Surveillance To Track Progress Toward Poliomyelitis Eradication
Polio: What Is It And How Does It Spread?
By Smitha Mundasad and Philippa RoxbyHealth reporters
The virus that causes polio has been found in a concerning number of sewage samples in London and all children aged one to nine years old are to be offered a polio booster jab.
There have been no confirmed cases of people becoming ill with the disease in the UK, but health officials want to ensure children in London are completely protected.
What is polio and how does it spread?It can be a serious infection, caused by a virus which spreads easily through contact with the faeces (poo) of an infected person or less commonly through droplets when they cough or sneeze.
It mostly affects children under five years old.
The majority of people with the infection have no symptoms but some feel like they have the flu with:
A small number of infected people - between one in a thousand and one in a hundred - develop more serious problems where polio invades the nervous system. This causes paralysis, usually of the legs.
This is not normally permanent and movement often comes back gradually.
But it can be life-threatening - particularly if paralysis affects muscles used for breathing.
What age do you get the polio vaccine?The UK used to use a highly effective oral polio vaccine that came as drops. It has switched to the newer, injectable form.
The NHS offers five doses from the ages of 8 weeks to 14 years as part of routine childhood jabs.
People need to have all five doses of the vaccination to be fully immunised against the disease.
How are children being protected?Parents and carers of nearly one million children in Greater London will be contacted by their GP within the next month so they can get another polio vaccine, called a booster.
Experts say this will act as an extra precaution to stop polio spreading, even for children who are already up to date with their vaccines.
The NHS in London is contacting contact parents when it's their child's turn to come forward.
Parents are urged to take up the offer of the top-up dose - whether it's a booster or a catch-up one they had missed - as soon as possible.
This is to make sure they have a high level of protection from paralysis.
How many children have been vaccinated?Take-up of the first three doses is about 86% in London, well below target levels, with the rest of the UK at over 92%.
This may in part be down to some populations in the capital moving regularly, making it harder to access vaccines at the right time.
Figures for 2020/21 suggest some 34,000 children aged five in London had not received their fourth dose out of five.
Is polio a problem worldwide?Cases have decreased by more than 99% since 1988, from an estimated 350,000 cases in more than 125 countries then to 175 reported globally in 2019.
All continents, except Asia, have been certified as polio free.
The last person recorded to have acquired the wild virus in the UK was in 1984.
There are a few countries where the disease is still found - it includes war-torn Afghanistan and Pakistan, where it has been difficult to vaccinate everyone.
Globally, 83% of infants had received three doses of polio vaccine in 2020, according to the World Health Organization.
Are there different kinds of polio?Wild poliovirus is the most commonly known form.
But there is another type linked to the oral form of the vaccine.
The vaccine offers excellent protection against wild polio, is easy to use and has been deployed by many countries around the world - keeping millions of people safe.
However, it contains a weakened, live form of the virus which can replicate harmlessly in the gut. But that means some is then excreted in poo.
In rare cases, this weakened form can spread to unvaccinated people.
Over a long period the vaccine-derived virus might change to become more like wild polio.
Many industrialised countries now use the newer injectable form which contains a killed version of the virus.
Both vaccines are safe and effective.
In the last decade - a period during which more than 10 billion doses of oral polio vaccine were given worldwide - vaccine-derived-polio virus outbreaks resulted in fewer than 800 cases.
In the same period, in the absence of vaccination with the oral polio vaccine, more than 6.5 million children would have been paralysed by wild poliovirus.
Why is the polio virus back?A tiny number of samples of the polio virus are detected each year in the UK during sewage surveillance. However, this is the first time that a genetically-linked cluster has been found repeatedly over a period of months.
The polio virus detected in London most likely came from someone who had recently received an oral polio vaccine.
They will then have shed the weakened vaccine virus in their stools.
It is likely it was then passed on to another person at this point and has since infected some others. None have sought medical help though.
Similar traces of the virus, which could be linked, have also been found in sewage in Jerusalem, in Israel, and in New York state in the United States.
How much of a problem is it?The UK is so far taking the right approach, according to Sir Jeremy Farrar, director of the Wellcome Trust.
"It's a credit to the surveillance systems, it's a credit UK Health Security Agency for picking this up and then taking the right public health approaches."
And Prof Paul Hunter, professor of medicine at UEA, said getting more people vaccinated would help stop the virus.
