Will Science Help Us Stop The Next Pandemic

coronavirus
Source : webmd

The worldwide public health crisis could far better managed had scientific study, especially study of zoonosis, been given importance

Like the dawn moves across the face of the Earth-in-stages, we awoke, region by region, to an epic problem. While it’s tempting to mention that only science will provide the answer, in truth, we’ll need both science and therefore the human spirit to confront and manage what the general public now knows was both preventable and predictable. What the general public probably doesn’t yet realise is that the coronavirus will certainly not be the last animal-borne virus which will infect humans and cause terrifying physical and economic devastation.

Zoonosis is that the term for a disease which is transmitted from animals to humans. Many animals — not just bats — are reservoirs for viruses. Every now then , when the conditions are right with sufficient animal-human contact, or when one among the viruses develops a mutation that overcomes the human immunity system , the virus makes the leap successfully. Today, everyone will agree that zoonosis is that the greatest threat to human health worldwide. We are within the midst of a worldwide public health crisis propagating at a speed and scale that no previous generation has ever witnessed, exacerbated by travel, urbanisation, reckless deforestation and intensive farming.

In the last 29 years, humans have battled three coronaviruses: SARS-CoV-1, MERS-CoV and therefore the current coronavirus SARS-CoV-2. Looking the image of 1 of the most main enzymes, a protease, from all of those viruses overlaid one on top of otheer, their near-perfect likeness is chilling. This is often because it’s been 17 years since SARS hit us, and that we don’t have a vaccine. As you’re reading this, the simplest minds across the worldwide are collaborating and assimilating what we all know about this family of viruses to deliver an efficient therapeutic.

Delayed response

We could contemplate the “might have beens” but it might be more gainful to ascertain what we learn from the Covid crisis. There are three things to require not of here. First, most governments reacted too late and with plans that only the well-to-do could afford to follow. The time delay between a government going from “it’s nothing” at Case 1 to “lockdown now” may be a clear revelation of the importance they provide science. The national fatality rates will, therefore, be a function of 1 parameter — how seriously the highest political leadership takes the counsel of its scientific advisors.

Scientists in every nation alerted their governments with nearly identical advice to counter the approaching disaster. The US and South Korea identified their first cases on same day, January 21, 2020. But unlike, South Korea reacted virtually overnight, and therefore the spread also as fatality rates of both countries represent themselves. it’s challenging to define something complex in simple terms to convince the govt and therefore the public that solutions are within our grasp if we act in time. A strong communication plan — indeed, a campaign — has got to be put in situ to tell and educate without sending the audience into denial.

Second, viruses mutate quickly and may evolve resistance to existing therapies. So, for every new zoonosis, we’ll have to develop new tests, new therapies, and new public health strategies counting on how the virus spreads. In fact, many viruses infect niche populations, then every zoonosis might not elicit a worldwide response like this one did. Therefore, each country must build and tone its scientific muscle, since the requisite high-tech capabilities simply can’t be recreated overnight.

We have to constantly renew and advance capabilities in our frontline defence systems against zoonoses. we’d like to spot , train and support researchers who can build rapid, accurate and cheap diagnostics, tracking technologies, epidemiology, structural biology, vaccine development, drug screening, to call just a couple of .

Boost research project

Finally, it’s a wise government that sees the benefit in being proactive instead of reactive. This crisis involves governments to think future and fuel basic science on a war-footing. However, the limitation with democracies is that leaders are generally pegged to a five-year vision. Why the urgency to think long term? There are approximately 260 known viruses that infect humans — most are zoonotic.

The Global Viriome Project estimates the existence of 600,000-800,000 viruses which will infect humans and potentially cause an epidemic . The $2-trillion stimulus package for the economy announced by the United States government tops the funds allocated to science for all years combined for that country. A high-price indeed, especially considering that had a rather more significant fraction had been allocated to science, it could have made us battle-ready by providing effective countermeasures.

Here’s only one thought for why basic science might prove game-changing in our battle against zoonosis. Bats can clearly harbour thousands of continually mutating viruses, while we humans struggle against a couple of hundred.

There are 1,300 bat species comprising 20 per cent of all known mammalian species and that they are the sole mammals capable of flight. They violate the correlation between body mass and longevity observed altogether other mammals. Despite these and other exceptional qualities, bats are grossly understudied. wouldn’t it not be helpful to understand precisely what in their immunity system allows them to live life with these viruses? What if we could understand the mechanisms bats use? What if we could coax our own immune systems to use those mechanisms, beat zoonoses and switch pandemics into a thing of the past?

Games and wars aren’t won only in stadium or on the battlefield. Indeed, they’re won much before they’re fought. This pandemic can and can recur in another form. Only preparedness will help us stop it in its tracks next-time. To paraphrase Churchill: Give us the tools and that we will finish the work .

The writer is a professor at the University of Chicago. She was awarded the Infosys Prize in 2017. The article was commissioned by the Infosys Science Foundation

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