Chapter 0 – scotsthoughts.com https://scotsthoughts.com The writings and other creative works of Scot Fagerland Wed, 17 Aug 2022 20:01:12 +0000 en-US hourly 1 https://wordpress.org/?v=6.6.2 Coronavirus Primer, Part 5: So What Should We Do Now? https://scotsthoughts.com/coronavirus-primer-part-5-so-what-should-we-do-now/ Wed, 17 Aug 2022 19:07:54 +0000 https://scotsthoughts.com/?p=384 Originally posted 12/17/20 on HowLifeGotThisWay.com I am researching and writing this primer to take a big-picture look at the COVID-19 epidemic.  What I originally envisioned as a single essay has now developed into an ongoing series of indefinite duration! Now that I have examined the pandemic from biological, medical, epidemiological, and social perspectives, today I consider […]

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Originally posted 12/17/20 on HowLifeGotThisWay.com

A full solution requires many pieces: health, economy, politics, and teamwork. Click here for attribution 1

I am researching and writing this primer to take a big-picture look at the COVID-19 epidemic.  What I originally envisioned as a single essay has now developed into an ongoing series of indefinite duration! Now that I have examined the pandemic from biological, medical, epidemiological, and social perspectives, today I consider the upshot:  “So … what should we do now?!”  How shall we resolve the three-way tug of war involving public health, the economy, and political peace?  How should we conduct our lives until the virus is under control?        

I. A Tricky Balance

President Trump tweeted, “We cannot let the cure be worse than the problem itself.” 2

Most people would agree with President Trump’s rationale.  The keyword in this sentiment is “worse”, which is frustratingly hard to define.  It depends on the costs and benefits of action vs. inaction. 

Let’s suppose at its simplest level that cost is measured strictly in terms of human lives lost.  One research team estimates that strict public health measures could save about a million American lives this year while causing around 100,000 poverty-related deaths.  That is a nightmarish ethical dilemma.  On balance, though, playing it safe with public health measures like stay-at-home orders would be justified. 3 The problem is that prevented deaths are invisible.  Virtually nobody would celebrate the million lives saved, while the actual recession-related deaths would make headlines daily. 

I got curious to look up the countries that had done best at protecting their economies, those that had done best to minimize infections, and those that had struck the best balance.  The results surprised me.  In the long run, there is no tradeoff.  The countries that have done best at keeping their COVID-19 deaths down are actually those with the most successful economies now. 4 Although “lockdown” is a difficult short-term process, it allows for an earlier return to normalcy and therefore greater long-term recovery.

If numbers were the only consideration, the solution would seem “obvious”.  With a truly rigorous, highly-enforced social lockdown for 2 – 4 weeks, we could put this pandemic behind us.  That scenario alarmed us in March, but by now another 2 – 4 weeks would not feel shocking. 

There’s another factor, though: political will.  I’d be willing to horde groceries and stay home for a couple more weeks.  I know that many of you would too, even some conservatives in small states.  But we also know how ferocious the resistance would be.  People would refuse to comply; the stricter the order, the harder it would be to enforce.  The short-term pain would be undeniable.  Some people would feel so angry and oppressed that they would develop permanent vendettas or even go Rambo on us.  The emotional costs of such drastic action would simply be too high.  Unfortunately, the longer this goes on, the more time the pandemic has to grow exponentially. 

If the short-term and long-term solutions are at odds with each other, how else can we find the right balance?

II. Suggestions from the Left and Right

I seem to see two competing visions emerging.

A. The “Experts'” or “Liberal” Solution

  • Monitor hotspots
  • Locally tailor protocols, including face mask mandates, business closures, and prohibitions of mass gatherings, where and when appropriate
  • Increase the number and speed of tests where needed
  • Improve contact tracing and quarantine procedures
  • Wait for a vaccine

A good example of this model is California’s stay-at-home order, which was one of the first statewide responses in the United States and which is regularly updated.  California counties are ranked on a heat spectrum (yellow < orange < red < purple < blue) which is now defined by availability of ICU beds.  Business activities and freedom of movement are more strictly restricted in hotter spots.  The state also recently launched the CA Notify app.  When someone who uses the app tests positive for SARS-CoV-2, she can alert the app.  Users who spend extended periods of time in proximity to her will then get notifications on their phones. 

B. The “People’s” or “Conservative” Solution

  • Preemptively quarantine the vulnerable
  • Let everyone else get back to life as usual
  • Face masks and social distancing up to personal conscience
  • Wait for herd immunity

The conservative model is expressed in the Great Barrington Declaration.  The preamble to this declaration indicates that its proponents are more concerned about government orders than the virus.  The plan calls itself “Focused Protection” because it would focus on protecting nursing home residents and other vulnerable patients, while keeping children in school because they are much less susceptible.  Many experts do not find focused protection to be feasible; flu pandemics illustrate that is not possible to effectively identify or quarantine the vulnerable population. 5 In fact, the apparent mass appeal of the Great Barrington Declaration is that it is extremely simple.  The declaration is short and abstract, more a set of goals than a plan of execution.    

III. My Humble Suggestions

A. Principles and Guidelines

In my coronavirus primer, I have discussed benefits and drawbacks to various prongs of the liberal and conservative approaches.  Business lockdowns cause their own pain, and mandates lead to political friction.  A vaccine could be years away in some parts of the world.  With indiscriminate reopenings, we might reach herd immunity before a vaccine is available, but that process would kill tens of millions of people and would overwhelm hospitals to the point of causing millions more non-COVID deaths.

Some compromise will be necessary and optimal. 6 Compromise requires looking at this pandemic as a political problem, not strictly a medical or economic one.  The political controversy is the main factor that tends to be left out when people discuss solutions.  No single plan will be perfectly acceptable to everyone.  But the status quo approach, which has led to violence and deep societal rifts, is outright unacceptable.           

Here are some abstract political principles that guide my thoughts.

  • “I’ll explain my position and respect yours.” 
  • In a democracy, we define what is “right” by the people’s choice, even when it’s based on false premises.  That is frustrating, but it’s a price we pay.
  • The more controversial a decision is, the more locally it should be made.
  • Consider externalities

Externalities are a fancy way of saying costs or benefits that one person’s decisions have on society around him.  Most economics classes teach that an economy is most efficient when people are charged for the messes they make or rewarded for the messes they clean up.  I’m a little surprised that I haven’t heard this topic being discussed widely this year in response to the pandemic.   

When I consider these principles in sum, I conclude that each person, family, business, and government should assume the right and the responsibility for its own decisions.  Here are some applications that would follow from this existential approach.

The people’s primary freedom is the right to decide how to carry out their lives.  Face masks, social gatherings, and business closures should mostly be individual decisions.  In fact, this already is true in reality.  It’s difficult to enforce mandates on individuals, so people already are acting according to their own judgment. 

In order to guide people’s actions, governments have a responsibility to educate: to provide data, science, and recommendations with justifications.  Most people will choose to do the right thing and respect sensible recommendations.  For instance, governments everywhere have been consistent about their advice to wear face masks.  Even without a mandate, 85% of Americans already report that they regularly wear face masks voluntarily, including 76% of Republicans. 7 For conservatives, it’s that last step of the requirement that gets the blood boiling.  Thus, the benefits of requiring face masks probably does not greatly outweigh the political ill-will.  

There are a few more COVID-specific principles to help us make common sense decisions.

  • A higher current level of infections justifies more restricted behavior.  
  • Stricter regulations are only sustainable over smaller places or shorter times.
  • Vulnerable people require greater protection.

States differentiate counties depending on their rates of new cases, rates of positive tests, percentage of ICU capacity available, etc.  Personally, I made a 1% rule of thumb for myself.  When the pandemic started, I vowed to stay out of areas where more than 1% of the population is actively infected.  Today, it so happens that my neighborhood, city, county, state, and country are all 2 – 6% actively infected.  These levels tell me that it’s time to stay in as much as possible. While I can commit to locking down at home for a couple of days, it’s unreasonable to expect self-quarantine for months on end.  It’s completely unrealistic to expect the whole world to hunker down for a year.   I did find it reasonable to stay home for last year’s holidays.  It’s a sacrifice I was willing to make because it felt like the right thing to do. I’m sure that you have your own standards to suit your own lifestyle.  No matter how young or healthy you are, though, be mindful that this disease can be fatal to the oldest generation in your family.     

Below, I detail a few more specific recommendations that follow from my principles.                        

B. Spreading the Liability for Spreading the Disease

COVID-19 liability is a hot topic this year, and it should play an important part in our response.  A pure economist might suggest that people, and especially businesses, should be held liable for medical costs if they cause infections by high-risk behavior.  We all know that’s an impractical solution.  For starters, it’s almost impossible to trace the origins of each transmission.  Furthermore, most germ-spreaders couldn’t afford the medical costs.  The ensuing lawsuits would not exactly help lighten up the atmosphere either. 

A practical middle-ground would be a “liability spreading” system, where the costs are spread out among the whole risk-sharing population.  The closest analogy would be a toll road:  those who use it pay for it.  A similar cost-reward system with tolls and subsidies could be set up by a city or county that chose to participate.  Just to throw an example out there, a city could sell foot traffic permits to businesses.  Pricing could be based on population density, with a discount for businesses that require on-site rapid testing.  The business could pass the cost on to customers.   Perhaps customers could pay a little extra by the minute or the mile to enter stores, ride buses, and the like.  The proceeds from these tolls could fund medical treatment, vaccine and face mask giveaways, and rapid tests.

Nobody likes tolls, but they’re better than outright bans.  Government directives to “stay at home” have been highly contentious – they are largely to blame for the rise of right-wing militarism in the last year.  Worse yet, these bans aren’t even enforceable.  Most governments are relying on an honor system with their citizenry.  The liability spreading system would

  • keep businesses open,
  • effectively discourage frivolous outings with an added cost (perhaps movie ticket prices would double)    
  • still allow citizens freedom of movement according to their own judgment and budget,
  • not cost anything for citizens who stay home,
  • raise money for COVID-19 treatment,
  • and be flexible.  It’s easier to adjust tolls than to expect citizens to keep up with an ever-shifting front of regulations.

C. Just Compensation and Focused Bailouts

If a government does force a business to close, it ought to compensate for lost profits.  In fact, in the United States, there is a constitutional argument in favor of such compensation.  The 5th Amendment states in part:

nor shall private property be taken for public use, without just compensation.” 

This “Takings Clause” applies to state and local governments as well as the federal government. 

In this pandemic, closing a business to mitigate the spread of a virus is a “public use”, and forcing an establishment to close is arguably “taking” the property for that use.  Under this theory, a government that ordered a business to close for a month would compensate that business for one month’s lost profits or payroll. 

This argument is not likely to be legally enforceable.  COVID-19 closures fall under a government’s police powers, which are legally exempt from the 5th Amendment.  (Such compensation was not made for Spanish Flu closures).  At least one legal scholar argues that some compensation would be the morally right thing to do, a responsibility that I argue for here.  This must be balanced by cost.  It would be prohibitively expensive to cover the widespread closures that have been mandated.  In fact, coronavirus bailouts like the PPP program have been the largest stimulus bills in US history. 

The liability-spreading system would mitigate such costs by allowing all but the worst super-spreader businesses to remain open.  In fact, it would be a mechanism for funding any such compensatory payments.  If a government were committed to covering profits for businesses that it forced to shut down, that government would have incentive to become extremely judicious with its closures.      

D. Conservative Messaging for Conservative Communities

Aristotle described three forms of persuasion:  logos, pathos, and ethos.  As someone trained in the sciences, I respond to logos: facts and logic.  However, I recognize that most people base their values primarily on ethos (who is delivering the message) supported secondarily by pathos (emotions), then perhaps justified after the fact by heavily filtered evidence.  In the United States, for instance, 1/3 to ½ of the nation is conservative.  Many people in this constituency have made up their minds that Democrats or even scientists are bad guys.  Those folks won’t listen to a word that Dr. Fauci, Governor Whitmer, or President Biden says, no matter how well it is supported by science. 

To reach conservative citizens, public health agencies must recruit conservative spokespersons.  I can hardly think of a better example than Dolly Parton.  This beloved red-state icon donated $1 million to the Moderna vaccine.  In fact, federal agents have already suggested enlisting her as a spokesperson to encourage mask wearing in Knox County, TN. 8 If Dolly and other conservative heroes encouraged people to stay at home and avoid gatherings as a patriotic call of duty, conservatives just might take it more seriously.  Let’s start comparing the sacrifices that we ordinary citizens make to those of soldiers and policemen, part of a higher cause. These are the arguments that resonate with conservatives.     

E. Anti-Curfews

I don’t understand the rationale behind curfews, and I’m not sure anyone has evidence that they do any good.  In fact, I would propose that businesses in high-risk zones should stay open 24 hours.  Then customers could spread themselves out throughout the day instead of packing themselves into limited business hours.  Hell, stores could even offer graveyard shift discounts. 