Graphics by Visual Journalism Team
Related
Girl and mum share bullying struggles in new show
The Covid kids starting school unable to speak
Who can get 30 hours of free childcare? 2 days ago Family & Education
More
10 hrs ago
Met officer cleared after Tasering girl, 10
A girl who threatened her mother with garden shears was Tasered twice by PC Jonathan Broadhead.
10 hrs ago
PC Tasers girl, 10, when she wields garden shears
Met officer PC Broadhead Tasered the girl twice over a threat with garden shears.
10 hrs ago
Kidnappers found guilty of killing DJ in empty bar
Mehmet Koray Alpergin was killed in an empty bar near Tottenham Hotspur Stadium on 13 October 2022.
14 hrs ago
Just Stop Oil protesters arrested outside PM's home
The group stage a noisy demonstration outside Rishi Sunak's west London property on Wednesday night.
16 hrs ago
Families of fallen officers given leaf tribute
PC Nicola Hughes, whose father is campaigning for posthumous medals, was among those honoured.
Copyright 2023 BBC. All rights reserved. The BBC is not responsible for the content of external sites. Read about our approach to external linking.
Beta Terms By using the Beta Site, you agree that such use is at your own risk and you know that the Beta Site may include known or unknown bugs or errors, that we have no obligation to make this Beta Site available with or without charge for any period of time, nor to make it available at all, and that nothing in these Beta Terms or your use of the Beta Site creates any employment relationship between you and us. The Beta Site is provided on an "as is" and "as available" basis and we make no warranty to you of any kind, express or implied.
In case of conflict between these Beta Terms and the BBC Terms of Use these Beta Terms shall prevail.
Polio Is On The Brink Of Eradication. Here's How To Keep It From Coming Back
Nobody expected polio to be back.
It's 2040, a decade since the disease was eradicated. The global health campaign that vanquished the virus has disbanded; immunization efforts have slackened. Then, one day, a sick child in a conflict-wracked country develops paralysis; the cause turns out to be polio. Scientists trace the origin of the virus to a laboratory on the other side of the world. A technician at the lab had handled a forgotten batch of polio-infected material — and then visited their family abroad.
As cases multiply, the World Health Organization (WHO) appeals for help to conduct emergency immunization campaigns, but stocks of vaccines are low and few members of staff have direct experience of polio outbreaks. Soon there are tens of thousands of cases: millions more people around the world who haven't had the vaccine are at risk.
This is just one of many possible scenarios that could follow polio eradication. Although the world has not yet eliminated poliovirus, many observers think it could be gone within three years. The polio-eradication campaign has increased its intensity and funding in the past year in the hope of finally meeting a deadline that's been postponed many times since efforts were launched in 1988.
The front lines are Afghanistan and Pakistan, where pockets of wild polio persist but are shrinking (see 'Wild polio tamed'), and a swathe of Africa, where a polio vaccine that includes live virus has itself seeded outbreaks. There are signs that health campaigns are now bringing these vaccine-derived episodes under control.
The final steps towards eradication are formidable, and it's not clear when — or whether — nations will reach this goal. Nonetheless, with the demise of the virus in sight, health authorities are planning what happens next.
That's because eradication is not extinction. Polio could lurk in testing labs and manufacturing facilities — from which it has leaked in the past — and even in some people. Mistakes years after eradication could let polio into an unprotected population where it could "wreak havoc", says virologist Konstantin Chumakov, former associate director of vaccine research at the FDA Office of Vaccines Research and Review in Silver Spring, Maryland.
The end of polio is only the beginning of another effort: developing the resilience to keep it away, says Liam Donaldson, a public-health specialist at the London School of Hygiene & Tropical Medicine, UK, and the lead author of a series of independent reports on the campaign's progress (see go.Nature.Com/49hho4a). "People have signed up to polio eradication, but they've not signed up to the longer journey."
Stamping it outOnly one human disease has so far been declared eradicated: smallpox, in 1980. Polio has been more complex, says David Heymann, who heads the WHO's Containment Advisory Group. That's because of a key difference: every smallpox infection produces symptoms, but polio can silently infect up to 1,000 people before causing a case of paralysis. The other snag is that polio can be caused not only by the wild virus, but also, in very rare cases, by the vaccines deployed to prevent it. Eradication means getting rid of both forms for good.
