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Polio Vaccines: New Developments on the Road to Eradication

July 7, 2022

This article was originally published on July 7, 2022 and has been updated by the author.

For most people, (polio) is a threat of the past.

Since the inception of the (GPEI) in 1988, more than 2.5 billion children have been immunized against polio, leading to its elimination from much of the world. Indeed, of the 3 serotypes of wild poliovirus (the causative agent of the disease), only type 1 remains , the 2 countries where polio (i.e., wild poliovirus) is still endemic.

However, cases of polio continue to crop up in non-endemic countries across the globe, from Ukraine to the . On July 21, 2022, a paralytic , the first case in the U.S. since 2013. Additionally, poliovirus from wastewater in the U.K., with suspected transmission among children. What is driving these outbreaks—and what can be done to stop them?

Vaccines as Key Tools in the Fight Against Polio

Transmission electron microscope image of poliovirus particles.
Transmission electron microscope image of poliovirus particles.
Source: cdc.gov.
, a serotype of the Enterovirus C species and member of the Picornaviridae family, which resides in the gut and throat but can invade the nervous system to cause paralysis. Paralysis occurs in about 1 in every 200 cases, . Children under 5 are the most at-risk for contracting the disease, though the reasons for this are not entirely clear. Given there are no treatments for polio, vaccination is the only tool available for combatting the disease. Luckily, vaccination is extremely effective at preventing polio.

There are 2 types of polio vaccines: the and . The IPV contains dead polioviruses and is administered via intramuscular or intradermal injection; it is the only polio vaccine used in the U.S. OPV, on the other hand, contain live polioviruses and are administered through the mouth. The viruses in OPV have been mutated to replicate effectively in the gut, thus triggering a robust immune response, but are 10,000 times less likely to invade the nervous system and cause paralysis.

While IPV does an excellent job of protecting individuals from paralytic disease, it cannot stop community transmission of poliovirus—but OPV can. When attenuated viruses from OPV are excreted in a vaccinated person’s stool, they can, in areas with poor sanitation, spread to other people and trigger "passive immunity"—essentially secondhand vaccination.

The ease of administration (all it takes is plopping a few drops of OPV into a child’s mouth), affordability and ability to stop community spread of polio have made OPV indispensable to mass immunization and outbreak control campaigns.

Child receiving oral polio vaccine
OPV have been instrumental in polio control efforts, due in part to their affordability and ease of administration.
Source: cdc.gov.

Emergence of Circulating Vaccine-Derived Polioviruses

Although OPV are some of the best weapons available for fighting polio, they have seeded a new set of problems. Recent polio outbreaks in stem from poliovirus strains originally contained in OPV, called . As cVDPV disperse throughout communities with low polio vaccination rates or waning immunity, they can, in some cases, mutate into a form capable of causing paralysis. Between January 2020 and June 2021, .

The GPEI’s goal is "to phase-out using OPV and proceed to using just IPV, which has fewer potential risks," said Amy Weiner, a senior program officer at the , which supports polio eradication efforts. This is because the IPV does not contain live virus and thus cannot lead to development of cVDPV. Unfortunately, cVDPV strains "are a major challenge to accomplishing this goal," as they promote community spread of poliovirus, which can only be combatted with OPV, thus perpetuating the cycle.

Of the 3 types of cVDPV, for over 90% of vaccine-associated outbreaks worldwide. The culprits behind polio cases in multiple countries, including Ukraine and , and the , have been identified as cVDPV2. The recent U.S. polio case , which indicates that the chain of infection likely began with someone who received an OPV.

Prior to 2016, children were immunized with a trivalent oral polio vaccine (tOPV), which offered protection against all 3 strains of wild poliovirus. The emergence of cVDPV2 strains, however, prompted the removal of type 2 polio from the tOPV. "This led to reduced immunity to type 2 poliovirus," Weiner noted.

As a result, if cVDPV2 isolates from the environment find their way into an under-immunized community, they can spread more easily. In the event of a cVPDV2-associated outbreak, children are immunized against type 2 poliovirus . Though effective at halting outbreaks, because the vaccine still contains live, attenuated poliovirus, it can "potentially seed more cVDVP2 [strains]," Weiner said. This of unimmunized children contracting paralytic polio.

New Developments: The Novel Oral Polio Vaccine 2

The cVDPV2-seeding potential of mOPV2 prompted development of a new vaccine with fewer risks. The novel oral polio vaccine 2 (nOPV2) contains a modified strain of type 2 poliovirus that is . Weiner highlighted that, compared to the old monovalent vaccine, nOPV2 has a similar safety profile, induces a similar immune response and is unlikely to be shed at a greater rate. Importantly, nOPV2 is more genetically stable, which "was the primary goal for its development."

This isn’t to say the nOPV2 poliovirus does not change—the virus can and does mutate in humans. However, "its evolution follows a different path than the mOPV2 [strain] and, so far, exhibits significantly less neurovirulence," Weiner said. (CDC), there is roughly 1 cVDPV2 emergence per 10 million doses of mOPV2 administered; for nOPV2, the rate is 10 times lower, at 1 emergence per 100 million doses. It does happen however, as evidenced by the appearance of cVDPV2 originating from nOPV2 in 6 African countries between August 2021 and July 2023. Thus, continuing to keep tabs on the emergence of cVDPV2 will be important.

The outlook for nOPV2 is bright. It is authorized for use , which enables the early, targeted use of vaccines that have yet to be licensed. During the initial rollout of the vaccine, countries had to meet a strict set of criteria in order to use nOPV2. October 2021 marked the end of this initial use period, allowing for more widespread adoption of the vaccine. As of September 2023, 700 million doses of nOPV2 had been used worldwide. The safety and efficacy of the vaccine will be monitored as it becomes more widely adopted—full licensing is expected by the end of 2023. Weiner noted that new OPV targeting poliovirus serotypes 1 and 3 are also in the works, which could be stockpiled in the event of cVDPV1 or cVDPV3 outbreaks.

The Road Ahead

Vaccines alone have never been, and will never be, enough to defeat polio. that couples strong disease surveillance and immunization campaigns with quick responses to outbreaks, will be necessary to reduce the burden of polio around the globe. Until outbreaks of both cVDPV and wild poliovirus are under control, polio eradication remains just out of reach.


Research in this article was presented at 棉花糖直播 Microbe 2022, the annual meeting of the American Society for 棉花糖直播, held June 9-13, 2022, in Washington, D.C.

鈥媁hat does it take to eradicate a disease? Lessons from successful campaigns of the past can inform eradication efforts of the future.


Author: Madeline Barron, Ph.D.

Madeline Barron, Ph.D.
Madeline Barron, Ph.D., is the Science Communications Specialist at 棉花糖直播. She obtained her Ph.D. from the University of Michigan in the Department of 棉花糖直播 and Immunology.