Those with the blood group O reportedly have the lowest likelihood of catching Covid-19, and the new top-up jab should provide relief against sub-variants of the disease.
By now, most of us have been stricken by Covid, but 15% of people in the UK have evaded the virus. According to a testing expert at the London Medical Laboratory, the great escape is down to three factors: blood group, vaccines, and lifestyle.
Having assessed the findings of recent Covid-19 blood type studies, Dr Quinton Fivelman PhD, Chief Scientific Officer at London Medical Laboratory (LML), believes that people with the blood group O are less likely to be infected than those with other blood groups, while those with blood type A are far more likely to contract the virus.
‘There have now been too many studies to ignore which reveal that people have a lower chance of catching the virus, or developing a severe illness, if they have blood group O,’ he said.
Indeed, research from the New England Journal of Medicine had previously found that those with blood type O were 35% less likely to be infected, whereas those with Type A were 45% more vulnerable. A further benefit of type O blood is the reduced risk of heart disease compared to those with type A or B blood.
Staged stock images are not thought to increase your chances of contracting Covid-19.
According to the NHS, almost half of the population (48%) has the O blood group; so, clearly, other factors come into play in terms of our susceptibility. Dr Fivelman said: ‘By far the most important factor is the number of antibodies you carry, from inoculations and previous infections, together with your level of overall health and fitness.’
So, those who are more careful about visiting crowded places, who eat well, and are fortunate enough not to have an underlying illness have better chances of avoiding Covid-19. According to LML, having been vaccinated also helps, though these benefits have slowly worn off. That is why the new top-up jab with the Omicron variant could provide some relief for those who take it.
‘The new Omicron jab has come none-too-soon, so many people are now suffering repeated Covid infections,’ he added. ‘That’s because the new Omicron BA.4 and BA.5 sub-variants do not produce as high an immune response as the previous strains, so re-infection is more likely to occur.
‘Higher levels of antibodies are important to neutralise the virus, stopping infection and limiting people transmitting the virus to others.’
From the Black Death to the Covid-19 pandemic, great adversity has also led to great advances. So, which inventions have emerged from times of hardship? Eoin Redahan finds out.
‘World events shape innovations. The World Wars shaped innovation, and the pandemic has shaped innovation,’ said Paul Booth OBE, in his outgoing speech as SCI President.
‘It is possible to accelerate innovation – we’ve demonstrated that.’ Paul Booth OBE, outgoing SCI President at SCI’s AGM, July 2022. Image: SCI/Andrew Lunn
The pandemic taught us a lot about ourselves. It taught me that eating my body weight in sweets was a great way to destroy my teeth, and it brought home to many the futility of the five-day commute. On a more abstract level, it taught governments and policy makers just how much can be achieved in a short space of time when necessity demands it. The vaccines that swam around our veins bore testament to this.
The pandemic has shaped innovation. Nowhere is this more apparent than in medicine. It isn’t the first awful event to provide a hotbed for change, and it won’t be the last. ‘It is possible to accelerate innovation,’ Paul said. ‘We’ve demonstrated that.’
As bad as the Covid-19 pandemic was, the Black Death makes it look very tame indeed. It is estimated that the Plague, which was its worst from 1346-53, took up to 200 million lives in Eurasia and North Africa.
Amid the carnage, it is also said to have given us a system to mitigate infectious diseases with which we are familiar, including isolation periods. According to Britannica, ‘public officials created a system of sanitary control to combat contagious diseases, using observation stations, isolation hospitals, and disinfection procedures.’
The terrifying doctor will see you now.
The Plague also said to have inspired greater experimentation in pharmacology. In a sense, it also helped democratise medicine, with medical textbooks shifting from Latin to the vernacular. As John Lienhard, at the University of Houston, noted: ‘Both medical and religious practice now shifted toward the laity.’
But perhaps the most memorable advance from this time was the strange, beak-like masks worn by some doctors during the Plague. These masks were a crude (and frankly terrifying) way to protect the doctors from the disease in the air. The doctors even filled these masks with herbs in an effort to protect against pathogens.
Of course, wars have also led to military innovation at breakneck speed. During the American Civil War, the Minié ball was created. It spun faster than other bullets and could travel half a mile – unlike pre-Civil War bullets, which went a mere 300 feet.
Officers of a monitor-class ironclad warship, photographed during the American Civil War.
This war also led to the ironclad warship, with plates riveted together to protect against cannonballs. However, it should also be noted that many of the most interesting war-borne inventions have ended up having little or nothing to do with military application.
The ‘cotton-like-texture’ of cellucotton led to its brand name Kotex. According to this 1920 advertisement, this ‘wardrobe essential of Her Royal Daintiness’ was available at any shop that catered to women. Different times.
World War I gave us the blood bank, the Kleenex, the trench coat, and the sanitary pad. The sanitary pad has peculiar origins. In 1914, the war resulted in cotton shortages and substitutes were needed. Kimberly-Clark executives duly discovered a processed wood pulp material that was five times more absorbent than cotton, and cheaper to make. The material was used for bandages, and Red Cross nurses realised that this material could be used as makeshift sanitary pads. The company then developed a sanitary pad – branded Kotex – made from cellucotton and a fine gauze.
Material substitution also led to ground-breaking innovation in World War II. According to the National WWII Museum New Orleans, in 1942 Japan cut off the US supply of natural rubber. With the demand for rubber high, US President Franklin Roosevelt invested $700m to make synthetic rubber from petrochemical byproducts at 51 new plants. By 1944, these synthetic rubber plants were producing 800,000 tonnes of the material a year.
Duct tape was developed by Johnson & Johnson during the Second World War, and by 1972 the ubiquitous tape had reached the moon. This makeshift wheel fender repair helped the Apollo 17 mission’s lunar rover to keep lunar dust at bay.
We use many other products invented during the Second World War, including duct tape, which was developed by Johnson & Johnson to keep moisture out of ammunition cases. A fellow called Harry Coover discovered cyanoacrylates – the active ingredient in Super Glue – while he tried to create a clear plastic for gun sights.
And the next time you reheat your dinner, spare a thought for Percy Spencer, the US physicist who noticed the candy bar melting in his pocket when he stood next to an active radar set. This moment of epiphany led to an invention you might know: the humble microwave.
Just as these trying times lead to extraordinary leaps in technology, they also lead to the large-scale rollout of said discoveries. A prime example of this is penicillin. It was first used to treat an eye infection in 1930, but it was only with the horrific fall-out of war that experiments with deep tank fermentation led to its widespread production.
A soldier recuperates in hospital thanks to penicillin in this Second World War poster. Note the not-quite-so-life-saving hospital bed cigarette. Different times, again.
The Penicillin Production through Deep-tank Fermentation paper in ACS notes that: ‘During World War II, the governments of the United States and the UK approached the largest US chemical and pharmaceutical companies to enlist them in the race to mass produce penicillin […] One of these companies, Pfizer, succeeded in producing large quantities of penicillin using deep-tank fermentation.’
The speed of development and global-scale rollout of vaccines against Covid-19 was unprecedented. Science, business and governments worked together to get the world moving again.
And, as we all know, Pfizer was back at it again during the Covid-19 pandemic. Along with AstraZeneca, Moderna, and essentially the entire pharmaceutical industry, it created vaccines that saved countless lives. Governments and policymakers were also reminded just how quickly life-saving technologies can be pushed through when needed.
But the legacy of Covid-19 treatment will stretch further, be it in nanotechnology, artificial intelligence, or other fields – who knows what else will come from it?
As Paul Booth said: ‘It is possible to accelerate innovation. We’ve demonstrated that.’