The main tool is vaccination. Industrialized, polio-free countries use an inactivated poliovirus vaccine (IPV), which doesn't prevent the virus infecting the body and being shed in stools, but does protect against paralysis. Provided that immunization levels with IPV remain high and sanitation is good, a rogue poliovirus will probably peter out, according to Concepcion Estivariz, a polio researcher at the Centers for Disease Control and Prevention (CDC) in Atlanta, Georgia.
But because the inactivated vaccine can't block transmission, children in at-risk countries still receive another type: an oral poliovirus vaccine (OPV) that contains an attenuated form of the live virus, and can stop polio's spread — which is crucial for eradication. It's also cheaper and easier to deliver than IPV, which is administered by injection. The oral campaign has been hugely successful. Since 1988, the Global Polio Eradication Initiative (GPEI) estimates it has prevented 20 million cases of polio paralysis.
But OPV has some important downsides. There is a low risk that the vaccine itself can cause paralysis. And, on rare occasions, the weakened virus used in the vaccine can mutate sufficiently to regain virulence. This can lead to outbreaks of cases known as vaccine-derived polio among people who have not been vaccinated fully or at all. "If we continue OPV," says Estivariz, "we never stop the circle." Most countries are now using IPV in their routine immunization programmes alongside OPV, and the WHO recommends that IPV administration should continue for a decade after disease transmission has been stopped, to protect against any accidental releases or hidden pockets of the virus.
Polio will be certified as eradicated when no case has been observed for three years, and when there is no sign of it in environmental surveillance data — that is, in samples of waste water. A year after that, OPV must be withdrawn to prevent vaccine-derived polio. The problem, however, is that removing it will be an extraordinarily delicate manoeuvre. Done messily, this process could trigger the return of the virus.
In 2016, for instance, the withdrawal of an OPV across 150 countries went disastrously wrong. "The results were sobering", says Kimberly Thompson, an epidemiologist at the research non-profit organization Kid Risk, in Orlando, Florida.
There are three strains of wild polio — types 1, 2 and 3. Type 2 was declared eradicated in 2015, and type 3 followed in 2019. The oral vaccine contained attenuated versions of all three strains, but after type 2 was eradicated, the aim was to withdraw vaccines containing that strain to minimize the risk of seeding vaccine-derived type 2 polio. So the GPEI orchestrated a two-week period in April 2016 in which all three-strain oral vaccines were switched for versions containing just types 1 and 3.
Swiftly, however, cases of vaccine-derived type 2 polio began to build — in two countries in 2016, spreading to 24 countries by 2020, with countries in Africa worst affected. A case popped up in the United States in 2022, and the United Kingdom found the virus in wastewater samples. The cumulative number of paralysis cases so far is just over 3,200; the yearly total peaked at more than 1,000 in 2020 and now seems to be declining, with 238 recorded so far this year (see 'Rare and receding: vaccine-derived polio'). African countries are still running multiple emergency campaigns delivering oral type 2 vaccines to stamp these outbreaks out.
Why the rebound? First, populations in the regions affected weren't sufficiently vaccinated beforehand with IPV, which would have protected them until any outbreaks could be controlled. This was partly owing to a gap in vaccine supply, says Ondrej Mach, who co-chairs a new GPEI group that will oversee future withdrawals of the oral vaccine.
What's more, says Mach, just before the switch, vaccine-derived type 2 polio was detected in Nigeria. Transmission was probably already under way in Nigeria and other countries, adds Mach, and the emergency type 2 vaccine seeded further outbreaks.
Since 2021, however, this seeding has become much less likely: vaccination campaigns are controlling the outbreaks using a genetically engineered oral vaccine, which has an even lower chance of becoming virulent than the OPVs used previously.
What risks does the post-polio world face if full oral withdrawal goes wrong? An analysis by Kid Risk and the CDC gave one answer (D. A. Kalkowska et al. Risk Anal. Https://doi.Org/k428; 2023). Their model considers what might happen if all OPV use stopped in 2027 but vaccine-derived polio was not completely eliminated beforehand and outbreak responses were weak. In one scenario, the model predicts that there could be as many as 40,000 cases of paralysis caused by vaccine-derived polio 8 years after OPV administration is discontinued. To avoid this, the authors suggest that population immunity in areas with polio cases today needs to be very high — about 90% — just before withdrawal. Thompson says that most countries have achieved this in the past, at least for short periods of time.
