islands	343,821	47.47%
	Gabon	310,579	13.27%
	Iceland	309,770	84.00%
	Montenegro	292,783	46.63%
	Northern Cyprus	284,357	74.39%
	Equatorial Guinea	270,109	16.53%
	Suriname	267,820	45.26%
	Djibouti	253,611	22.63%
	Belize	251,358	62.02%
	New Caledonia	191,613	66.08%
	Samoa	191,108	85.93%
	French Polynesia	190,155	62.08%
	Vanuatu	176,038	53.88%
	Bahamas	173,529	42.33%
	Barbados	163,707	58.13%
	Sao Tome and Principe	127,399	57.10%
	Curaçao	108,567	56.79%
	Kiribati	93,685	72.70%
	Tonga	90,881	85.04%
	Aruba	89,981	84.52%
	Seychelles	85,492	80.30%
	Jersey	84,157	75.96%
	Isle of Man	69,560	81.44%
	Saint Lucia	65,297	36.30%
	Antigua and Barbuda	64,290	68.97%
	Cayman Islands	61,787	90.68%
	Andorra	57,898	72.51%
	Guernsey	54,146	85.42%
	Bermuda	48,554	75.65%
	Grenada	44,093	35.38%
	Gibraltar	42,074	124.88%
	Faroe Islands	41,715	85.04%
	Greenland	41,243	72.52%
	Saint Vincent and the Grenadines	37,310	35.89%
	Saint Kitts and Nevis	33,794	70.99%
	Dominica	32,995	45.57%
	Turks and Caicos Islands	32,338	71.68%
	Turkmenistan	32,240	0.53%
	Sint Maarten	29,788	67.64%
	Liechtenstein	26,762	68.00%
	Monaco	26,672	67.49%
	San Marino	26,357	77.50%
	Burundi	23,330	0.18%
	British Virgin Islands	19,466	62.55%
	Caribbean Netherlands	19,109	72.26%
	Cook Islands	15,084	88.56%
	Nauru	11,522	90.79%
	Anguilla	10,852	68.35%
	Wallis and Futuna	7,136	61.54%
	Tuvalu	6,368	53.40%
	Saint Helena, Ascension and Tristan da Cunha	4,361	71.83%
	Falkland Islands	2,632	75.57%
	Montserrat	2,104	47.63%
	Niue	1,650	102.23%
	Tokelau	1,494	78.92%
	Pitcairn Islands	47	100.00%
	North Korea	0	0.00%
The Oxford–AstraZeneca COVID‑19 vaccine is codenamed AZD1222,[52] and later supplied under brand names, including Vaxzevria[53] and Covishield.[54][55] Number of people who have received at least one dose of a COVID-19 vaccine (unless noted otherwise). Percentage of population that has received at least one dose of a COVID-19 vaccine. May include vaccination of non-citizens, which can push totals beyond 100% of the local population. Countries which do not report data for a column are not included in that column's world total. Vaccination Note: Countries which do not report the number of people who have received at least one dose are not included in the world total. Does not include special administrative regions (Hong Kong and Macau) or Taiwan. Data on member states of the European Union are individually listed, but are also summed here for convenience. They are not double-counted in world totals. Vaccination Note: Includes Freely Associated States Vaccination Note: Includes Vatican City

Countries have extremely unequal access to the COVID-19 vaccine. Vaccine equity has not been achieved, or even approximated. The inequity has harmed both countries with poor access and countries with good access.[17][18][267]

Nations pledged to buy doses of the 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.[16]

Production of Sputnik V vaccine in Brazil, January 2021.

An elderly man receiving second dose of CoronaVac vaccine in Brazil, April 2021.

Covid vaccination for children aged 12–14 in Bhopal, India

In 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."[268]

In March 2021, it was revealed the US attempted to convince Brazil not to purchase the Sputnik V COVID‑19 vaccine, fearing "Russian influence" in Latin America.[269] Some nations involved in long-standing territorial disputes have reportedly had their access to vaccines blocked by competing nations; Palestine has accused Israel of blocking vaccine delivery to Gaza, while Taiwan has suggested that China has hampered its efforts to procure vaccine doses.[270][271][272]

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 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.[273]

According to immunologist Dr. Anthony Fauci, mutant strains of the virus and limited vaccine distribution pose continuing risks and he said: "we have to get the entire world vaccinated, not just our own country."[274] Edward Bergmark and Arick Wierson are calling for a 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 the vaccines could be less effective.[275]

In March 2021, the United States, Britain, European Union member states and some other members of the World Trade Organization (WTO) blocked a push by more than eighty developing countries to waive COVID‑19 vaccine patent rights in an effort to boost production of vaccines for poor nations.[276] On 5 May 2021, the US government under President Joe Biden announced that it supports waiving intellectual property protections for COVID‑19 vaccines.[277] The Members of the European Parliament have backed a motion demanding the temporary lifting of intellectual properties rights for COVID‑19 vaccines.[278]

COVID‑19 mass vaccination queue in Finland, June 2021.

A drive-through COVID‑19 vaccination center in Iran, August 2021.

