F Rosa Rubicondior: Malevolent Designer News - How Creationism's Favourite Pestilential Malevolence Might Soon Try for Another Pademic

Tuesday 6 September 2022

Malevolent Designer News - How Creationism's Favourite Pestilential Malevolence Might Soon Try for Another Pademic

Lab staff in full PPE
Laboratory staff wearing full PPE.
5 virus families that could cause the next pandemic, according to the experts

Creationism’s pestilential designer never tires of designing new ways to make us sick and die, or modifying old ways by improving their ability to harm us. It normally uses one of five different families of virus, its favourite until recently has been the Orthomyxoviridae family that includes the influenza virus, but it made good use of the Coronaviridae family recently with SARS and MERS as practice runs, and eventually SARS-CoV-2 that caused the on-going COVID-19 pandemic.

But it also has several other families in stock, so to speak, and can modify any of them to cause the next pandemic.

That's if you believe the Creationist claims that all life is designed by a magic designer and any change in its genome can only occur with divine intervention to make it happen. For incomprehensible reasons, they would rather we thought of their putative designer god as a pestilential malevolence than accept the scientific Theory of Evolution.

The following article from The Conversation by four Australian experts, outlines five different virus families from which the cause of the next pandemic could come. It was written by Professor Allen Cheng, Professor in Infectious Diseases Epidemiology, Monash University, Victoria, Australia, Dr. Andrew van den Hurk, Medical Entomologist, The University of Queensland, Australia Associate Professor Cameron Webb, Clinical Associate Professor and Principal Hospital Scientist, University of Sydney, NSW, Australia, and Professor Damian Purcell, Professor of virology and theme leader for viral infectious diseases, The Peter Doherty Institute for Infection and Immunity, Melbourne, Victoria, Australia.

It is reprinted here under a Creative Commons licence, reformatted for stylistic consistency. The original article can be read here.

5 virus families that could cause the next pandemic, according to the experts


Allen Cheng, Monash University; Andrew van den Hurk, The University of Queensland; Cameron Webb, University of Sydney, and Damian Purcell, The Peter Doherty Institute for Infection and Immunity The CSIRO has delivered a comprehensive report on how we should prepare for future pandemics.

The report identifies six key science and technology areas such as faster development of vaccines and onshore vaccine manufacturing to ensure supply, new antivirals and ways of using the medicines we already have, better ways of diagnosing cases early, genome analysis, and data sharing.

It also recommends we learn more about viruses and their hosts across the five most concerning virus families. These causes of disease could fuel the next pandemic.

We asked leading experts about the diseases they can cause and why authorities should prepare well:

1. Coronaviridae

COVID-19, Middle East respiratory syndrome (MERS), severe acquired respiratory syndrome (SARS)

The first human Coronaviruses (229E and OC43) were found in 1965 and 1967 respectively. They were low-grade pathogens causing only mild cold-like symptoms and gastroenteritis. Initial understanding of this family came from study of related strains that commonly infect livestock or laboratory mice that also caused non-fatal disease. The HKU-1 strain in 1995 again did not demonstrate an ability to generate high levels of disease. As such, coronaviridae were not considered a major concern until severe acquired respiratory syndrome (SARS-1) first appeared in 2002 in China.

Coronaviridae have a very long RNA genome, coding up to 30 viral proteins. Only four or five genes make infectious virus particles, but many others support diseases from this family by modifying immune responses. The viruses in this family mutate at a steady low rate, selecting changes in the outer spike to allow virus entry into new host cells.

Coronaviridae viruses are widespread in many ecological niches and common in bat species that make up 20% of all mammals. Mutations spread in their roosts can spillover into other mammals, such as the civet cat, then into humans.

Coronaviridae genome surveillance shows an array of previously unknown virus strains circulating in different ecological niches. Climate change threatens intersections of these viral transmission networks. Furthermore, pandemic human spread of SARS-CoV-2 (the virus that causes COVID) has now seeded new transmissions back into other species, such as mink, cats, dogs and white-tailed deer.

Ongoing viral evolution in new animal hosts and also in immune-compromised HIV patients in under-resourced settings, presents an ongoing source of new variants of concern.

– Damian Purcell

Read more:
Long COVID: How researchers are zeroing in on the self-targeted immune attacks that may lurk behind it


2. Flaviviridae

Dengue fever, Japanese encephalitis, Zika, West Nile fever

The flaviviridae family causes several diseases, including dengue, Japanese encephalitis, Zika, West Nile disease and others. These diseases are often not life-threatening, causing fever, sometimes with rash or painful joints. A small proportion of those infected get severe or complicated infection. Japanese encephalitis can cause inflammation of the brain, and Zika virus can cause birth defects.

While all these viruses may be spread by mosquito bites, when it comes to each individual virus, not all mosquitoes bring equal risk. There are key mosquito species involved in transmission cycles of dengue and Zika virus, such as Aedes aegypti and Aedes albopictus, that may be found in close to where people live. These mosquitoes are found in water-holding containers (such as potted plant saucers, rainwater tanks), water-filled plants, and tree holes. They also like to bite people.