IV. Conclusions

It would be possible to end this pandemic within a month, but only with a coordinated and strictly enforced worldwide shutdown.  If the pandemic were strictly a medical issue, or even a long-term economic issue, this solution would be the sensible one.  But we all know it’s draconian and unrealistic.  Some people would suffer great loss, some would resent the lockdown for the rest of their lives.  Different people are swayed by different emotions or evidence, and some pay no heed to evidence at all.  But they are all part of the democratic decision-making machine.

There is room for individualized response.  In fact, that may be the only way to keep political tensions under control.  We must allow some latitude for people and businesses to make their own choices. 

On the flipside, freedom bears responsibility.  Charge an extra $10 for a movie ticket or 25% for bus fare, and then let people decide what they’re willing to pay for.  Use the proceeds for COVID-related medical expenses and to support businesses that have closed their doors.   

As I said, no solution is perfect, and this proposal is no exception.  Some people would object to paying extra to congregate.  Others would complain about a system that permits gatherings at all.  What can I say – life can not be perfect in times of pandemic.  That’s the hand we’re dealt right now.  The best we can do is respond efficiently and holistically.  Let’s seek the greatest medical, economic, and emotional good for the greatest number.   

V. Citations

  1. lumaxart, CC BY-SA 2.0 http://creativecommons.org/licenses/by-sa/2.0, via Wikimedia Commons, http://commons.wikimedia.org/wiki/File:Working_Together_Teamwork_Puzzle_Concept.jpg (accessed 12/17/20).
  2. Donald Trump, Twitter, 3/22/20, 8:50 PM, http://twitter.com/realDonaldTrump/status/1241935285916782593
  3. Olga Yakusheva, “The Cure is Not Worse than the Disease – A Humanitarian Perspective”, SSRN (8/07/2020, pre-print awaiting peer review), http://papers.ssrn.com/sol3/papers.cfm?abstract_id=3638575 (accessed and saved 10/01/20).
  4. Joe Hasell, Which countries have protected both health and the economy in the pandemic? – Our World in Data (9/01/2020; accessed, saved, and archived 11/27/20).
  5. Julian Tang et al., “Expert reaction to Barrington Declaration, an open letter arguing against lockdown policies and for ‘Focused Protection’”, Science Media Centre (10/06/2020), expert reaction to Barrington Declaration, an open letter arguing against lockdown policies and for ‘Focused Protection’ | Science Media Centre (accessed, saved, and archived 12/16/20).
  6. Dr. Sandro Galea as quoted by Amelia Thomson-DeVeaux, “Republicans And Democrats See COVID-19 Very Differently.  Is That Making People Sick?” Five Thirty-Eight (8/27/2020),  http://fivethirtyeight.com/features/republicans-and-democrats-see-covid-19-very-differently-is-that-making-people-sick/ (accessed, saved, and archived 10/23/20).
  7. Stephanie Kramer, “More Americans say they are regularly wearing masks in stores and other businesses”, Pew Research Center (8/27/2020), http://www.pewresearch.org/fact-tank/2020/08/27/more-americans-say-they-are-regularly-wearing-masks-in-stores-and-other-businesses/ (accessed, saved, and archived 10/22/20).
  8. Cole Sullivan, “Federal report: Tennessee needs mask mandate, should enlist Dolly Parton to help”, WBIR News (7/21/2020), http://www.wbir.com/article/news/health/coronavirus/federal-report-tennessee-needs-mask-mandate-should-enlist-dolly-parton-to-help/51-7a3c938a-6f82-4760-ae91-963e4f0c66d3 (accessed, saved, and archived 12/29/20).
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Coronavirus Primer, Part 4: Coronavirus and Society https://scotsthoughts.com/coronavirus-primer-part-4-coronavirus-and-society/ Wed, 17 Aug 2022 19:07:03 +0000 https://scotsthoughts.com/?p=382 Originally posted 11/08/20 on HowLifeGotThisWay.com What is guiding us — the fear of contagion or the contagion of fear? About This Primer I am researching and writing this series to take a big-picture look at COVID-19.  I’m taking a step back from the daily news information overload and fact-checking the (even larger) load of misinformation.  […]

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Originally posted 11/08/20 on HowLifeGotThisWay.com

COVID-19 is much more than a medical issue. The virus, and human response to the virus, have made 2020 feel like a time of war. 1

What is guiding us — the fear of contagion or the contagion of fear?

About This Primer

I am researching and writing this series to take a big-picture look at COVID-19.  I’m taking a step back from the daily news information overload and fact-checking the (even larger) load of misinformation.  I announced this project in June and invited questions from my friends. It is now a series of indefinite duration.  Part 1 covered the basics of viruses and coronaviruses.  Part 2 dealt with SARS-CoV-2 on the level of individual health.  Part 3 discussed the epidemiology.

In today’s installment, I take a turn from the biological to the social realm.  The pandemic is much more than a medical issue.  It has come to define the environment of 2020 in all aspects of our lives.  Part 4 is “Coronavirus and Society.”  I begin with the coronavirus recession.  I then discuss the psychology and politics of how we think, feel, and communicate about this pandemic.  What guides us – the fear of contagion or the contagion of fear?  Why do different segments of society have such divergent outlooks on this event?   

I. The Coronavirus Recession

II. National and Partisan Differences in Attitude

III. The Psychology of Uncertainty

IV. Conclusions

V. Citations

I. The Coronavirus Recession

COVID-19 as a social and economic crisis is arguably more momentous than as a medical crisis.  The only way to slow the contagion for now is to regulate travel and population density.  As you well know, this keeps employees from work, it slows down consumer spending, and it shutters factories – in short, it is an economic wrecking ball.  While the virus itself has harmed about 1% of 1% of us, our response to it has impacted us all.    

A recession is defined as a period of at least two consecutive quarters of economic contraction.  By that standard, the US and 18 other nations were already in recession by the 3rd quarter. 2 The forecast for the year is that the global economy will shrink by 4 – 5%, the deepest plunge since WWII.  This is the first recession to slow down the growth of developing nations.  Some economists predict that over 90% of all national economies will contract this year, a metric that makes this downturn even worse than the Great Depression. 3 The loss of jobs in the second quarter of 2020 alone was equivalent to almost 200 million full-time workers. 4 

When economists describe this recession, a recurring theme is that demand and supply are both down. 5 This double-whammy impact is felt most strongly in travel and inessential establishments like bars and massage parlors.  Not only are these businesses unable to provide their full range of services, but the customers have less discretionary money on hand.  This will make recovery difficult, as there will not be an excess of demand waiting to meet recovering supply or vice versa.   

Another significant effect is a transfer of economic activity from one sector to another.  While restaurant dining is down, food delivery is up; TV on demand has taken over the movie theater industry.  Online shopping has exploded.  Many of today’s hot sectors (like nursing and webcasting) are hiring vigorously.  However, it will take a while for employees to train and find jobs, and by then the short-term surge may have ended.

Some sectors are unequivocally depressed.  Oil prices have tanked as people have driven less and airlines have slashed flights.  This helps consumers but harms many of the poorest countries, which derive a large portion of their income from oil exports. 

In some ways, the coronavirus recession is a tipping point for existing crises.  There was already a major debt crisis in the 2010s.  Now, government spending is breaking records.  There have been numerous high-profile stimulus packages in the US and Europe.  Small governments that are not accustomed to such bailouts are strained to the limits and are borrowing heavily. 6 Lockdowns are also exacerbating famines that were already alarming last year. 7

The two faces of the coronavirus – the disease and the depression – have us between a rock and a hard place.  In the short term, we cannot ameliorate one without aggravating the other.  Concerns about public health and the economy are all legitimate, and it seems politically impossible to find a balance satisfactory to everyone. 

II. National And Partisan Differences In Attitude

An anonymous person on a forum asked,Why do conservatives downplay the pandemic compared to liberals?

A.  Conservative and Liberal Attitudes

B.  Political Parties and Leaders

C.  National Differences

A. Conservative and Liberal Attitudes

The tension between public health and the economy is ages old, and political parties were already positioned on opposite sides of the divide.  Conservatism might be described as an “economy first” philosophy.  Conservatives resist spending money or changing behavior for new or uncertain threats.  Liberal-minded thinkers are more receptive to accepting new problems and solutions, 8 and to paying for those solutions with government funds.  These positions have been consistent at least since the 18th century, when economists sounded alarms about overpopulation.  The same theme has played out with nutritional and medicinal advice, wildlife conservation, pollution, and climate change. 

There is an important commonality to these modern liberal concerns.  They are all “invisible” to the individual.  When it comes to cosmic questions, conservatives feel more comfortable with traditional sources like religion.  Otherwise, reality is conservatively defined by tangible direct personal experience.  The conservative part of our mind is apt to think, “I burn gasoline in my car every day.  My neighborhood is clean, and it snowed here last night.  You can’t tell me that fossil fuels cause pollution or climate change!”  It’s easy to conclude that warnings about fossil fuels are a fiction spun by someone with an agenda. 

The liberal part of our mind may have an easier time seeing, believing, or caring about aggregate effects.  However, liberal parties can take their concerns to extremes that are not clearly necessary.  Public health threats are often detected in their early phases.  We can’t really know the scope of the problem without predicting the future – and predictions often lead to worst-case-scenario anxiety.  Furthermore, aggregate solutions do not always require rapid, radical changes for all persons.   

The political divide is exaggerated by urban / rural differences.  Viral contagion, like many other societal hazards, is most rampant in densely populated cities.  Urban areas also happen to be more liberal in character than small towns and the countryside.  Since ruralites don’t face the same infectious risk as urbanites, they often feel that city-made precautions do not apply to them. 9

B. Political Parties and Leaders

Most people are probably not conscious of why each attitude is associated with a different political party, but it doesn’t matter why.  Once those associations are made, they become self-perpetuating.  Well before the pandemic, the Republican and Democratic parties of the United States had already become hyper-partisan to the point of feeling contemptuous and prejudiced toward each other.  Sociologists actually have a name for this state: affective polarization. 10 It has become more important to each party to defeat the other than to think in terms of a common interest.          

Political leaders and the party rank-and-file reinforce each other.  Politicians know and say what their constituents want to hear.  Their behavior clarifies the party standard, which crystallizes quickly throughout the party.  On the right, presidents such as Trump 11 and Bolsonaro 12 resist wearing masks, downplay the public health threat, and scoff at safety measures.  Trump has said that wearing a mask “would send the wrong message” to his voters by making it seem like he is preoccupied with health instead of the economy. 13 In turn, 84% of Republicans trust the president more than they trust scientists. 14

Political parties can co-exist peacefully even when they have different values.  They may self-segregate or irritate each other.  The differences become more salient when one party imposes its values on the other, or even when one perceives an imposition.  This year, generically speaking, conservatives feel that governments, corporations, and even judgmental neighbors are imposing “liberal” rules and restrictions upon them.  Liberals feel violated when conservatives invade their space without safety precautions.  In this quibble, the stakes are high.   

C. National Differences

Some political leaders feel embarrassed about natural disasters getting out of their control, so they deny the problem or shift blame.  The Chinese and US governments point the finger at each other, sometimes with completely unfounded accusations. 15 President Trump has alternately argued that his opponents are making a mountain out of a molehill 16 or, if it is a bad problem, it’s their fault. 17

The United States and western Europe, the homeland of the 18th century Enlightenment, are unique among the world in their esteem of individual liberty. 18 The rest of the world places higher value on being “protective of the collective” (to coin a phrase) even if it demands personal sacrifice.  As I discussed in Part 3, Asians have a much easier time accepting government recommendations, and they wear face masks in the highest proportions. 

Westerners, on the other extreme, feel threatened when the government tells them what to do, even if it is for the public good.  This sentiment increases toward the right.  Many conservatives deny that there is a public threat at all.  The words that they associate most often with face mask mandates and social lockdowns are not even entirely economical; they include “freedom” and “rights”. 

III. The Psychology of Uncertainty

Karen K. commented, “The speed at which guidance changes based on ‘emerging understanding’ of the virus is enough to make me trust no one.”

Mitzi M-H rhetorized, “How can we possibly know what it’s doing when the numbers are changing or inaccurate to start with?”

William B. rhetorized, “What’s going on with the WHO and the CDC?  Why are there so many disparate studies and conflicting information?”

A. Dealing with Unknowns

B. Whom can we Trust?

C. How Do we Feel?

D. How Should we Feel?

A. Dealing with Unknowns

When it comes to the coronavirus, it’s important to remember a key issue:

There are many unknowns.

This butts heads with a universal law of human nature:

We hate unknowns.

As 21st century web addicts, we demand answers, and we demand them now!  Unfortunately, clear answers are usually hard to find in the early stages of any sudden crisis.  We ask, “How many infections are harmless and undetected?  What causes more harm – the disease or the lockdowns?  Will immunity last forever?  When will vaccines be available?”  We expect textbook right-and-wrong answers.  Although many such questions are mathematically modeled, they usually have answers like, “We don’t know,” or “It depends.” 