Keeping a lookoutEven after OPVs are successfully withdrawn, therefore, countries can't let their guard down. They must put in place surveillance "to detect any poliovirus, no matter where in the world it appears and however fleetingly", says a report by the Transition Independent Monitoring Board, an independent group of scientists that reports periodically on the polio endgame and is chaired by Donaldson.
Polio surveillance takes two main forms: searching for cases of paralysis that might be caused by polio; and monitoring waste water for any virus shed by carriers.
Both will be crucial for years, as an example from Malawi shows. The country had been free from wild polio for three decades when, in 2021, a stool sample from a three-year-old with paralysis arrived at the national laboratory to be sent abroad for testing. The sample sat for two months before it was shipped with others, says Jamal Ahmed, who coordinates polio eradication for the WHO in its African region, which comprises 47 countries. The result came back a month later: it was wild polio type 1, not seen in the continent since 2016.
Sequencing traced its origin to Pakistan, but also revealed that the virus had been circulating for two years undetected — possibly in Malawi, and possibly elsewhere. Because Malawi had no wastewater surveillance at the time, it was impossible to know.
Within 30 days of receiving the result, emergency immunizations began. Six campaign rounds later, says Ahmed, Malawi has seen no more cases of wild polio. And, with the WHO's help, the country swiftly installed environmental surveillance sites.
The episode also showed that the emergency vaccination programme wasn't up to the job, says Jay Wenger, who leads the polio programme at the Bill & Melinda Gates Foundation in Seattle, Washington. "We had to rebuild the polio infrastructure we had before" to get rid of the virus, he says.
Global wastewater surveillance has become a bigger priority since the COVID-19 pandemic, says Donaldson, because politicians are paying more attention to trends in disease. Ahmed says that 41 of the 47 member states of WHO Africa now have environmental polio surveillance, and that the rest will soon catch up.
Innovations are helping to speed up a process in which timeliness is crucial. One breakthrough is direct detection, a method that leapfrogs several of the conventional stages of the testing process; for example, by extracting RNA directly from samples without the need to culture them.
The threat of escapeNo matter how successful the eradication effort is, the virus will remain in research institutes and vaccine-manufacturing facilities — and in an unknown number of routine diagnostic labs.
Escapes happen. Last year, a lab worker at a manufacturing facility in Utrecht, the Netherlands, picked up type 3 virus at the facility, and this was then detected in wastewater surveillance outside the plant. No cases of paralysis resulted. Vaccine manufacturing is "a huge containment nightmare", says Mach.
The WHO has a plan for poliovirus containment that urges nations to minimize the number of facilities retaining poliovirus materials and to destroy any unnecessary stocks. At the moment, the WHO knows of 74 facilities that hold polio, in 22 countries.
Can the world really stop wild polio by the end of 2023?
The first step was for each country to set up a national authority for containment by 2018, to ensure that facilities comply with biosafety requirements. China and Romania have not yet done this, and other countries have missed subsequent deadlines.
Even for compliant facilities, forgotten samples remain a threat, says Andy Macadam at the National Institute for Biological Standards and Control in Potters Bar, UK. "All you have to do is mislabel the tube." And polio might lurk in some facilities that are not even subject to the containment plan, says Heymann. This could include frozen stool samples taken for other reasons at a time when polio was circulating.
Since 2000, there have been 21 reported incidents of poliovirus release from laboratories and vaccine-production facilities in 8 countries, with 16 cases of polio as a result, according to Derek Ehrhardt, who heads the WHO's poliovirus containment unit. Most cases have been in vaccine-manufacturing facilities, but five of them were in research labs in which workers discovered that vials containing poliovirus were mislabelled (none of those cross-contamination incidents led to paralysis). The solution, says Heymann, is better biosecurity in all labs.
To reduce the need for live virus, scientists are developing ways to produce the inactivated vaccine without it — for example, by using a non-infectious, genetically engineered starting material, or by designing vaccines from virus-like particles or messenger RNA.
A surprising sourceThere is yet another source of poliovirus, unforeseen 35 years ago when eradication efforts began.
In most people who receive the oral vaccine, the immune system generates antibodies that protect them against the virus. But in a small number of people born with particular immune deficiency disorders, the immune system allows the attenuated virus from the vaccine to live on, evolving as time goes by and emerging in their stools. No drugs have been proved to cure an ongoing polio infection.
