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The Malaria Vaccine鈥檚 Success Story Hides Legitimate Concerns

The first vaccine against malaria has just been recommended by the WHO but questions about its testing in Africa and its safety remain

It has been a good year for vaccines. Remarkably effective inoculations were engineered, tested, and rolled out to rein in the COVID-19 pandemic which has killed over 4.8 million people, and on October 6 the World Health Organization (WHO) officially recommended a It鈥檚 hard to wrap our heads around the numbers that make up the fabric of mass infectious illnesses like malaria. In 2019, the number of cases of malaria all over the world was. That鈥檚 a little over the total population of Pakistan, the fifth most populous country on Earth. For that same year, deaths from malaria added up to 409,000. Two-thirds of those deaths were in children under the age of five.

The announcement by the WHO that a vaccine against malaria, more than thirty years in the making, could finally be recommended was greeted with joy in the media. But our vaccine efficacy expectations, raised aloft by the COVID-19 vaccines鈥 stunning results, need to be tampered down in this case. And while anti-vaccination activists claim, wrongly, that the approved RNA vaccines are 鈥渆xperimental鈥 and are administered to people without their informed consent, the way in which the malaria vaccine鈥檚 implementation was pilot-tested in three African countries has raised the ethical questions of what constitutes research and whether or not proper consent was indeed secured in those children.

A protean adversary

If the crash course the public received in 2020 about how a respiratory virus infects the body was a beginner鈥檚 class in infectious diseases, malaria is the advanced lesson. A coronavirus spitting out its genetic guts inside our cells so that their replication machinery will make more copies of it is plain sailing compared to the complex, shape-shifting life cycle of malaria, a disease that wrangles at least three different organisms. First, there鈥檚 the infected human. Then, there鈥檚 the female mosquito, which could be any one of 41 species under the larger umbrella known as Anopheles. Finally, and most interesting of all, there鈥檚 the vector, the go-between, the shapeshifter itself. It鈥檚 a microscopic, single-celled parasite called Plasmodium whose adaptable existence has forced exotic nomenclature from the pens of scientists, words to describe its life stages like 鈥渕erozoites鈥 and 鈥渟chizont.鈥

Put simply, the mosquito bites you and its saliva delivers the Plasmodium parasite inside your body. For the first week or two, the malaria parasite enters the liver stage of its existence: it replicates itself asexually inside the human liver. Its numbers grow. Eventually, it infects new red blood cells, and thus begins the blood stage and with it the symptoms of malaria. For the uncomplicated form of the disease, these include the non-specific symptoms we associate with the flu, like fever, headache, chills, and body aches. For the severe form of malaria, this tiny parasite can cause acute injury of the lungs and kidneys, coma, and birth complications with long-term consequences. The parasite continues to make copies of itself asexually inside the red blood cells until the cells burst and the parasites look for new cells to infect. Some of the Plasmodium parasites turn into the equivalent of immature sperm and eggs, sexual cells known scientifically as gametes. When you get bitten by another mosquito, these immature gametes get scooped up and the parasite鈥檚 life cycle continues inside its new mosquito host. The 鈥渟perm鈥 and 鈥渆gg鈥 mature, meet-cute, and lead to new infectious versions of the parasite ready to travel from the mosquito鈥檚 long proboscis and into a fresh human host.

To complicate matters, Plasmodium is not just one thing. It includes six species of parasites that are known to give humans malaria, the most famous of which is Plasmodium falciparum, responsible for the vast majority of malaria deaths. But other species鈥攕pecifically P. vivax and P. ovale鈥攈ave the superpower to lay dormant in the form of hypnozoites, which can awaken and cause a relapse of the infection months or years later.