These are emotionally unsatisfying answers, especially coming from experts, and doubly so for people who are not accustomed to nuance.  Unresolved anxiety then tempts us to conclude, “There is a simple answer, and someone knows, but they’re not telling me!” Then our imagination fills in the voids.  We are highly prone to believing the next “satisfying” answer that comes along. 1 19

It’s okay to accept that knowledge has boundaries, often blurry ones.  That’s especially true for a moment of panic like this year.  Even honest scientists, doctors, politicians, and public officials don’t have all the answers.  But their bounded answers are much better than conspiratorial guesswork.  Give doubt a chance.

B. Whom can we Trust?

Most Americans say that they trust major health agencies first 20 and that they are skeptical of their social media news feeds. 21 Are these intuitions justified?     

My standard is to consider the sources’ incentives and capabilities: 

Who is most willing and able to find the truth, the whole truth, and nothing but the truth?

By my values, research scientists must be at the top of this list, for at least two reasons.  First, they are the only people with direct first-hand knowledge and expertise in the medical issues.  Second, scientists are judged by how well they find truth, whether it’s beautiful or ugly. 

There is a broad spectrum of media bias and credibility.  I strongly recommend sites such as All Sides and Media Bias / Fact Check , which rank news sources on several criteria.  Still, news outlets produce content for mass consumption, which requires them to simplify and / or sensationalize information.  In an event like this pandemic, most news channels can only present a surface-level account – but it’s an essential first source.   

I do not turn to politics for answers.  This goes somewhat for office holders, but especially for party activists and armchair politicians.  Partisans get emotionally attached to their parties’ preconceived notions.  They then devote most of their time and energy to trash-talking each other and defending themselves.  Truth takes a back seat to “who’s right” or, even more trivially, “who’s righteous”. 

Social media rumors and word of mouth place lowest in my trust hierarchy.  There are large but highly vocal segments of the population that lack the capacity or the incentive to manage voluminous, nuanced, complex information.  Office holders, in turn, must pander to those folks for re-election. 

Unelected government agencies in free countries are generally more trustworthy, as they are ideally sheltered from the partisan winds of emotionality.  Agencies also have money for effective scientific and statistical research.  Unfortunately, there is mounting evidence that President Trump has politicized US agencies like the FDA 22 , CDC 23 , and HHS 24 .  Federal agencies have sent mixed signals as they have vacillated between public health advice and the president’s preferred messaging. 25

C. How Do We Feel?

“People are tired of COVID.  People are saying, ‘Whatever, just leave us alone.‘ ” …

You turn on CNN, that’s all they cover. ‘COVID, COVID, pandemic’ …

People aren’t buying it, CNN, you dumb bastards.”

President Trump, 10/19/20 26

President Trump is describing crisis fatigue, aka chronic stress response.  Whether we are stressed out about the virus itself, the economic impact, impositions on our lifestyle, or simply the unending arguments, most of us have felt stressed all year.  Long-term stress is not natural, and it takes a toll on physical and emotional health.  Nine out of ten Americans reported feeling emotional distress due to the pandemic, and that was already in May. 27

While a crisis can help unite people against a common enemy, in the long term it can aggravate political differences in addressing the problem.  Other effects of chronic stress response include negative emotions and reckless behavior. 28 Substance abuse, crime, and suicide are running high in 2020. 29

Experts advise that knowledge is empowering to cope with stress.  It is easier to confront facts than fears and rumors.  It is also important to be aware of our own feelings.  Only by identifying the sources and nature of our emotions can we ever hope to address them.  Finally, look for solutions when you are in your best state.  Let your “adult self” make your choices, not your “overwhelmed self” or your “survival self”. 30

Historians compare this pandemic to a depression or even a war that has potential to leave lasting changes in society.  We know that billions of people have lived through such crises before – plagues, wars, tyrannies, and more.  Most of us thought that we wouldn’t see such a catastrophe in our own lifetimes, but here we are.  The classic stages of grief are denial, anger, bargaining, depression, and acceptance.  History inspires us by proving that people can get through any tragedy when they learn to accept their new world.     

D. How Should We Feel?

“Nobody panics when things go ‘according to plan’ even if the plan is horrifying! 

Upset the established order, and everything becomes chaos.”

— The Joker, as written by Jonathan and Christopher Nolan, “Dark Knight” (2008)

In the politicized public discourse about coronavirus, one of the major through-lines has been the question, “How serious is this?”  Should we feel afraid of the virus?  Or is it no big deal?  This deceptively simple question is difficult to answer even without the political complications. 

One challenge is that we have to think as individuals and as a society at the same time.  For you, as just one person, chances are slim (so far) that you’ll catch coronavirus, and slimmer still that it will make you seriously ill.  But if we multiplied those small probabilities by the whole human population, we’d end up with tens of millions of preventable deaths.  It comes down to a question of what you care about and what “we” care about. 

Many people illustrate their perspectives by comparing the coronavirus pandemic to other causes of death.  Other respiratory tract infections are a natural comparison.  Diseases like tuberculosis, pneumonia, influenza, and COPD prematurely kill millions of people every year. 31 Why haven’t we been on red alert about them for decades?  This is probably the hardest question I’ve encountered in my research.  I posed this question to my Facebook friends early this year, and I still haven’t found a satisfactory answer. The only explanation I can conjure is the Joker’s principle, a psychological irrationality.  Those diseases have reached equilibrium; they are part of the plan.  They are known background noise, and it is the unknown that we fear.  We don’t know how far or fast coronavirus will spread.  Other dangers that alarm us and boil over in the streets, like terrorism or errant police brutality, kill miniscule numbers compared to any infectious disease.  Our emotions are clearly not linked to the numbers. 

When math nerds like me talk about uncertain events, we describe them with at least three components:  Probability, costs, and benefits.  You have to consider all three to arrive at the most rational way to quantify an event, its “expected value”:

E = P(BC)

In a potentially dangerous situation, sometimes our mind exaggerates the probability P (like plane crashes).  Sometimes we recklessly ignore a high cost or probability because we enjoy the benefit (like drugs).  In the coronavirus situation, some people fixate on probabilities while others focus on the cost of death.  This is why both sides can argue endlessly and both be partly right.  A nuanced understanding must account for the whole formula.

In order to transcend irrational, emotional judgments, most regulatory agencies have adopted numerical limits to acceptable risks.  The value of “one in a million” has become a widely accepted standard. 32 That is, if the probability of death is less than one in a million, a government will usually consider it unnecessary to commit further resources to controlling the risk.  In a world of 8 billion people, this standard would set the acceptable threshold at 8,000 preventable deaths. We reached that point in March, less than a week after COVID-19 was recognized as a pandemic.  

The premise that “coronavirus is just like the flu” is pretty accurate in terms of death toll so far.  It’s the resulting conclusion that’s backward.  This comparison does not demonstrate that the coronavirus is innocuous, but that influenza, like COVID-19, is vastly unacceptable.     

IV. Conclusions

I am finishing this essay in the first week of November 2020, right in the middle of the Biden / Trump presidential election.  I can’t imagine a more apt background.  The coronavirus pandemic has loomed large in this election, both as an issue and as the environment in which we vote.  Each party has a completely different vision of what the problems are and how to address them.  Where Democrats see a serious public health threat, Republicans are not as concerned because it has not affected most of their personal lives.  So far, preventive responses have been much more disruptive than the disease itself.  Then again, it’s impossible to know how much worse the pandemic would have been without such measures. 

Our perception of this pandemic is informed by politics and psychology as much as by facts.  In complex controversies, one side rarely has all the answers.  It’s not a matter of right or wrong but of emotional resonance.  Different groups of people have different cares and concerns.  It’s important to realize this, not only to manage your own thoughts but also to vet information and to understand your neighbors.       

My next article will discuss solutions and a path forward. 

V. Citations

                

  1. Image by Elchinator / CC BY-SA (http://creativecommons.org/licenses/by-sa/4.0), http://pixabay.com/illustrations/recession-economic-crisis-economy-5124813/ (accessed and saved 11/04/20).
  2. Staff writers, “Recession watch: which nations’ GDP is still going down?” The Guardian, http://www.theguardian.com/news/datablog/2009/aug/13/global-economy-globalrecession (updated regularly; accessed and data saved 8/29/20).
  3. M. Ayhan Kose et al., Global Economic Prospects, World Bank (June, 2020), http://www.worldbank.org/en/publication/global-economic-prospects (accessed, saved, and archived 8/28/20).
  4. Staff writers, “COVID-19 and the world of work”, International Labour Organization (2ed, 4/07/2020), http://www.ilo.org/wcmsp5/groups/public/—dgreports/—dcomm/documents/briefingnote/wcms_740877.pdf (accessed, saved, and archived 8/29/20).
  5. See e.g. Peter S. Goodman, “Why the Global Recession Could Last a Long Time”, New York Times (4/01/2020), http://www.nytimes.com/2020/04/01/business/economy/coronavirus-recession.html (accessed, saved, and archived 8/29/20).
  6. Fred Imbert, “Half of the world has asked the IMF for a bailout, chief says”, CNBC (4/15/2020), http://www.cnbc.com/2020/04/15/half-of-the-world-has-asked-the-imf-for-a-bailout-chief-says.html (accessed, saved, and archived 9/11/20).
  7. Staff writers, 2020 – Global Report on Food Crises, UN World Food Programme (4/20/2020), http://www.wfp.org/publications/2020-global-report-food-crises (accessed 9/11/20).
  8. See e.g. Staff writers, “The Politics of Climate”, Pew Research Center (10/04/2016), http://www.pewresearch.org/science/2016/10/04/the-politics-of-climate/ (accessed, saved, and archived 9/23/20).
  9. Sara Burnett and Brian Slodysko, “Pro-Trump protesters push back on stay-at-home orders”, Associated Press (4/17/2020), http://apnews.com/ea4c17f541c7c63fac52941a6f43b885 (accessed, saved, and archived 9/23/20).
  10. Shanto Iyengar et al., “The Origins and Consequences of Affective Polarization in the United States”, Annual Review of Political Science 22:129-146 (May, 2019), http://www.annualreviews.org/doi/full/10.1146/annurev-polisci-051117-073034 (accessed and saved 9/28/20).
  11. Will Steakin and Ben Gittleson, “Trump heads into flu season amid pandemic mocking masks, holding packed campaign rallies”, ABC News (9/11/2020), http://abcnews.go.com/Politics/trump-heads-flu-season-amid-pandemic-mocking-masks/story?id=72950584 (accessed, saved, and archived 9/23/20).
  12. Tom Phillips, “Brazil: Bolsonaro reportedly uses homophobic slur to mock masks”, The Guardian (7/08/2020), http://www.theguardian.com/world/2020/jul/08/bolsonaro-masks-slur-brazil-coronavirus (accessed, saved, and archived 9/23/20).
  13. Will Weissert and Jonathan Lemire, “Face masks make a political statement in era of coronavirus”, Associated Press (5/07/2020),  http://apnews.com/7dce310db6e85b31d735e81d0af6769c (accessed, saved, and archived 9/23/20).
  14. Laura Wronski, “Axios | SurveyMonkey Poll: coronavirus and trust”, Axios (March, 2020), http://www.surveymonkey.com/curiosity/axios-coronavirus-trust/ (accessed, saved, and archived 9/23/20).
  15. Conor Finnegan, “False claims about sources of coronavirus cause spat between the US, China”, ABC News (3/13/2020), http://abcnews.go.com/Politics/false-claims-sources-coronavirus-spat-us-china/story?id=69580990 (accessed, saved, and archived 10/12/20).
  16. Brett Samuels, “Trump hits Democrats over coronavirus criticism: ‘This is their new hoax’”, The Hill (2/28/2020), http://thehill.com/homenews/campaign/485245-trump-hits-democrats-over-coronavirus-criticism-this-is-their-new-hoax (accessed, saved, and archived 10/12/20).
  17. John Fritze and David Jackson, “Trump blames ‘blue states’ for increasing nation’s coronavirus death rates, ignores high rates in red states”, USA Today (9/17/2020), http://www.usatoday.com/story/news/politics/elections/2020/09/16/trump-blames-blue-states-covid-19-death-rates/5819120002/ (accessed, saved, and archived 10/12/20).
  18. Jonathan Haidt, The Righteous Mind: Why Good People are Divided by Politics and Religion, Pantheon (2012), Kindle edition around location 418
  19. See e.g. V. Swami et al., “Putting the stress on conspiracy theories: Examining associations between psychological stress, anxiety, and belief in conspiracy theories”, Personality and Individual Differences vol. 99, pp. 72-76 (Sep., 2016), http://www.sciencedirect.com/science/article/abs/pii/S0191886916303440?via%3Dihub (accessed and saved 9/12/20).
  20. Wronski, op. cit.
  21. Mark Jurkowitz and Amy Mitchell, “An oasis of bipartisanship: Republicans and Democrats distrust social media sites for political and election news”, Pew Research Center (1/29/2020), http://www.journalism.org/2020/01/29/an-oasis-of-bipartisanship-republicans-and-democrats-distrust-social-media-sites-for-political-and-election-news/ (accessed, saved, and archived 9/29/20).
  22. See e.g. The Editors, “Dying in a Leadership Vacuum”, The New England Journal of Medicine 383(15):1479-80 (10/08/2020), http://www.nejm.org/doi/full/10.1056/NEJMe2029812 (accessed and saved 10/10/20).
  23. Brett Murphy and Letitia Stein, “’It is a Slaughter’: Public health champion asks CDC director to expose White House, orchestrate his own firing”, USA Today (10/06/2020), http://www.usatoday.com/story/news/investigations/2020/10/06/expert-cdcs-redfield-should-expose-trump-covid-failures-leave-post/5899724002/ (accessed and saved 10/12/20).  This article includes a link to the letter that former CDC director Foege wrote to current director Redfield.
  24. Staff writers, “Political pressure Inside HHS Policy Shop To Tailor Facts To Fit Trump’s Message Unprecedented, Staffers Say,” Kaiser Family Foundation (7/30/2018), http://khn.org/morning-breakout/political-pressure-inside-hhs-policy-shop-to-tailor-facts-to-fit-trumps-message-unprecedented-staffers-say/ (accessed, saved, and archived 10/12/20); note that this article well predates the pandemic.
  25. Mike Stobbe, “CDC drops controversial testing advice that caused backlash”, Associated Press (9/18/2020), http://apnews.com/article/virus-outbreak-pandemics-public-health-22e7ac15e8d622b12bf784295e4b5266 (accessed, saved, and archived 10/12/20).
  26. Brett Samuels, “Trump calls CNN ‘Dumb bastards’ for covering coronavirus”, The Hill (10/19/2020), http://thehill.com/homenews/administration/521741-trump-calls-cnn-dumb-bastards-for-covering-coronavirus (accessed, saved, and archived 10/22/20).
  27. Olafur S. Palsson, Sarah Ballou, and Sarah Gray, “The U.S. National Pandemic Emotional Impact Report”, UNC and Harvard Schools of Medicine (6/29/2020), http://pandemicimpactreport.com/ (accessed, saved, and archived 11/03/20).
  28. Tony Schwartz and Emily Pines, “Coping with Fatigue, Fear, and Panic During a Crisis”, Harvard Business Review (3/23/2020), http://hbr.org/2020/03/coping-with-fatigue-fear-and-panic-during-a-crisis (accessed, saved, and archived 11/04/20).
  29. Jayne O’Donnell, “’Deaths of despair’: Coronavirus pandemic could push suicide, drug deaths as high as 150K, study says”, USA Today (5/08/20), http://www.usatoday.com/story/news/health/2020/05/08/coronavirus-pandemic-boosts-suicide-alcohol-drug-death-predictions/3081706001/ (accessed, saved, and archived 11/04/20).
  30. Schwartz and Pines, op. cit.
  31. Staff writers, Global Impact of Respiratory Disease, 2ed, Forum of International Respiratory Societies (2017), http://www.who.int/gard/publications/The_Global_Impact_of_Respiratory_Disease.pdf (accessed 10/22/20).
  32. Paul R. Hunter and Lorna Fewtrell, “Ch. 10: Acceptable risk”, Water Quality: Guidelines, Standards, and Health, WHO (London, 2001), http://www.who.int/water_sanitation_health/dwq/iwachap10.pdf?ua=1 (accessed and saved 10/09/20).
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Coronavirus Primer, Part 3: Epidemiology https://scotsthoughts.com/coronavirus-primer-part-3-epidemiology/ Wed, 17 Aug 2022 19:06:02 +0000 https://scotsthoughts.com/?p=380 Originally posted 8/28/20 on HowLifeGotThisWay.com About This Primer I am researching and writing this series to take a big-picture look at COVID-19.  I’m taking a step back from the daily news information overload and fact-checking the (even larger) load of misinformation.  I announced this project in June and invited questions from my friends.  Part 1 […]