The mosquitoes that spread these viruses are not currently widespread in Australia; they’re generally limited to central and far north Queensland. They are routinely detected through biosecurity surveillance at Australia’s major airports and seaports. With a rapid return to international travel, movement of people and their belongings may become an ever-increasing pathway of introduction of the diseases and mosquitoes back into Australia.

person spraying chemicals in urban setting
A Sri Lankan health worker sprays insecticide to curb mosquito breeding earlier this year.
Different mosquitoes are involved in the transmission of West Nile virus and Japanese encephalitis. These mosquitoes are more likely to be found in wetlands and bushland areas than backyards. They bite people but they also like to bite the animals most likely to be carrying these viruses.

The emergence of Japanese encephalitis, a virus spread by mosquitoes between waterbirds, pigs, and people, is a perfect example. Extensive rains and flooding that provide idea conditions for mosquitoes and these animals create a “perfect storm” for disease emergence.

– Cameron Webb & Andrew van den Hurk

Read more:
Japanese encephalitis virus has been detected in Australian pigs. Can mozzies now spread it to humans?


3. Orthomyxoviridae

Influenza

Before COVID-19, influenza was the infection most well-known for causing pandemics.

Influenza virus is subdivided into types (A, B, and rarely C and D). Influenza A is further classified into subtypes based on haemagglutinin (H) and neuraminidase (N) protein variants on the surface of the virus. Currently, the most common influenza strains in humans are A/H1N1 and A/H3N2.

Zoonotic infection occurs when influenza strains that primarily affect animals “spill over” to humans.

Major changes in the influenza virus usually result from new combinations of influenza viruses that affect birds, pigs and humans. New strains have the potential to cause pandemics as there is little pre-existing immunity.
person throwing out eggs.
An Israeli worker disposes of chicken eggs to contain the spread of bird flu.
Since the beginning of the 20th century, there have been four influenza pandemics, in 1918, 1957, 1968, and 2009. In between pandemics, seasonal influenza circulates throughout the world.

Although influenza is not as infectious as many other respiratory infections, the very short incubation period of around 1.4 days means outbreaks can spread quickly.

Vaccines are available to prevent influenza, but are only partially protective. Antiviral treatments are available, including oseltamivir, zanamivir, peramivir and baloxavir. Oseltamivir decreases the duration of illness by around 24 hours if started early, but whether it reduces the risk of severe influenza and its complications is controversial.

– Allen Cheng

Read more:
My year as Victoria's deputy chief health officer: on the pandemic, press conferences and our COVID future


4. Paramyxoviridae

Nipah virus, Hendra virus

Paramyxoviridae are a large group of viruses that affect humans and animals. The most well known are measles and mumps, as well as parainfluenza virus (a common cause of croup in children).

Globally, measles is a dangerous disease for young children, particularly those who are malnourished. Vaccines are highly effective with the measles vaccine alone estimated to have saved 17 million lives between 2000 and 2014.

One group of paramyxoviruses is of particular importance for pandemic planning – henipaviruses. This includes Hendra virus, Nipah virus and the new Langya virus (as well as the fictional MEV-1 in the film Contagion). These are all zoonoses (diseases that spill over from animals to humans)

Hendra virus was first discovered in Queensland in 1994, when it caused the deaths of 14 horses and their horse trainer. Infected flying foxes have since spread the virus to horses in Queensland and northern New South Wales. There have been seven reported human cases of Hendra virus in Australia, including four deaths.

Nipah virus is more significant globally. Infection may be mild, but some people develop encephalitis (inflammation of the brain). Outbreaks frequently occur in Bangladesh, where the first outbreak was reported in 1998. Significantly, Nipah virus appears to be able to be transmitted from person-to-person though close contact.

– Allen Cheng

Read more:
What is this new Langya virus? Do we need to be worried?


5. Togaviridae (alphaviruses)

Chikungunya fever, Ross River fever, Eastern equine encephalitis, Western equine encephalitis, Venezuelan equine encephalitis

The most common disease symptoms caused by infection with alphaviruses like chikungunya and Ross River viruses are fever, rash and painful joints.

Like some flaviviruses, chikungunya virus is thought to be only spread by Aedes aegypti mosquitoes in Australia. This limits risks, for now, to central and far north Queensland.

Many different mosquitoes play a role in transmission of alphaviruses, including dozens of mosquito species suspected as playing a role in the spread of Ross River fever. Many of these mosquitoes are commonly found across Australia.

But what role may these local mosquitoes play should diseases such as eastern equine encephalitis or western equine encephalitis make their way to Australia? Given the capacity of our home-grown mosquitoes to spread other alphaviruses, it is reasonable to assume they would be effective at transmitting these as well. That’s why the CSIRO report notes future pandemic preparation should work alongside Australia’s established biosecurity measures.

– Cameron Webb & Andrew van den Hurk

Read more:
How can the bite of a backyard mozzie in Australia make you sick?


The Conversation Allen Cheng, Professor in Infectious Diseases Epidemiology, Monash University; Andrew van den Hurk, Medical Entomologist, The University of Queensland; Cameron Webb, Clinical Associate Professor and Principal Hospital Scientist, University of Sydney, and Damian Purcell, Professor of virology and theme leader for viral infectious diseases, The Peter Doherty Institute for Infection and Immunity

Published by The Conversation.
Open access. (CC BY 4.0)

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