In a meeting in April 2021, the World Health Organization's emergency committee addressed concerns of persistent inequity in the global vaccine distribution.[279] Although 9 percent of the world's population lives in the 29 poorest countries, these countries had received only 0.3% of all vaccines administered as of May 2021.[280] In March 2021, Brazilian journalism agency Agência Pública reported that the country vaccinated about twice as many people who declare themselves white than black and noted that mortality from COVID‑19 is higher in the black population.[281]

In May 2021, UNICEF made an urgent appeal to industrialized nations to pool their excess COVID‑19 vaccine capacity to make up for a 125-million-dose gap in the COVAX program. The program mostly relied on the Oxford–AstraZeneca COVID‑19 vaccine produced by Serum Institute of India, which faced serious supply problems due to increased domestic vaccine needs in India from March to June 2021. Only a limited amount of vaccines can be distributed efficiently, and the shortfall of vaccines in South America and parts of Asia are due to a lack of expedient donations by richer nations. International aid organizations have pointed at Nepal, Sri Lanka, and Maldives as well as Argentina and Brazil, and some parts of the Caribbean as problem areas, where vaccines are in short supply. In mid-May 2021, UNICEF was also critical of the fact that most proposed donations of Moderna and Pfizer vaccines were not slated for delivery until the second half of 2021, or early in 2022.[282]

In July 2021, the heads of the World Bank Group, the International Monetary Fund, the World Health Organization, and the World Trade Organization said in a joint statement: "As many countries are struggling with new variants and a third wave of COVID‑19 infections, accelerating access to vaccines becomes even more critical to ending the pandemic everywhere and achieving broad-based growth. We are deeply concerned about the limited vaccines, therapeutics, diagnostics, and support for deliveries available to developing countries."[283][284] In July 2021, The BMJ reported that countries have thrown out over 250,000 vaccine doses as supply exceeded demand and strict laws prevented the sharing of vaccines.[285] A survey by The New York Times found that over a million doses of vaccine had been thrown away in ten U.S. states because federal regulations prohibit recalling them, preventing their redistribution abroad.[286] Furthermore, doses donated close to expiration often cannot be administered quickly enough by recipient countries and end up having to be discarded.[287] To help overcome this problem, the Prime Minister of India, Narendra Modi announced that they would make their digital vaccination management platform CoWIN open to the global community. He also announced that India would also release the source code for contact tracing app Aarogya Setu for developers around the world. Around 142 countries including Afghanistan, Bangladesh, Bhutan, Maldives, Guyana, Antigua & Barbuda, St. Kitts & Nevis and Zambia expressed their interest in the application for COVID management.[288][289]

Amnesty International and Oxfam International have criticized the support of vaccine monopolies by the governments of producing countries, noting that this is dramatically increasing the dose price by five times and often much more, creating an economic barrier to access for poor countries.[290][291] Médecins Sans Frontières (Doctors without Borders) has also criticized vaccine monopolies and repeatedly called from their suspension, supporting the TRIPS Waiver. The waiver was first proposed in October 2020, and has support from most countries, but delayed by opposition from EU (especially Germany - major EU countries such as France, Italy and Spain support the exemption),[292] UK, Norway, and Switzerland, among others. MSF called for a Day of Action in September 2021 to put pressure on the WTO Minister's meeting in November, which was expected to discuss the TRIPS IP waiver.[293][294][295]

Inside of a vaccination center in Brussels, Belgium, February 2021.

In August 2021, to reduce unequal distribution between rich and poor countries, the WHO called for a moratorium on a booster dose at least until the end of September. However, in August, the United States government announced plans to offer booster doses eight months after the initial course to the general population, starting with priority groups. Before the announcement, the WHO harshly criticized this type of decision, citing the lack of evidence for the need for boosters, except for patients with specific conditions. At this time, vaccine coverage of at least one dose was 58% in high-income countries and only 1.3% in low-income countries, and 1.14 million Americans already received an unauthorized booster dose. US officials argued that waning efficacy against mild and moderate disease might indicate reduced protection against severe disease in the coming months. Israel, France, Germany, and the United Kingdom have also started planning boosters for specific groups.[296][297][298] In September 2021, more than 140 former world leaders, and Nobel laureates, including former President of France François Hollande, former Prime Minister of the United Kingdom Gordon Brown, former Prime Minister of New Zealand Helen Clark, and Professor Joseph Stiglitz, called on the candidates to be the next German chancellor to declare themselves in favour of waiving intellectual property rules for COVID‑19 vaccines and transferring vaccine technologies.[299] In November 2021, nursing unions in 28 countries have filed a formal appeal with the United Nations over the refusal of the UK, EU, Norway, Switzerland, and Singapore to temporarily waive patents for Covid vaccines.[300]

During his first international trip, President of Peru Pedro Castillo spoke at the seventy-sixth session of the United Nations General Assembly on 21 September 2021, proposing the creation of an international treaty signed by world leaders and pharmaceutical companies to guarantee universal vaccine access, arguing "The battle against the pandemic has shown us the failure of the international community to cooperate under the principle of solidarity".[301][302]