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Originally posted 8/28/20 on HowLifeGotThisWay.com

“Pandemic”, the board game, was inspired by SARS. Now life imitates the art that imitated life. 1

About This Primer

I am researching and writing this series to take a big-picture look at COVID-19.  I’m taking a step back from the daily news information overload and fact-checking the (even larger) load of misinformation.  I announced this project in June and invited questions from my friends.  Part 1 covered the basics of viruses and coronaviruses.  Part 2 dealt with SARS-CoV-2 on the level of individual health. 

In today’s installment, I start out with a discussion of COVID-19 data: how it is collected and what it can and cannot tell us.  In section II, I discuss efforts to pin numbers on the virus to summarize this outbreak or compare it to others.  Section III recaps the history of this pandemic and human responses to it in the first several months.

I. Data

II. Viral Vitals

III. Medical Impact And Response

IV. Citations

I. Data

A. Where the Data Comes from

B. Sources of Uncertainty

A. Where the Data Comes from

As you can imagine, no single agency could count every case, illness, or death.  It’s a grassroots reporting effort.  When you get your nose swabbed, your sample is sent to a lab for processing.  Hospitals have labs as well as doctors who make personal diagnoses.  Labs and hospitals report to local governments, which report to state or national governments.  In the United States, the CDC issues reporting guidelines about who must report data, what they must report, and to whom. 2

Finally, national totals are reported to the World Health Organization for a global count.  The most commonly reported vital statistics are the daily SARS-CoV-2-positive test results (“cases”), hospitalizations, hospitalizations requiring intensive care, and deaths.  Private websites such as Johns Hopkins gather the data published by local and national governments.  The data in most media articles will be drawn from a major consolidated database such as the COVID Tracking Project. 

I have always felt partial to Worldometer.  This website honed its census skills estimating real-time populations. 2 3 Worldometer reports daily coronavirus figures for all US states and many counties, each nation, and the world.  It explains its methodology to account for a lag in the reporting system. 4 Local counts are the most complete and current, so Worldometer relies on local data to supplement national information as much as possible.    

B. Sources of Uncertainty

We could not possibly expect a decentralized, worldwide tabulation in a time of crisis to be 100% perfect.  Some tests are more accurate than others.  Cases might get lost or duplicated in the reporting system.  The cases and deaths are usually categorized as “probable” or “confirmed.” 2 Changes or differences in these definitions can lead to disagreements between databases.       

The greatest limitation of official data is that it only applies to reported cases.  Since COVID-19 is mild for most people, and since testing hasn’t kept up with viral contagion, many infections will never enter the reporting system.  Therefore, official records will under-report infections and over-report their death rate.  This is a big topic that will be detailed further below.    

Meanwhile, the death rate tends to be under-reported when we are tracking recent infections.  For cases that are less than a month old, the data will show that they are non-fatal just because these patients haven’t died yet.  While the number of infections continues to rise, a high percentage of cases are new and therefore unresolved.  The most accurate death rates will come from the data of months past.

The point is not to conclude that official figures are useless.  With numerous factors that both overestimate and underestimate reality, we can regard the reported numbers as middle-ground ballpark figures that are as precise as reasonably possible.  Even if absolute figures are murky, they can still be useful for drawing comparisons across times and places.  However, the most accurate information will not be available until the pandemic is over. 

You may see references to an “excess deaths” statistic, which is appealing in its simplicity.  The thought is that if we just count all deaths in 2020 and then subtract the baseline number of deaths in 2019, we will get the magic number of coronavirus-caused deaths.  The excess death measurement was useful at the beginning of the outbreak before people had time to respond to it.  However, this year’s social distancing and recession have affected death rates in so many other ways, such as the impact on accidents, medical practice, and other infectious diseases, that they drown out the impact of COVID-19 deaths.  Excess deaths are no longer informative.

II. Viral Vitals

Reid S. asked, “Please determine the death rate!”

We are all anxious for clear-cut answers about this bug’s vital statistics.  Unfortunately, if you want honest answers, you’re going to get complicated answers.  Virtually every measure of a virus is impacted by human activity.  The numbers vary greatly across time, place, and circumstance.

A. Reproduction Numbers

B. Fatality Ratios

C. Case-Infection Ratios

A. Reproduction Numbers

Some diseases are more contagious than others.  The reproduction number, R, counts how many healthy people an average sick person will infect.  The most disease-specific measure of R occurs at the very onset before people have time to respond to it.  That value is called R0.  The goal of preventive programs is to subdue R below 1 so that infections decrease.  While R is above 1, even slightly, infections will continue to increase exponentially. 

SARS-CoV-2 studies from Europe 5 and China 6 estimate R0 in the range of 2 to 9, most likely 4 to 6.  This is much higher than seasonal flu, a little higher than SARS, and lower than chickenpox or measles.  As of early August, R is estimated at 1.1 globally.  Roughly half of the world’s countries are still above 1.  The US has just reached R = 1, suggesting that this country is nearing its peak number of daily new infections. 7

B. Fatality Ratios

Brad B. asked about the impact of senior centers on death rates. 

Of all reported cases of COVID-19 that have had time to run their course, 5% of them have been fatal as of mid-August. 8 The confirmed case-fatality ratio ranges from 0% in Vietnam (yep) to 15% in the UK!  Singapore and other small countries like Qatar and the U.A.E. have young populations because they have large immigrant work forces.  They are also rich countries with good hospital facilities.  Despite major outbreaks, these countries have kept their death rates below 1%.  The UK is a standout with its 15% case-fatality ratio. 9 The high British rate is largely due to slow and feeble government response to testing, tracing, and imposing public health standards. 10 

By far the two most vulnerable populations are smokers and the elderly.  Nursing homes are ground zero in this pandemic.  With 1% of the US population, nursing homes report almost 25% of COVID-19 cases and 40% of its deaths. 11 Smokers are 14 times as likely as non-smokers to develop critical symptoms. 12 The death rate is higher in men than women.  This pattern probably reflects the fact that most smokers are men.

C. Case-Infection Ratios

Brad B. asked, “What is the estimate of the number of asymptomatic and mild cases?”

Mitzi M-H. asked about the discrepancy between virus swabs and antibody tests

“Silent spreaders” are a big part of the COVID-19 story.  The disease is contagious during an incubation period before symptoms appear.  Many people carry the virus without ever knowing it.  There is a great deal of interest in determining the “true” number of infections, for medical and political reasons alike. 

The best way to detect whether a person has ever been exposed to a virus is with an antibody test.  Although some antibody tests have had highly publicized flaws, there have been more reliable trials, and they yield a similar result.  In April, lab analysis of randomly drawn blood samples estimated that there were about ten times as many infections as confirmed cases. 13 This ratio is variable too, as it depends on the quality and especially the quantity of swab tests.

Meanwhile, mathematical epidemiologists are working with the most reliable data (death toll and the best-measured infection-fatality ratios) and are running SIR algorithms to estimate the true number of infections.  One sophisticated mathematical model in May estimated that infections are about four times more prevalent than reported cases worldwide, with a possible range of 2 – 12. 14

Many people argue that coronavirus is “less deadly than we thought” because of all the previously unreported infections that did not develop into serious cases.  That is true in the sense of a death rate, although it obviously does not reduce the sheer number of deaths.  In fact, the number of COVID-19 deaths is under-reported too, by a factor of up to 2. 15

Put it all together, and what do you get?  I’ve done the math for you; you’re welcome.  For a random person infected with the virus today, the probability of death is probably closer to 1% than 5%.  Whatever that means for your peace of mind is up to you!

The good news is balanced by bad news anyway.  The large pool of untested infections means that for every case that is followed up with quarantine and contact tracing, there are about ten others who go undetected.  This highlights the need for much, much more testing, and not just for sick people. 

By the way, even accounting for the unreported infections, still only about 1% of the human population has the antibody.  We’d need a prevalence of about 80% for herd immunity. 16 Letting the disease play itself out to herd immunity would therefore multiply the death count by 80, to about 50,000,000.  Needless to say, that’s an unacceptable solution. 

III. Medical Impact And Response

A. Devastation by Concentrated Impact

B. Effectiveness of Social Measures

C. What to Look for Next

A. Devastation by Concentrated Impact

Like many social ills – poverty, crime, overpopulation – the impact of COVID-19 is not distributed evenly throughout the world but is spotty.  It has devastating impact on a few localities like dense cities and senior centers.  In those localities, it hits the weakest links in the medical supplies and services chain. 