This ability the malaria parasite has to change over the course of its life cycle鈥攁 good word for that being 鈥減rotean,鈥 after the mythological Greek god Proteus who would assume different shapes鈥攈as really vexed researchers. Developing a vaccine against a coronavirus is relatively easy, but against this? Which form of the parasite should even be displayed as the crown jewel of a vaccine? The asexual form that couch-surfs in our liver? The one that spreads in the blood? The immature gametes? The mosquito stage? Should we use the full parasite or a simple protein from it? Given that different forms of the parasite can express different proteins, selecting one such protein for the vaccine also spoils us for choice, unless we should choose two or three proteins together to cover more bases. Different strategies were used by scientists over decades, and while a small number of vaccines managed to make it to a phase II trial in humans, their efficacy was judged and the immunity they granted was not sustained.

Finally, a yielded encouraging results in 2015 for a specific malaria vaccine that targeted the liver stage of the parasite鈥檚 life cycle. The vaccine is commonly called RTS,S (an initialism for a shockingly long descriptor), with Mosquirix as its trade name. Whether or not it will be a safe and effective 鈥済ame-changer鈥 requires a closer look at the results of its testing and how the testing itself was conducted.

鈥淎 serious breach of international ethics standards鈥

Mosquirix prevents. In terms of efficacy, we have certainly seen better, with being 97% effective against measles and 88% effective against mumps. Even the COVID-19 vaccines had higher efficacies in their clinical trials. When compared to of having licensed malaria vaccines with efficacies of at least 75% by the year 2030, Mosquirix clearly doesn鈥檛 check the box.

But given the enormity of the problem, preventing 4 in 10 cases of malaria is still an impressive achievement, especially given that Mosquirix is to successfully make it through all three phases of human testing. This vaccine could save the lives of. However, as the results of the Mosquirix clinical trials came to light, a number of key questions lingered. Would a four-dose regimen of the vaccine be feasible in the real world of sub-Saharan Africa, where most people are affected by malaria? Would vaccine recipients assume they were fully protected and dismiss other protective measures, like insecticide-treated bed nets? Given the complexities of malaria, the potential for reinfection, and the relatively short length of the phase III trial, would the vaccine really prevent deaths in the long run? A in children who participated in the phase II trial of Mosquirix revealed that the efficacy of the vaccine had gone down over time. There was a rebound effect later on in areas particularly prone to malaria. And more disturbingly, in the biggest trial of the vaccine, were picked up: there was a ten times higher rate of meningitis, a higher chance of cerebral malaria, and a doubling of deaths from all causes in girls who had received the vaccine and not the placebo. Were these effects real or chance artefacts?

To answer these questions, the WHO launched a pilot evaluation of the vaccine roll-out in Malawi, Ghana, and Kenya, and this is where we find what as 鈥渁 serious breach of international ethics standards.鈥 This pilot was. Its clearly calls it a 鈥渟tudy鈥 and it contains many sections dedicated to 鈥渞esearch questions鈥 and 鈥渞esearch methods.鈥 Indeed, areas within these countries were randomized to either receive the vaccine or not. This is why there was outrage in the scientific community when it was revealed that the WHO had not used informed consent during this pilot study.

Informed consent is when a patient is properly informed about the potential risks, benefits, and alternatives of an intervention and, being of sound mind, can decide to go forward with it or not. Ever since the Nazis鈥 sickening experiments, informed consent has become enshrined in medical ethics. But in the case of the Mosquirix pilot study, and stated it had used 鈥渋mplied consent,鈥 meaning that the children who received the vaccine and their parents or guardians were not informed that they were taking part in a study. What emerged out of is that the WHO said it had sent training material to country partners about the potential risks, although the association with an increased risk of deaths among girls seen in the clinical trial was not mentioned in the training material. The vaccine deployment was handled by the countries as part of routine vaccinations. It is this protean roll-out鈥攁ppearing clearly as a risk assessment research project to some people and as a routine vaccination campaign to others鈥攖hat the WHO used to recently endorse the wider use of Mosquirix, to much media acclaim.