Only some of the several hundred types of immunodeficiency lead to chronic retention of poliovirus. No one knows how many people are affected, and no such shedding is known to have triggered a polio outbreak, although it might have contributed to one in the Philippines in 2019–21.
But, says Mach, even one person retaining and shedding poliovirus is incompatible with eradication. "We have to do something." An international — if patchy — search for people with these immune disorders who have chronic polio has produced a register of 200 individuals.
New polio vaccine poised to get emergency WHO approval
One person with the condition lives in the United Kingdom and was vaccinated with OPV as a child. For more than 20 years, he asymptomatically carried — and shed — the attenuated virus, which evolved to its disease-causing form. His gut was "essentially a culture vessel", says David Boyle at PATH, a non-profit medical-research organization based in Seattle, Washington.
That's why scientists were surprised to learn that the person's infection had gone.
It disappeared after he received the antiviral drug remdesivir for severe COVID-19 in August 2021. This could be coincidence, says Macadam, but it bolsters the case that antivirals could be used to treat polio infection (two such drugs are being explored as polio treatments). Monoclonal antibodies are also under development.
Complacency and responsibilityKeeping vaccination rates high for at least a decade after eradication will be the best protection — but there are fears that commitment to IPVs might wane once eradication has been declared. Routine immunization campaigns struggle to reach every child, especially during conflict, disasters or pandemics. COVID-19 drove the number of unvaccinated or undervaccinated children up to 23 million in 2020.
Added to this is the growing problem in some regions of vaccine scepticism and complacency, which grew worse because of activism against COVID-19 vaccines, says Peter Hotez, a vaccine specialist and public advocate at Baylor College of Medicine in Houston, Texas.
Spate of polio outbreaks worldwide puts scientists on alert
With so much to be done to maintain a polio-free world, Donaldson is asking who will be accountable once the GPEI disbands a year after eradication, handing its responsibilities to WHO departments, partners and national health programmes.
A transition has already begun in some countries, but many have struggled to find their own funding amid changing government priorities. Slackening efforts now could bring bigger problems in the future, says Aidan O'Leary, who directs polio eradication at the WHO. "If we collectively take our eye off the ball and don't build the resilience of health systems going forward, then we face further problems down the line."
But done well, says O'Leary, the post-polio world could bring wider health benefits for everyone: better surveillance and immunization measures, and more joined-up health services. "The last mile of the polio eradication programme", he says, "is the first mile for global public-health security."
2023: World On The Verge Of Major Global Polio Eradication Milestone
Health workers vaccinate a child in a community hall in Songal Gadap, Karachi, Pakistan. On 03 ... [+] August 2022. (Photo: Courtesy of Rotary International.)
© Rotary InternationalReady for some good news in 2023? Well, efforts to control the poliovirus and stop its spread have been going well. Like only 11 confirmed cases of wild type 1 poliovirus infections around the world, as of November 14, 2023, well.
Yes, you heard that correctly, just eleven cases—five in Pakistan and six in Afghanistan—of the wild type, meaning the type of poliovirus that originally existed in nature. While that total doesn't include some mutated versions of the virus that emerged after oral polio vaccination (more on that later), it is still significantly lower than the 176 confirmed cases in 2019 and the 140 in 2020. The past two years have seen six and 30 cases of the wild type poliovirus, suggesting that the 2023 number is not an anomaly. The even bigger picture is that the total number of polio cases worldwide each year has plummeted by more than 99.9% since 1979 when the estimated number of cases was around 350,000. In fact, with the way that global polio eradication efforts have been going, achieving the "e-rad" word may soon be quite possible with eradication meaning completely getting rid of the virus. Yeah, it's striking what can be accomplished when people follow, you know, science and actually work together for the betterment of humanity.