When WHO declared COVID-19 a global health emergency on January 30, the disease had killed only 200 people.  If those deaths had been spread around the world, nobody would have noticed.  They would have been a drop in the bucket of 5,000,000 normal deaths that month.  But those deaths, as well as 10,000 non-fatal cases, were concentrated around one city.  Wuhan probably could have handled them if they had been spread out over a year.  It was the concentrated impact of 10,000 cases in one city in one month that was so exceptionally stressful.  Wuhan hospitals were so short on beds and ventilators that the government erected a new hospital in two weeks.  Similar stories of overwhelmed resources occurred in Milan, Tehran, and New York City by early March.  Ventilators were the scarcest need.  Not every hospital has them; some countries have only a few. 17 By March, demand was already ten times the global supply. 18 Making new ventilators requires a massive global supply chain; it’s not easy to crank them out. 19 Medical personnel and ICU beds are other resources that got exhausted quickly.    

B. Effectiveness of Social Measures

Brad B. asked if there has been a change in the hospitalization rate.

The early urban hotspots were warnings.  If left to spread out of control, the virus had the potential to strike every city like that eventually.  WHO upgraded the disease to a pandemic on March 11, and governments around the world took measures shortly afterward.  This led to some enlightening experimentation.  Two countries that had exemplary success curbing COVID-19, South Korea and Iceland, did so by immediately implementing rigorous programs of testing, contact tracing, and quarantining.  Iceland finished assembling its coronavirus task force literally hours before the country’s first reported case. 20 Meanwhile, China and Italy each put 60,000,000 people on lockdown.  Italy’s outbreak has been on a steep decline since late March.  China enforced its lockdown more strictly, and its wave was effectively over before Italy’s began.  

Facemasks and social distancing have been effective at slowing the spread everywhere and bringing it under control in half the world.  Masks reduce transmission by up to 50% when used widely. 21 The countries that see masks worn most faithfully, in Asia, have low transmission rates. 22 Without any mitigating behavior, this virus could have infected 7,000,000,000 people and killed 40,000,000 this year. 23 Good job, us!

The number of daily deaths took a significant dip in April despite rising case counts. 24  This can’t be explained away with rates or miscounts, so it seems to reflect genuine improvement in public health.  Maybe defenses got tightened up at nursing homes or the most vulnerable people got more serious about staying home.  Perhaps doctors learned from experience, or hospitalizations got spread out more evenly across geography and time. 

Global data showing the impact of human activity after March 11, when WHO declared COVID-19 a pandemic.  Note how the “Daily New Cases” curve slows down abruptly around March 30, and “Daily Deaths” plummet around April 16.

The biggest problem this year has been lack of preparedness, coordination, and resolve.  That is showcased by the approaches of the United States, United Kingdom, and Sweden.  These are countries that like to flout government orders, 25 and their governments were slow to acceptance anyway.  Now, the US has the world’s largest case load, the UK has the highest death rate, and Sweden has one of the highest reproduction numbers. 

However, very few countries were as prepared as they should have been.  A 2019 study ranked countries on their pandemic preparedness.  Its report card gave a global average of 40%. 26 “Few countries pay for action plans out of national budgets,” the report found.  That explains why everybody had to scramble to legislate aid packages this year.

C. What to Look for Next

1. Africa

2. Reopening

1. Africa

Africa’s fate is one of the greatest unresolved questions.  Although many African nations are woefully unprepared, so far, numbers are low across the continent.  This is correlated to low testing, but the case-fatality ratio is low too.  Africa is the youngest continent, so it could be that its population is truly resilient. 27 Cases are just starting to blow up in a few hotspots like Congo, Djibouti, and South Africa.

2. Reopening

Lockdowns cannot continue forever.  However, when full mobility resumes, this pandemic will start all over again, a “second wave”.  The only way to get the outbreak under control without a vaccine is to continue lockdowns until new cases are reduced to a trickle, then have a testing / tracing / isolation system ready at the starting line when the economy reopens. 28

We face challenges this fall as schools resume, pneumonia season begins, and sectors of the economy simply must reopen out of necessity.  The hope is that we’ll be more prepared this time.  Let’s hear it for second chances.  

Continue to Coronavirus Primer Part 4: Coronavirus and Society    

IV. Citations

  1. Game photo by Padaguan / CC BY-SA (http://creativecommons.org/licenses/by-sa/4.0), http://commons.wikimedia.org/wiki/File:Pandemic_board_game.jpg (accessed and saved 8/17/20).
  2. Staff writer, “How to Report COVID-19 Laboratory Data”, US CDC (2020), http://www.cdc.gov/coronavirus/2019-ncov/lab/reporting-lab-data.html (accessed and saved 7/27/20).
  3. http://www.worldometers.info/watch/world-population/
  4. Staff writer, “Worldometer COVID-19 Data”, Worldometer (2020), http://www.worldometers.info/coronavirus/about/ (accessed, saved, and archived 7/27/20).
  5. Kevin Linka, Mathias Peirlinck, and Ellen Kuhl, “The reproduction number of COVID-19 and its correlation with public health interventions”, medRxiv (submitted 5/01/2020, peer review in progress), http://www.medrxiv.org/content/10.1101/2020.05.01.20088047v3 (accessed and saved 8/03/20).
  6. Steven Sanche et al., “High Contagiousness and Rapid Spread of Severe Acute Respiratory Syndrome Coronavirus 2”, Emerging Infectious Diseases 26(7):1470-1477 (Jul., 2020), http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7323562/ (accessed and saved 8/04/20).
  7. Garegin Papoian et al., “The Covid-19 Accelerometer Dashboard:  World Statistics of Rt (Effective Reproduction Number) (continuously updated), http://covid19-r0.com/ (accessed 8/04/20).
  8. Global Worldometer data as of 8/16/20:  Out of 15.6 million closed cases to date, 777,000 have resulted in death.  
  9. Staff writer, “Mortality Analyses”, Johns Hopkins University (continuously updated), http://coronavirus.jhu.edu/data/mortality (accessed and saved 8/04/20).
  10. Jasmina Panovska-Griffiths, “Coronavirus: five reasons why the UK death toll is so high”, The Conversation (6/10/2020), http://theconversation.com/coronavirus-five-reasons-why-the-uk-death-toll-is-so-high-140005 (accessed and saved 8/03/20).
  11. Jon Kamp and Anna Wilde Mathews, “As U.S. Nursing-Home Deaths Reach 50,000, States Ease Lockdowns”, Wall Street Journal (6/16/2020), http://www.wsj.com/articles/coronavirus-deaths-in-u-s-nursing-long-term-care-facilities-top-50-000-11592306919 (paywall).  Summarized e.g. by Stephanie Soucheray, “Nursing homes might account for 40% of US COVID-19 deaths”, Center for Infectious Disease Research and Policy (6/16/2020),  at http://www.cidrap.umn.edu/news-perspective/2020/06/nursing-homes-might-account-40-us-covid-19-deaths (accessed and saved 8/05/20).
  12. Wei Liu et al., “Analysis of factors associated with disease outcomes in hospitalized patients with 2019 novel coronavirus disease”, Chinese Medical Journal (5/05/2020), http://journals.lww.com/cmj/Fulltext/2020/05050/Analysis_of_factors_associated_with_disease.5.aspx (accessed and saved 8/04/20).
  13. See e.g. staff writer, “Commercial Laboratory Seroprevalence Survey Data”, US CDC (last updated 7/21/2020), http://www.cdc.gov/coronavirus/2019-ncov/cases-updates/commercial-lab-surveys.html (accessed 8/05/20).  A survey of samples from ten US sites found actual infections mostly 6 – 12 times more prevalent than previously reported cases, with an outlier at 24 times. 
  14. Christina Bohk-Ewald, Christian Dudel, and Mikko Myrskyla, “A demographic scaling model for estimating the total number of COVID-19 infections”, medRxiv (5/26/2020), http://www.medrxiv.org/content/10.1101/2020.04.23.20077719v3 (accessed and saved 7/28/20).
  15. Bohk-Ewald, op. cit.
  16. Linka op. cit. at 8 (given more precisely as 78%).
  17. Emma Smith, “These countries have only a Handful of ventilators”, Devex (4/09/2020), http://www.devex.com/news/these-countries-have-only-a-handful-of-ventilators-96970 (accessed and saved 8/05/20).
  18. Jinshan Hong and Dong Lyu, “World Ventilator Demand Now 10 Times What’s Available, Says Maker”, Bloomberg (3/25/2020), http://www.bloomberg.com/news/articles/2020-03-25/world-ventilator-demand-now-10-fold-what-s-available-says-maker (accessed and saved 8/05/20).
  19. Torbjorn Netland, “A better answer to the ventilator shortage as the pandemic rages on”, World Economic Forum (4/03/2020), http://www.weforum.org/agenda/2020/04/covid-19-ventilator-shortage-manufacturing-solution/ (accessed and saved 8/05/20).
  20. Elizabeth Kolbert, “How Iceland Beat the Coronavirus”, The New Yorker (June 8 – 15, 2020), http://www.newyorker.com/magazine/2020/06/08/how-iceland-beat-the-coronavirus (accessed and saved 7/19/20).
  21. Staff writer, “IHME models show second wave of COVID-19 beginning September 15 in US”, Institute for Health Metrics and Evaluation (6/11/2020), http://www.healthdata.org/news-release/ihme-models-show-second-wave-covid-19-beginning-september-15-us (accessed and saved 8/05/20).
  22. Katharina Buchholz, “Asians Still Most Likely to Wear Face Masks Due to COVID-19”, Statista (4/21/2020), http://www.statista.com/chart/21452/share-of-people-wearing-face-masks-per-country-covid-19/ (accessed, saved, and archived 8/17/20).
  23. Patrick G.T. Walker et al., “Report 12 – The global impact of COVID-19 and strategies for mitigation and suppression”, Imperial College London (3/26/2020), http://www.imperial.ac.uk/mrc-global-infectious-disease-analysis/covid-19/report-12-global-impact-covid-19/ (accessed and saved 8/05/20).
  24. Graphs from Worldometer data, http://www.worldometers.info/coronavirus/ (accessed 8/06/20).
  25. Vicky McKeever, “Most Brits just won’t wear face masks – here’s why”, CNBC (7/15/2020), http://www.cnbc.com/2020/07/15/most-brits-just-wont-wear-face-masks-heres-why.html (accessed, saved, and archived 8/17/20).
  26. Michelle Nalabandian et al., Global Health Security Index, Nuclear Threat Initiative (Oct., 2019), http://www.ghsindex.org/ (accessed 8/05/20).
  27. Uwagbale Edward-Ekpu, “The pandemic’s spread across Africa is being tempered by a young population, for now”, Quartz Africa (7/09/2020), http://qz.com/africa/1878885/africas-pandemics-spread-is-being-slowed-by-young-population/ (accessed and saved 8/05/20).
  28. Sanche, op. cit. at 1470.
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Coronavirus Primer, Part 2: SARS-CoV-2, COVID-19, and the Individual https://scotsthoughts.com/coronavirus-primer-part-2-sars-cov-2-covid-19-and-the-individual/ Wed, 17 Aug 2022 19:04:48 +0000 https://scotsthoughts.com/?p=378 Originally posted 7/23/20 on HowLifeGotThisWay.com I began this three-part series with background information, zooming in from the domain of viruses to  the genus of coronaviruses.  Today’s post specifically introduces this year’s novel coronavirus.  We’ll cover the topics of the virus’s origins and evolution, its effects, person-to-person transmission, and possibilities for a cure.     I. Biology […]

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Originally posted 7/23/20 on HowLifeGotThisWay.com

For most of us, 2020 is a year of masks, gloves, temperature checks, and social distancing. 1

I began this three-part series with background information, zooming in from the domain of viruses to  the genus of coronaviruses.  Today’s post specifically introduces this year’s novel coronavirus.  We’ll cover the topics of the virus’s origins and evolution, its effects, person-to-person transmission, and possibilities for a cure.    

I. Biology

II. Medicine

III. Citations

I. Biology

A. Origins

B. Evolution

A. Origins

The current pandemic is the third wave of deadly human coronavirus infections.  The new virus is officially called SARS-CoV-2, and the disease that it causes is COVID-19.  COVID simply stands for COrona VIrus Disease.

This year’s virus is so closely related to the 2002 SARS virus that virologists classify it as a new strain of the same species. 2 SARS-CoV-2 is not a descendant of SARS-CoV but a “cousin” that shares a recent common ancestor.  Though conspiracy theorists will believe what they will, genetic evidence shows with high confidence that the SARS-CoV-2 virus evolved naturally and was not engineered in a lab. 3 

The path of transmission, from bat to intermediate host to human, is uncertain.  The pangolin or “spiky anteater” was an early prime suspect because pangolins carry a coronavirus similar to SARS-CoV-2.  The current human and pangolin coronaviruses turned out to be, again, only cousins. 4 Nevertheless, they are similar enough to raise concerns about pangolins as potential carriers for future outbreaks, especially since the pangolin is a heavily trafficked wild animal.