When interviewed by German radio station Deutschlandfunk, Professor Charles Weijer, who co-wrote the ethical rules on the kind of randomized design the WHO used for their pilot study and which were adapted in collaboration with the WHO, declared that. This waiver of informed consent looks to Weijer like there is one standard for research in wealthier countries and a different standard for research done in poorer countries. 鈥淚t looks like colonial science to me,鈥 he told the interviewer.

But what about the potential risks of the Mosquirix vaccine detected in the clinical trial? Were they seen in the pilot roll-out? According to the WHO, it is now between the vaccine and these original concerns, but the lack of follow-up at an individual level, the low vaccine coverage, and the short duration of this pilot study (which, to be fair, is still on-going) mean that the actual effect of the vaccine on female mortality, real or not, may have been missed, according to by Dr. Christine Benn of the University of Southern Denmark and colleagues. These safety signals, for meningitis, cerebral malaria, and deaths from all causes in girls, have to be sufficiently addressed. A, which now has close to 35,000 signatures, is calling for the WHO to be more transparent about its pilot evaluation and to answer the ethical questions that have been raised.

Trust

What a mess. The fight against malaria has been plagued by difficulties. Plasmodium is a slippery beast to successfully sketch out for the 鈥淲anted鈥 poster that is a vaccine. It owns many fake moustaches. Mosquirix began testing in 1987, the year that saw the release of Good Morning, Vietnam and the first Lethal Weapon movie. It has, a substantial bill that was mostly settled by GlaxoSmithKline and the Gates Foundation. Its efficacy is not great but it can鈥檛 be dismissed, especially considering the magnitude of the problem. Other interventions exist to prevent or treat malaria, but none are perfect. Bed nets are affordable, but in 2016, only of people at risk for malaria in sub-Saharan Africa were sleeping under one. Not everyone wants to spend the whole night under a net and, as, the nets don鈥檛 stop mosquitos by day. Treatment with the drug artemisinin, which led to the 2015 Nobel Prize in Physiology or Medicine, has saved millions of lives, but is sounding the alarm. A vaccine, even if it does not prevent every case of malaria, would be a useful part of the armamentarium.

But doubts remain, in my mind, about Mosquirix鈥檚 safety. It is worth pointing out that travellers to Africa will, by and large, not be eligible for Mosquirix, as the WHO has recommended its use only in children at the moment. This vaccine is meant for the children who live in countries where malaria is widespread. There are, of course, other vaccines in the works, like R21/MM which was recently tested in and found to have an efficacy of up to 77%. We will have to see if it and others can clear the hurdle of making it through a phase III trial.

It is high time Africa got a safe and effective vaccine against malaria, but ethical standards and transparency cannot be sacrificed. A vaccine鈥檚 protection does not simply come from its building blocks. It also comes from trust.

Note: To any reader genuinely curious as to what Mosquirix鈥檚 generic name, RTS,S/AS01E, stands for, unfurls it as 鈥渢he central repeat region (R) and T-cell epitopes (T) of P. falciparum circumsporozoite protein carried by the hepatitis B surface antigen (HBsAg, S), and co-expressed within Saccharomyces cerevisiae with unfused copies of HBsAg(S)/adjuvant system 01E.鈥 Worth infinite points in Scrabble.

Take-home message:
-Malaria is a life-threatening infection caused by a parasite, Plasmodium, which humans can get from the bite of a female mosquito from the Anopheles family
-The first vaccine against malaria to be recommended by the WHO, Mosquirix, has a moderate efficacy against the disease which affects hundreds of millions of people, predominantly in Africa
-In further testing the vaccine in Africa prior to its recommendation, the WHO has come under fire for not properly informing the people who received the vaccine of its potential risks and for claiming that this testing was not actually 鈥渞esearch鈥
-In the largest clinical trial of Mosquirix, certain risks were increased in the group that received the vaccine, and some scientists have argued that the further testing done since may not have been able to detect if these risks were indeed caused by the vaccine or if they were due to chance


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