The need for science-based approaches and cooperation is the why the Global Polio Eradication Initiative (GPEI) initially formed back in 1988. Governments around the world have led the GPEI along with six big-time partners: the World Health Organization (WHO), Rotary International, the US Centers for Disease Control and Prevention (CDC), the United Nations Children's Fund (UNICEF), Bill & Melinda Gates Foundation and Gavi, the vaccine alliance. Carol Pandak, Ed.D., the Director of PolioPlus, Rotary International's global effort to eradicate polio, recounted how far the world has come since the Rotary International first got involved with polio control efforts in 1979 and helped form the GPEI about a decade later: "Rotary did its first oral polio vaccine campaign in the Philippines in 1979 and then piloted similar efforts in six other countries. The year 1985 saw the launch of the Polio Plus program with the goal then to raise $120 million for polio control and eradication." That original funding number has grown substantially since then with Rotary contributed over $2.6 billion towards polio efforts. Rotary International has also assembled over 1.4 million volunteer members from over 46,000 Rotary and Rotaract clubs in over 200 countries to help with polio eradication efforts.
Polio vaccines have been central to polio control and eradication efforts. The past 35 years have seen close to three billion children get the oral polio vaccine (OPV). That means that over 20 million people who could have ended up paralyzed from polio didn't actually suffer that fate. So, consider the big time impact that polio vaccines and polio control efforts have had.
One look into the wild shows how far eradication efforts have come in the past several decades. Type 1 is now the only wild type of poliovirus that is still circulating anywhere in the world. The GPEI already declared Type 2 eradicated in September 2015 with the confirmed case in India in 1999 and Type 3 eradicated in October 2019 with the last detection of that type in November 2012. The days of Type 1 appear to be numbered, though, since only Afghanistan and Pakistan have had cases of late. Not only that. The Type 1 wild type has been cornered into two specific geographic areas, Eastern Afghanistan in the Jalabad province and Northwest Pakistan in the Southern Khyber Pakhtunkhwa Province), according to Pandak and Steven Lauwerier, MS, the Global Director of Polio Eradication for UNICEF. That's left five of the six WHO regions that comprise over 90% of the world's population completely free of the wild poliovirus. Lauwerier indicated, "We won't make the deadline of end of this year to eradicate all the wild polioviruses. But we will probably make it by the end of next year."
Health workers and volunteers participate in a door-to-door polio immunization campaign in Kaduna, ... [+] Nigeria, on 13 April 2019. (Photo: Courtesy of Rotary International.)
© Rotary InternationalNow, eradicating all of the wild type polioviruses won't mean that all polioviruses will be gone from the Earth just yet. The GPEI will still have to contend with the vaccine-derived polioviruses. These are poliovirus that resulted from the mutated from the strain that was part of the original OPVs. OPVs contain live, weakened forms of poliovirus that can reproduce inside your intestines for a short while. These reproducing viruses can then elicit an immune response in your gastrointestinal tract that can result in antibodies there. The problem is that these viruses can sometimes mutate to become strong enough to infect others and cause polio. And when one with such viruses in his or her intestines goes poo, anyone unvaccinated coming into contact with that poop could potentially catch the mutated virus. That's why once polio has been adequately controlled in an area, control efforts in that area tend to switch from using the OPV to using the inactivated polio vaccine (IPV), which is injected rather than ingested.
Lauwerier explained, "There have been over 350 cases of vaccine-derived polio in four geographies: Northern Nigeria, Eastern Democratic Republic of Congo, Southern Somalia, and northern Yemen [in 2023]." He added, "These are regions that have been forgotten or undergoing conflict and insecurity. The health systems there are not functioning. Vaccination rates are extremely low." Of course, eradication efforts have not been easy. As Lauwerier described, "There's been lot of effort on community engagement. We've had to work in very fragile environments, complex political environments. This has included working in very difficult situations where front line workers are threatened and killed."
Those spewing anti-vaccination and anti-science misinformation and disinformation certainly haven't helped. Pandak gave an example of "Someone making a [fake] video in Northwest Pakistan of people fainting and collapsing after polio drops, causing a panic. It led to a clinic being burned down." She continued by saying, "Campaigns paused for several months. There were then efforts to find community influencers, who were trusted by communities to counter the negative messages."
Nevertheless, the progress over the years has been encouraging. Plus, polio eradication efforts haven't been just about vaccination. They've included efforts to improve hygiene, sanitation, and healthcare systems as well as efforts to reduce poverty. Controlling and trying to get rid of any type of infectious disease requires systems approaches, doing things to not only shore up immune protection against the pathogen but also changing the environmental and social systems that may contributing to its spread. Thus, the benefits of polio control efforts may go well beyond their original polio-focused intent. And that's what tends to happen when you follow science and actually work together for the betterment of humanity.
Comments
Post a Comment