The earliest confirmed human case of SARS-CoV-2 was reported on November 17 in Hubei Province, China (where Wuhan is located). 5 Interestingly, traces of the virus have been found in samples collected from Europe in December.  One was in Italian wastewater 6 and another in the bodily fluids of a French man who was tested for pneumonia. 7

The first mass outbreak came in late December.  It was traced to the Huanan Seafood Wholesale Market in Wuhan, China.  Because the market sells exotic animals, and because similar markets had been implicated in zoonotic transmission of SARS, people quickly jumped to the conclusion that Huanan Market was the site where the virus made its first jump into humans.  However, we now know that some early cases were not associated with Huanan Market 8 and that none of the animals at that market were infected. 9 It seems that a person who already had the virus brought it to the market, and it spread simply because of the crowded conditions.  The spike in Wuhan hospitalizations started to make headlines right around the first day of the decade.

B. Evolution

Taletha D. asked:  “How many versions are there? How fast did they mutate?  Why might they have mutated?” 

After SARS-CoV-2 infected people, its evolution was then guided by its human cell environment.  The virus has at least two variants, the “G” and “D” varieties.  They differ by only one “letter” in their RNA code, but the G version is much more effective at latching onto human cells. 10 Hence, the virus has been evolving strongly toward the G variety this year, especially in Europe and the United States.  Unfortunately for us, G’s gain is our loss.  The G virus is ten times as transmissible as D.  In other words, a sneeze requires only 10% as many G viruses as D viruses in order to spread equally to people nearby.  This explains why the epidemic is spreading through the US more rapidly than through China.   

Mutations, or genetic changes, happen randomly.  The G and D varieties might even have existed before human infection.  The part that’s not so random now is the evolution, the competition between G and D in human cells.  Since G is so much more effective, it will come to dominate the viral population. 

II. Medicine

A. Effects

B. Transmission

C. The Race for a Cure

A. Effects

Mitzi M-H. asked about the causes of death

Taletha D. asked:  “Why are some people asymptomatic?”

Karen K. asked, “I’m interested in the research on long-term kidney and lung damage.”

Individuals display a tremendous range of responses to SARS-CoV-2 infection.  The typical manifestation is normal flu-like symptoms.  Some patients experience severe symptoms like shortness of breath, low blood oxygen, or moderate pneumonia. The most critical cases involve respiratory failure, shock, or multiorgan system dysfunction, 11 which can of course be fatal.  Some of the damage comes from the virus itself, and some from cytokine storm, the immune system’s overreaction.  On the other extreme, some cases present no symptoms or signs at all. 12 The percentages of these categories are still in flux, and will be discussed further in Part 3.

The spike protein of SARS-CoV-2, like its cousin SARS-CoV, binds to a protein called ACE2.  ACE2 is distributed unevenly in the human body.  It is present in our lungs, heart, blood vessels, kidneys, liver, GI tract, and the lining of the mouth and nose.  Early COVID-19 reports show that damage to the heart, kidneys, and liver are a serious concern in the worst cases. 13 However, ACE2 is more abundant in the lungs, and that’s where the worst impact will be. 14 Even some asymptomatic carriers get lung damage! 15 The lining of the nose is especially rich with ACE2. 16 That explains those highly invasive nose swabs.  The only true long-term data we have is from SARS-CoV.  A small percentage of SARS survivors suffered long-term lung and kidney damage.  Fortunately, most have recovered completely. 17

The severity of symptoms is correlated to the intensity of viral infection as well as underlying medical factors.  Those with the most critical symptoms tend to be those who had pre-existing conditions commonly associated with old age, obesity, and smoking. 3 18 We still don’t know why some people don’t develop symptoms at all.

The long-term immune response is another great unknown.  We know that the human immune system synthesizes antibodies; almost 30 varieties are currently cataloged. 19 We haven’t had enough time to tell how long a SARS-CoV-2-specific antibody will remain in a survivor’s bloodstream.  As a reasonable comparison, SARS survivors maintained SARS-CoV-1 antibodies in their systems for an average of two years, with significant reduction after three years. 20 Preliminary results seem to show that SARS-CoV-2 exhibits a similar pattern. 21 If so, then we might have to rely on annual shots to avoid getting overwhelmed by future outbreaks.

B. Transmission

Julie W. asked if (and why) food really presents lower risk than surfaces.

SARS-CoV-2 is almost entirely transmitted directly from person to person through exhaled airborne water droplets.  Factors that increase transmissibility include the concentration of virus in a sick person’s system, proximity, crowd density, and duration of contact.  The six-foot rule is based on the distance that the largest cough / sneeze droplets will travel.  This distance is also chosen as a reasonable compromise between medical precaution and social necessities.  However, the dynamics of a sneeze are startlingly effective at spreading germs far and wide, especially because “sneeze clouds” tend to rise and get picked up by ventilation systems. 22

The virus usually incubates in a person for a day to a week before onset of symptoms.  Contagion peaks from two days before to two days after the onset of symptoms. 23 Although we hear a lot of debate about asymptomatic spread, the greater concern is in fact presymptomatic spread.  Of course, someone without symptoms doesn’t know whether she’s uninfected, asymptomatic, or presymptomatic until she starts coming down with symptoms, when it is too late to prevent transmission.  After she develops symptoms, she may be contagious for another week, 24 but by that time she knows she’s sick and is more likely to be quarantined.  The recommended two-week quarantine period comes from adding a week of incubation plus one more week of contagion.              

The makeshift face masks that we ordinary people wear out in public are meant to minimize the spread of water droplets from our own mouths.  These masks protect those around us (in case we are presymptomatic).  No, they are not 100% cough-proof, but they are pretty effective at slowing down water droplets 25 and reducing microbial spread. 26 The respirators reserved for medical workers are engineered for nearly complete two-way filtering; they protect doctors and nurses from infected patients.

We are often warned about touching things – surfaces, other people’s hands, or our own faces.  These are secondary precautions against indirect transmission.  The pathway here is that a sick person coughs or sneezes, his viruses land on a surface (which might be his own hand), a healthy person touches that surface and picks up the virus, and then the healthy person touches her face.  The virus doesn’t penetrate skin, but the eyes, mouth, and nose are vulnerable points of entry.  Since viruses don’t last long on surfaces, they don’t spread as readily this way.  That’s why gloves are not mandated nearly as much as face masks and distancing.   

Best-practice signs in Los Angeles, CA, 6/24/20. 27

The virus can remain on some surfaces for up to three days, though not in great numbers. 28 An exposed surface is not a hospitable place for a virus, so the risk is proportional to how often people touch the surface.  It’s a safe bet that many more people have handled the subway pole than your Subway sandwich! 

Since viruses don’t “eat”, food to them is just another surface.  They could theoretically infect bacteria on the food, but that is not a good route for viral proliferation.  It’s not likely that SARS-CoV-2 would find the right receptors in bacteria cells anyway.  There have been no known reports of people catching COVID-19 through food packaging. 29 Although the virus could theoretically live on produce, that has not been demonstrated as a known vector either. 30

C. The Race for a Cure

1. Vaccine

2. Antiviral

3. Symptomatic treatments

4. Cocktails and computer-aided concoctions

1. Vaccine

Over 40 vaccine trials are in progress. 31 Vaccine development, testing, and approval is an arduous process that normally takes a decade.  Testing occurs in three phases, with a larger and more vulnerable cohort in each phase.  Regulatory agencies are now permitting “fast track” approval processes that could theoretically accelerate the SARS-CoV-2 process to as short as 1 – 2 years.  This would be an unprecedented pace. 

The United States’ Operation Warp Speed is a major collaborative vaccine effort between the federal government and private labs.  OWS has selected three top contenders for Phase 3 testing this summer.  All three teams – Moderna 32 , Oxford / AstraZeneca 33 , and Pfizer / BioNTech 34 – have reported encouraging results in their Phase 1 trials. The Oxford vaccine is especially promising because it stimulates T cells, special white blood cells that would last longer than antibodies.

The road ahead is not guaranteed to be smooth and easy.  Some of the leading competitors in this race, including Moderna and Oxford, have never commercialized a vaccine before.  Proper dosages are still unknown.  The sterile plastic vials that contain vaccine doses will be a major bottleneck in distribution. 35 Nevertheless, these firms continue to speak optimistically of vaccine production beginning this year.

2. Antiviral

There are five or ten viable candidates for anti-coronaviral medications.  Most of them were created years ago for other viruses.  Antivirals are known to have strong side effects, so they are usually reserved for the worst cases until they’ve had adequate testing to prove them safe. 

One of the most promising drugs is called remdesivir, by Gilead.  This was a failed candidate for treatment of Ebola.  One trial has shown that it appreciably reduces the recovery time for surviving patients hospitalized with COVID-19. 36 The FDA has now issued Emergency Use Authorization for remdesivir to treat severe cases. 37

Eli Lilly has taken a new approach to an old remedy, the old “antidote from a survivor’s blood” trick.  After drawing antibodies directly from the blood of a COVID-19 survivor, this company formulated them into a medication called LY-CoV555.  It has been effective in the lab, and is currently being tested on human subjects. 38

3. Symptomatic treatments

The worst cases of COVID-19 result in low blood oxygen and inflamed air passageways.  Ventilators, highly invasive and cumbersome machines, have been the last resort in this fight.  Ventilators present numerous problems of their own.  They can infect patients and damage lungs.  Intubating a patient can eject virus-infected bodily fluid into the air, endangering healthcare workers.  It turns out that COVID-19 patients have surprisingly high tolerance for low blood oxygen.  Researchers now recommend simpler devices such as oxygen tanks and even CPAP machines for patients who have low oxygen as long as they’re still breathing comfortably. 39

Dexamethasone, an anti-inflammatory medication, is the first drug proven to save lives of coronavirus patients.  It was already a well-known pharmaceutical before this pandemic.  Encouragingly, it is also inexpensive.  It has now been shown to reduce the death rate of critically ill patients by 20 – 30%. 40 However, it has not been properly vetted for side effects, and is not recommended for mild cases.  Researchers are cautiously optimistic.

Hydroxychloroquine is a 1950s medicine made controversial when touted by President Trump.  It has been effective against malaria and lupus, neither one of which is caused by a virus.  It also has anti-inflammatory benefits for treating arthritis.  It showed early promise at reducing SARS-CoV-2 in petri dishes (though nobody knew why).  Clinical trials in humans have been inconsistent. 41 Hydroxychloroquine actually appears to suppress the initial immune response against SARS-CoV-2 42 , and it can be harmful to vital organs. 43 The FDA and WHO have dropped it from consideration.

4. Cocktails and computer-aided concoctions

Why choose just one?  The strongest remedies could turn out to be hybrids or pharmaceutical “cocktails”, as for AIDS.  Roche and Gilead are conducting a trial to combine remdesivir with an anti-inflammatory; expect Phase 3 results this summer. 44 Carprofen and Celecoxib are anti-inflammatories that also appear to slightly inhibit replication of SARS-CoV-2. 45

The latter two drugs were identified by computerized analysis of pharmaceutical databanks.  A crowdsourcing project is underway to identify, synthesize, and test more super-candidates like these.  The world’s top chemists are submitting their ideas, and new supercomputer lab PostEra is running simulations to see if and how they can be made.  PostEra has pledged to release any winning chemical formulas into the public domain.  When I first read about this, I called it a “global brainstorm.”  PostEra has a better name for it: “COVID Moonshot”. 46