Optimizing the societal benefit of vaccination may benefit from a strategy that is tailored to the state of the pandemic, the demographics of a country, the age of the recipients, the availability of vaccines, and the individual risk for severe disease: In the UK, the interval between prime and boost dose was extended to vaccinate as many persons as early as possible,[303] many countries are starting to give an additional booster shot to the immunosuppressed[304][305] and the elderly,[306] and research predicts an additional benefit of personalizing vaccine dose in the setting of limited vaccine availability when a wave of virus Variants of Concern hits a country.[307]

Despite the extremely rapid development of effective mRNA and viral vector vaccines, vaccine equity has not been achieved.[17] The World Health Organization called for 70 per cent of the global population to be vaccinated by mid-2022, but as of March 2022 it was estimated that only one per cent of the 10 billion doses given worldwide had been administered in low-income countries.[308] An additional 6 billion vaccinations may be needed to fill vaccine access gaps, particularly in developing countries. Given the projected availability of the newer vaccines, the development and use of whole inactivated virus (WIV) and protein-based vaccines are also recommended. Organizations such as the Developing Countries Vaccine Manufacturers Network could help to support the production of such vaccines in developing countries, with lower production costs and greater ease of deployment.[17][309]

While vaccines substantially reduce the probability and severity of infection, it is still possible for fully vaccinated people to contract and spread COVID‑19.[310] Public health agencies have recommended that vaccinated people continue using preventive measures (wear face masks, social distance, wash hands) to avoid infecting others, especially vulnerable people, particularly in areas with high community spread. Governments have indicated that such recommendations will be reduced as vaccination rates increase and community spread declines.[311]

Moreover, an unequal distribution of vaccines will deepen inequality and exaggerate the gap between rich and poor and will reverse decades of hard-won progress on human development.
— United Nations, COVID vaccines: Widening inequality and millions vulnerable[312]

Vaccine inequity damages the global economy, disrupting the global supply chain.[267] Most vaccines were being reserved for wealthy countries, as of September 2021,[312] some of which have more vaccine than is needed to fully vaccinate their populations.[16] When people, undervaccinated, needlessly die, experience disability, and live under lockdown restrictions, they cannot supply the same goods and services. This harms the economies of undervaccinated and overvaccinated countries alike. Since rich countries have larger economies, rich countries may lose more money to vaccine inequity than poor ones,[267] though the poor ones will lose a higher percentage of GDP and experience longer-term effects.[313] High-income countries would profit an estimated US$4.80 for every $1 spent on giving vaccines to lower-income countries.[267]

The International Monetary Fund sees the vaccine divide between rich and poor nations as a serious obstacle to a global economic recovery.[314] Vaccine inequity disproportionately affects refuge-providing states, as they tend to be poorer, and refugees and displaced people are economically more vulnerable even within those low-income states, so they have suffered more economically from vaccine inequity.[315][17]

Several governments agreed to shield pharmaceutical companies like Pfizer and Moderna from negligence claims related to COVID‑19 vaccines (and treatments), as in previous pandemics, when governments also took on liability for such claims.

In the US, these liability shields took effect on 4 February 2020, when the US Secretary of Health and Human Services Alex Azar published a notice of declaration under the Public Readiness and Emergency Preparedness Act (PREP 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". 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." In other words, absent "willful misconduct", these companies can not be sued for money damages for any injuries that occur between 2020 and 2024 from the administration of vaccines and treatments related to COVID‑19.[316] The declaration is effective in the United States through 1 October 2024.[316]

In December 2020, the UK government granted Pfizer legal indemnity for its COVID‑19 vaccine.[317]

In the European Union, the COVID‑19 vaccines were granted a conditional marketing authorization which does not exempt manufacturers from civil and administrative liability claims.[318] The EU conditional marketing authorizations were changed to standard authorizations in September 2022.[319] 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.[320]

The Bureau of Investigative Journalism, a nonprofit news organization, reported in an investigation that unnamed officials in some countries, such as Argentina and Brazil, said that Pfizer demanded guarantees against costs of legal cases due to adverse effects in the form of liability waivers and sovereign assets such as federal bank reserves, embassy buildings or military bases, going beyond the expected from other countries such as the US.[321] During the pandemic parliamentary inquiry in Brazil, Pfizer's representative said that its terms for Brazil are the same as for all other countries with which it has signed deals.[322]

In June 2021, a report revealed that the UB-612 vaccine, developed by the US-based COVAXX, was a for-profit venture initiated by the Blackwater founder Erik Prince. In a series of text messages to Paul Behrends, the close associate recruited for the COVAXX project, Prince described the profit-making possibilities in selling the COVID‑19 vaccines. COVAXX provided no data from the clinical trials on safety or efficacy it conducted in Taiwan. The responsibility of creating distribution networks was assigned to an Abu Dhabi-based entity, which was mentioned as "Windward Capital" on the COVAXX letterhead but was actually Windward Holdings. The firm's sole shareholder, which handled "professional, scientific and technical activities", was Erik Prince. In March 2021, COVAXX raised $1.35 billion in a private placement.[323]

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