🦠🌒

Continue to Coronavirus Primer Part 3: Epidemiology

III. Citations

  1. U.S. Air Force photo by Tech. Sgt. Anthony Nelson Jr., in the public domain as the creative work of a US federal agency. http://www.kunsan.af.mil/News/Article/2134889/sky-warriors-covid-19-response/, Photo 1
  2. Alexandar E. Gorbalenya, “The species Severe acute respiratory syndrome-related coronavirus: classifying 2019-nCoV and naming it SARS-CoV-2”, Nature Microbiology 5, 536-544 (3/02/2020), http://www.nature.com/articles/s41564-020-0695-z (accessed and saved 7/23/20).
  3. Kristian G. Andersen et al., “The proximal origin of SARS-CoV-2”, Nature Medicine 26, 450-452 (3/17/2020), http://www.nature.com/articles/s41591-020-0820-9 (accessed and saved 7/03/20).
  4. Kangpeng Xiao et al., “Isolation of SARS-CoV-2-related coronavirus from Malayan pangolins”, Nature (5/07/2020), http://www.nature.com/articles/s41586-020-2313-x (accessed and saved 7/03/20).
  5. Josephine Ma, “Coronavirus: China’s first confirmed Covid-19 case traced back to November 17”, South China Morning Post (3/13/2020), http://www.scmp.com/news/china/society/article/3074991/coronavirus-chinas-first-confirmed-covid-19-case-traced-back (accessed and saved 7/03/20).
  6. Kate Kelland, “Italy sewage study suggests COVID-19 was there in December 2019”, Reuters (6/19/2020), http://www.reuters.com/article/us-health-coronavirus-italy-sewage/italy-sewage-study-suggests-covid-19-was-there-in-december-2019-idUSKBN23Q1J9 (accessed 7/03/20).
  7. “Coronaviruses as early as December?  Diagnosis of French patient shakes up pandemic chronology,”  KHN Morning Briefing (5/06/2020), http://khn.org/morning-breakout/coronavirus-cases-as-early-as-december-diagnosis-of-french-patient-shakes-up-pandemic-chronology/ (accessed 7/03/20).
  8. Xiaonan Zhang et al., “Viral and host factors related to the clinical outcome of COVID-19”, Nature (5/20/2020), http://www.nature.com/articles/s41586-020-2355-0 (accessed and saved 7/03/20).
  9. From a sample of animal tissues at the market by the Chinese CDC and / or Wuhan Institute of Virology.  I have not yet seen the original report, but it was published shortly before 5/26, when the Wall Street Journal reported on it. The Chinese report was vetted by American scientist Colin Carlson, who finds its results credible.  Carlson communicated the report to LiveScience.  See excellent summary at Rafi Letzter, “The coronavirus didn’t really start at that Wuhan ‘wet market’”, LiveScience (5/28/2020), http://www.livescience.com/covid-19-did-not-start-at-wuhan-wet-market.html (accessed 7/03/20).
  10. Lizhou Zhang et al., “The D614G mutation in the SARS-CoV-2 spike protein reduces S1 shedding and increases infectivity”, Scripps Research Institute (June, 2020; not sure if it’s peer-reviewed yet), http://www.scripps.edu/news-and-events/press-room/2020/20200611-choe-farzan-sars-cov-2-spike-protein.html (accessed and saved 7/03/20).
  11. WHO-China Joint Mission on Coronavirus Disease 2019 (COVID-19), Report (2/24/2020), p. 12, http://www.who.int/docs/default-source/coronaviruse/who-china-joint-mission-on-covid-19-final-report.pdf (accessed and saved 7/14/20).
  12. Paul Sax, “What We Know – And What We Don’t – About ‘Asymptomatic COVID-19’”, WBUR (6/26/2020), http://www.wbur.org/commonhealth/2020/06/26/asymptomatic-covid-faq-what-we-know (accessed, saved, and archived 7/19/20).
  13. Tamar Lapin, “Coronavirus may Damage your Kidneys, Heart and Liver”, New York Post (4/15/2020), http://nypost.com/2020/04/15/coronavirus-reportedly-damages-patients-kidneys-heart-liver/ (accessed 7/04/20).
  14. Krishna Sriram, Paul Insel, and Rohit Loomba, “What is the ACE2 receptor, how is it connected to the coronavirus and why might it be key to treating COVID-19?  The experts explain”, The Conversation (5/14/2020), http://theconversation.com/what-is-the-ace2-receptor-how-is-it-connected-to-coronavirus-and-why-might-it-be-key-to-treating-covid-19-the-experts-explain-136928 (accessed and saved 6/26/20).
  15. Heng Meng et al., “CT imaging and clinical course of asymptomatic cases with COVID-19 pneumonia at admission in Wuhan, China”, J. Infect. 81(1):e33-39 (4/12/2020), http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7152865/ (accessed and saved 7/04/20).
  16. Waradon Sungnak et al., “SARS-CoV-2 entry factors are highly expressed in nasal epithelial cells together with innate immune genes”, Nature Medicine 26, 681-687 (4/23/2020), http://www.nature.com/articles/s41591-020-0868-6#Fig1 (accessed and saved 7/14/20).
  17. Staff writer, “Severe Acute Respiratory Syndrome (SARS)”, American Lung Association, http://www.lung.org/lung-health-diseases/lung-disease-lookup/severe-acute-respiratory-syndrome-sars (accessed and saved 7/04/20).
  18. Staff writer, “People with Certain Medical Conditions”, CDC (7/17/2020), http://www.cdc.gov/coronavirus/2019-ncov/need-extra-precautions/people-with-medical-conditions.html (accessed, saved, and archived 7/22/20).
  19. Staff writer, “SARS-CoV-2 Antibodies”, Sino Biological (apparently continuously updated), http://www.sinobiological.com/research/virus/sars-cov-2-antibody (accessed, saved, and archived 7/19/20).
  20. Li-Ping Wu et al., “Duration of Antibody Responses after Severe Acute Respiratory Syndrome”, Emerging Infectious Diseases 13(10):1562-4 (Oct., 2007), http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2851497/ (accessed and saved 7/19/20).
  21. Quan-Xin Long et al., “Clinical and immunological assessment of asymptomatic SARS-CoV-2 infections”, Nature Medicine (6/18/2020), http://www.nature.com/articles/s41591-020-0965-6 (accessed and saved 7/21/20).
  22. Lydia Bourouiba, Eline Dehandschoewercker, and John W. M. Bush, “Violent expiratory events: on coughing and sneezing”, Journal of Fluid Mechanics 745:537-563 (4/25/2014), http://www.cambridge.org/core/journals/journal-of-fluid-mechanics/article/violent-expiratory-events-on-coughing-and-sneezing/475FCFCBD32C7DB6C1E49476DB7A7446 (accessed and saved 7/19/20).
  23. The facts about incubation and contagion are taken from Xi He et al., “Temporal dynamics in viral shedding and transmissibility of COVID-19”, Nature Medicine (4/15/2020), http://www.nature.com/articles/s41591-020-0869-5 (accessed and saved 7/19/20).  See esp. fig. 1c.
  24. Sax, op. cit.
  25. Matthew E. Staymates, “My Stay-at-Home Lab Shows How Face Coverings Can Slow the Spread of Disease”, NIST (6/11/2020), http://www.nist.gov/blogs/taking-measure/my-stay-home-lab-shows-how-face-coverings-can-slow-spread-disease (accessed, saved, and archived 7/19/20).
  26. Rich van Wyk, “Do face masks really slow the spread of COVID-19?” WTHR (7/07/2020), http://www.wthr.com/article/news/investigations/13-investigates/do-face-masks-slow-the-spread-of-covid-19/531-96479b50-7041-4f95-a88c-e33e2355fa37 (accessed and archived 7/19/20).
  27. Photo by Scot Fagerland
  28. Neeltje van Doremalen et al., “Aerosol and Surface Stability of SARS-CoV-2 as Compared with SARS-CoV-1”, New England Journal of Medicine 382:1564-1567 (3/17/2020), http://www.nejm.org/doi/full/10.1056/nejmc2004973 (accessed and saved 7/14/20).
  29. Staff writer, “Food and Coronavirus Disease 2019 (COVID-19)”, Nat’l Center for Immunization and Respiratory Diseases, Div. of Viral Diseases, US CDC (6/25/2020), http://www.cdc.gov/coronavirus/2019-ncov/daily-life-coping/food-and-COVID-19.html (accessed, saved, and archived 7/14/20).
  30. William F. Marshall III, M.D., “Can COVID-19 (coronavirus) spread through food, water, surfaces and pets?” Mayo Clinic (2020), http://www.mayoclinic.org/diseases-conditions/coronavirus/expert-answers/can-coronavirus-spread-food-water/faq-20485479 (accessed, saved, and archived 7/14/20).
  31. The full list is updated at Jeff Craven, “COVID-19 vaccine tracker”, Regulatory Focus (updated regularly since March, 2020), http://www.raps.org/news-and-articles/news-articles/2020/3/covid-19-vaccine-tracker (accessed 7/19/20).  
  32. Lisa A. Jackson et al., “An mRNA Vaccine against SARS-CoV-2 – Preliminary Report”, New England Journal of Medicine (7/14/2020), http://www.nejm.org/doi/full/10.1056/NEJMoa2022483 (accessed and saved 7/20/20).
  33. Pedro M. Folegatti et al., “Safety and immunogenicity of the ChAdOx1 nCoV-19 vaccine against SARS-CoV-2: a preliminary report of a phase ½, single-blind, randomized controlled trial”, The Lancet (7/20/2020), http://www.thelancet.com/journals/lancet/article/PIIS0140-6736(20)31604-4/fulltext (accessed and saved 7/21/20).
  34. Amy Rose et al., “Pfizer and BioNTech Announce Early Positive Data from an Ongoing Phase ½ study of mRNA-based Vaccine Candidate Against SARS-CoV-2”, Business Wire (7/01/2020), http://www.businesswire.com/news/home/20200701005576/en/ (accessed, saved, and archived 7/20/20).
  35. Ciaran Lawlor et al., “The Timelines and Expectations for COVID-19 Vaccines”, BCG (5/14/2020), http://www.bcg.com/en-us/publications/2020/covid-vaccines-timelines-implications (accessed 7/20/20).
  36. Staff writer, “NIH Clinical Trial Shows Remdesivir Accelerates Recovery from Advanced COVID-19”, NIH-NIAID (4/29/2020), http://www.niaid.nih.gov/news-events/nih-clinical-trial-shows-remdesivir-accelerates-recovery-advanced-covid-19 (accessed, saved, and archived 7/21/20).
  37. Staff writer, “Coronavirus (COVID-19) Update:  FDA Issues Emergency Use Authorization for Potential COVID-19 Treatment”, FDA (5/01/20), http://www.fda.gov/news-events/press-announcements/coronavirus-covid-19-update-fda-issues-emergency-use-authorization-potential-covid-19-treatment (accessed, saved, and archived 7/21/20).
  38. Staff writer, “Lilly Begins World’s First Study of a Potential COVID-19 Antibody Treatment in Humans”, Eli Lilly (6/01/2020), http://investor.lilly.com/news-releases/news-release-details/lilly-begins-worlds-first-study-potential-covid-19-antibody (accessed, saved, and archived 7/21/20).
  39. Ardan M. Dondorp et al., “Respiratory Support in COVID-19 Patients, with a Focus on Resource-Limited Settings”, Am. J. Tropical Medicine & Hygiene 102(6):1191-7 (6/03/2020), http://www.ajtmh.org/content/journals/10.4269/ajtmh.20-0283 (accessed and saved 7/21/20).
  40. Peter Horby et al., “Effect of Dexamethasone in Hospitalized Patients with COVID-19 – Preliminary Report”, medRxiv (6/22/2020), http://www.medrxiv.org/content/10.1101/2020.06.22.20137273v1 (accessed and saved 7/22/20).
  41. Jennifer Tran, “Can Hydroxychloroquine and Chloroquine Be Used to Treat Coronavirus (COVID-19)?” GoodRx (7/08/2020), http://www.goodrx.com/blog/coronavirus-medicine-chloroquine-hydroxychloroquine-as-covid19-treatment/ (accessed, saved, and archived 7/21/20).
  42. Nils Rother et al., “Hydroxychloroquine inhibits trained immunity – implications for COVID-19”, medRXiv (6/09/2020, peer review in progress), http://www.medrxiv.org/content/10.1101/2020.06.08.20122143v1 (accessed and saved 7/21/20).
  43. Staff writer, “FDA cautions against use of hydroxychloroquine or chloroquine for COVID-19 outside of the hospital setting or a clinical trial due to risk of heart rhythm problems”, FDA (7/01/20), http://www.fda.gov/drugs/drug-safety-and-availability/fda-cautions-against-use-hydroxychloroquine-or-chloroquine-covid-19-outside-hospital-setting-or (accessed, saved, and archived 7/21/20).
  44. Nicholas Dunant et al., “Roche initiates phase III clinical trial of Actemra/RoActemra plus remdesivir in hospitalized patients with severe COVID-19 pneumonia”, Roche (5/28/2020), http://www.roche.com/media/releases/med-cor-2020-05-28.htm (saved, accessed, and archived 7/22/20).
  45. Aleix Gimeno et al., “Prediction of Novel Inhibitors of the Main Protease (M-pro) of SARS-CoV-2 through Consensus Docking and Drug Reposition”, Int’l Journal Molecular Sciences 21(11):3793 (5/27/2020), http://www.mdpi.com/1422-0067/21/11/3793 (accessed and saved 7/22/20).
  46. Alpha Lee et al., “COVID Moonshot:  Help Us Fight Coronavirus”, PostEra, http://postera.ai/covid (accessed, saved, and archived 7/22/20).
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Coronavirus Primer, Part 1: Background https://scotsthoughts.com/coronavirus-primer-part-1-background/ Wed, 17 Aug 2022 19:03:17 +0000 https://scotsthoughts.com/?p=376 Originally posted 7/16/20 on HowLifeGotThisWay.com I. About This Primer II. Viruses III. Coronaviruses IV. Citations I. About This Primer Without a doubt, the biggest story of 2020 is the coronavirus epidemic. By the middle of the year, I, like many others out there, felt overwhelmed in a muddle of fragmented news and science, misinformation, and […]

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Originally posted 7/16/20 on HowLifeGotThisWay.com

Color-enhanced but real image of viruses (green) infecting a human cell (blue) 1
 

I. About This Primer

II. Viruses

III. Coronaviruses

IV. Citations

I. About This Primer

Without a doubt, the biggest story of 2020 is the coronavirus epidemic. 2 By the middle of the year, I, like many others out there, felt overwhelmed in a muddle of fragmented news and science, misinformation, and general confusion.  I announced on Facebook that I wanted to “digest it all” and assemble the best known information into one primer.  “Any questions you’d like me to research?” I asked, and a few friends immediately chimed in with requests.  Hopefully, this will help us understand coronavirus basics from the ground up.  I will begin this primer with the big picture and then gradually zoom in from viruses to coronaviruses to this year’s unwanted pests.  There is far too much ground to cover in one article, so I’m breaking it into multiple parts.  Today’s post is Part 1:  Background.  This article discusses viruses and coronaviruses in general. 

II. Viruses

A. Square One: What is a Virus, Anyway?

B. Infection, Immunity, Inoculation

C. Human Viral Diseases

D. Measuring Epidemics

E. Treatment Options

A. Square One: What is a Virus, Anyway?

Viruses occupy one of the most intriguing positions in the whole grand scheme of things.  They are microbes right at the boundary of life and non-living chemistry.  This makes them primary subjects of interest for scientists studying the origins of life.      

You are made of about 30 trillion cells. 2 We call a cell the smallest unit of life because it performs all the functions that we expect of a living thing.  A cell grows, responds to stimuli, metabolizes, heals, sustains and defends itself, reproduces, and dies.  However, it is not a unitary blob of spittle.  A cell is a complex system with hundreds of interacting parts, with names like macromolecules and organelles.  Most of those parts specialize in just one life function, so by themselves they are not fully alive.  If I could compare a virus to anything else, I’d say it’s like a cell organelle that specializes in reproduction. 

Viruses are like living things in numerous ways.  They are made of the same basic macromolecules as us:  nucleic acids, proteins, lipids, and carbohydrates.  At the core of every virus is a bundle of DNA or RNA comprising a few genes.  Viruses reproduce and evolve / speciate.  Biologists classify them and give them Latinesque scientific names.  Viruses can be “killed” by heat, chemicals, or radiation.             

However, viruses are like lifeless chemicals in that they don’t metabolize, respond, heal, change, or grow.  Nor are they able to protect themselves from the environment.  And although viruses specialize in just one thing – reproduction – they can’t even do that by themselves.  A virus is an absolute parasite.  In order to function, it must inhabit a living cell.  The “life” cycle of a virus is to invade a cell and exploit the cell’s resources to make dozens of copies of itself, which then burst forth to invade other cells.  Viruses infect the cells of all living things, from bacteria to whales.  They kill more life forms, and more humans, than any other force of nature.

B. Infection, Immunity, Inoculation

While some viruses are harmless or even beneficial, most of them cause irreparable or fatal damage to their host cells.  Rapidly reproducing viruses consume a cell completely and then burst out like a battalion of creepy little microscopic robots.  Since they are vulnerable outside of cells, they must pass quickly from dying cell to living cell.  They can pass from one person to another through skin, body fluids, or air currents.

Viral infection involves proteins on the surfaces of viruses and cells.  Proteins have complex three-dimensional shapes like locks and keys.  If a virus has the protein “key” to a cell’s outer “lock”, it will latch on and inject its genes inside.

In a human or animal body, fragments of viruses called antigens react with our white blood cells, aka our immune system.  In lucky cases, the immune system produces a protein called an antibody, a natural defense.  An antibody latches onto the antigen that stimulated it.  Sometimes, the antibody disfigures the virus’s “key” so that the virus can no longer penetrate cells.  Other antibodies “flag” a virus so that white blood cells can easily identify and destroy it.  While a person has an antibody in his blood, he is immune to that virus.  The next time the virus comes along, his antibodies will latch onto the virus’s antigens and slow it down or stop it.  Some antibodies last a lifetime, while others disappear from the bloodstream in a few years.  A vaccine is a human-made, finely tuned dose of antigens – just enough to stimulate an immune response without a full-blown infection.  If enough people in a community become immune to the virus, whether through natural immunity or vaccine inoculation, the virus begins to die out and can even go extinct.             

It’s important to note that viruses evolve quickly.  This is especially true of RNA viruses, which most human viruses are.  When a virus evolves, its proteins can change shape.  That is a headache for us; we are forced to keep reinventing new locks to morphing viral keys.  Occasionally, a virus that infects one animal will evolve to a new form that infects another animal, including humans.  A virus that jumps ship from one species of host to another is called zoonotic.

C. Human Viral Diseases

A viral disease is not quite the same as the virus that causes it.  A disease is the physical manifestation of the virus, its effects on the person.  Sometimes a virus and its disease have different names, as HIV (Human Immunodeficiency Virus) causes AIDS (Acquired Immuno-Deficiency Syndrome).  In other cases, we use a single term, like “Ebola”, to name both the virus and its disease.  There are too many human disease-causing viruses to list here.  Examples include adenoviruses, astroviruses, encephalitis, enteroviruses, hepatitis, herpes, HPV, influenza, measles, meningitis, mumps, noroviruses, parainfluenza, polio, pox, rabies, rhinoviruses (which cause colds), roseola, rotaviruses, rubella, West Nile, Zika, … you get the picture.

D. Measuring Epidemics

Viruses are inherently public health threats.  Human viruses would quickly die out if they did not have lots and lots of people to infect. Viral infections can be quantified in numerous ways. The three most fundamental independent metrics are reproduction number, transmission time, and infection-fatality rate.

Reproduction number is commonly abbreviated as R.  It measures the average number of healthy persons who catch the virus from each infected person.  For example, if each sick person makes four other people sick, then R = 4. 

Transmission time is the average time it takes a virus to spread from one person to another.  I don’t see this factor discussed very often, but it makes a big difference whether a sick person infects others in a matter of hours (like an airborne virus in a mall) or years (like a sexually transmitted virus). 

Finally, the infection-fatality rate is the most morbid statistic of them all: the percentage of infected persons who die.  The number of serious illnesses or hospitalizations may be measured as well; they will be closely correlated to the fatality rate.

Unfortunately, the fundamental metrics above are difficult to measure.  We can’t measure them all in a lab because they are not entirely intrinsic to the virus.  They depend on human activity too.  It’s hard to know how many people are infected when not everyone is tested and / or exhibiting symptoms. We reserve the word “case” for a known infection. That is, if 100 people carry the virus but only 60 of them have been tested and confirmed, then there are 100 infections but only 60 cases. In some epidemics (especially new ones) there can be quite a gap between actual infections and known cases. 

The easiest way to measure the severity of an epidemic is with the number of deaths and / or hospitalizations.  These numbers are documented well.  There will still always be some over-reporting (deaths attributed to the virus that were really due to something else) and under-reporting (deaths due to the virus that weren’t counted).  On a societal level, sheer numbers are more important than rates.  It doesn’t really matter if there are 1,000 infections that are 10% fatal or 10,000 infections that are 1% fatal.  Both scenarios will result in 100 deaths and should be considered equally dangerous.  Of course, if you get infected, you sure will be interested in knowing if you have a 1% or 10% chance of dying!

Taken together, the reproduction number and transmission time determine the doubling time, or the amount of time it takes for the prevalence of infections to double in the population.  The pattern characterized by a constant doubling time is called exponential growth.  In real life, exponential growth never lasts long, because it runs up against limitations like immunity or finite populations.  Doubling time is the metric we hear most on the news, because it is easy to calculate by simply counting cases.  Breaking it down offers slightly more insight, if only theoretically.  When doubling time increases, it demonstrates that each sick person is infecting fewer healthy people and / or she’s doing so more slowly, which are the intended effects of social distancing.

When doubling time slows down (as it always must) the simplest model for epidemic growth is the logistic formula.  This S-shaped curve represents the all-time number of infections “flattening” as it reaches its maximum and stops growing.  The point where the number of daily infections starts to decrease is the point of inflection.  I hear some people using the term “inflection point” as if it means the point where a virus “really takes off”.  That’s the opposite of the correct meaning, and there is no well-defined point of acceleration on the curve.

Real epidemiologists use sophisticated numerical algorithms that model the interactions among Susceptible, Immune, and Recovered people.  These SIR  or compartmentalized models are run on supercomputers.

The logistic curve, unlike exponential growth, models the “flattening” or maxing out that must eventually occur.  The inflection point is where growth starts to slow down; it is shown at (5, 50) on this example. 3

E. Treatment Options

Besides vaccines, there are at least two medical options for some viral infections.

Antiviral drugs kill viruses after infection.  Antiviral pharmacology is recent technology.  It is more sophisticated than vaccinations.  To produce an antiviral medicine, researchers sequence the virus’s RNA and proteins and then engineer molecules to target the virus’s vulnerable points.  This highly advanced research developed in response to the AIDS pandemic. 

Each vaccine or antiviral medication is engineered specifically for one strain of virus.  Though the vaccines for polio and smallpox were “miracle cures” that drove their viruses to extinction, they are useless against other viruses.  Medical labs are experienced and pretty effective at making influenza vaccines.  On the other hand, centuries of effort have still yielded no rhinovirus vaccines.

Because vaccines and antivirals are not always available, hospitals must also rely on symptomatic treatments, which only mitigate the disease without managing the virus.  Some drugs treat symptoms such as inflammation (also known as cytokine storm).  In extreme cases, medical equipment like ventilators assist with breathing while the virus passes.

III. Coronaviruses

A. What Coronaviruses Are

B. The First Two Killer Coronaviruses

A. What Coronaviruses Are

Coronaviruses are classified as the family Coronaviridae in the virus family tree.  They get their name from the “spike” proteins, also known as S proteins, embedded in their fatty envelope.  The spikes look like the corona (crown) of the sun, and they are the killer proteins involved in latching onto host cell membranes. 

Coronaviruses have infected bats and birds for tens or hundreds of millions of years. 4 They are occasionally transmitted to other mammalian species that come into contact with bats.  There are now five genera of coronaviruses.  Two of them, Alphacoronavirus and Betacoronavirus, include species that infect humans.  Today’s living alpha- and beta-coronaviruses descend from a common ancestor four or five millennia ago. 5

Some animal diseases that are now recognized as coronavirus infections came to veterinary attention in the early 20th century.  The viruses themselves were only observed and named in the 1960s.  Since then, the medical community has identified seven coronaviruses that infect humans.  Four of them only cause colds.  The three most recent strains, all beta-coronaviruses that evolved in the 21st century, are much more severe.  There are no known treatments for any of them. 

B. The First Two Killer Coronaviruses

The first alarming coronavirus outbreak was the SARS epidemic of 2002 – ’04.  SARS stands for Severe Acute Respiratory Syndrome. 2 The virus that caused it was named SARS-CoV.  The SARS coronavirus originated in horseshoe bats in southern China. 6 It was then apparently transmitted to intermediary species that were sold in exotic animal markets: the palm civet (a wild cat), the raccoon dog (a wild dog), and / or the ferret badger.  All of these species carried SARS-CoV-like viruses.  The exact pathway from bat to carrier to human has not yet been solved.   

SARS had a high infection-fatality rate, about 10%.  It was easy to detect infected people, though, because almost everybody who caught it broke out into fever and coughs within 2 – 3 days.  The sick were quickly quarantined and questioned about their most recent contacts, who were also isolated.  Local governments also ordered a mass killing of palm civets. 7 Even without a vaccine or anti-viral remedy, the anti-SARS campaign was a complete success.  Only 8,000 people ever caught this disease.  Canada was the only non-Asian country with more than one death.  Curiously, just like COVID-19, SARS barely touched Africa.  The peak of the outbreak lasted just a few months, February – July 2003.  The onset of summer weather slowed it down.  By 2004, SARS-CoV was extinct. 

Living in a world city, Los Angeles, I have long noticed Chinese nationals wearing face masks all the time, and I always wondered why.  It’s the SARS outbreak that got them in the habit, and many have worn masks routinely ever since 2003.  It doesn’t seem so unusual anymore!

The next major coronavirus outbreak was called MERS (Middle East Respiratory Syndrome) because it was concentrated in Saudi Arabia and neighboring countries.  The MERS virus passed from bats to camels in the 1990s and then to people who made close contact with camels in 2012.  This virus had a distinct profile.  MERS had an even higher infection-fatality ratio.  30 – 35% of the patients who caught it died!  Fortunately, it did not easily pass from one person to another.  The MERS virus still exists, but it has only killed 900 people, just a few each year now. 

In 2017, the scientists who traced SARS-CoV to a bat cave in Yunnan Province observed that the viruses were recombining (intermixing) to form myriad new combinations.  Their discussion included this prophetic warning:

“We have also revealed that various SARSr-CoVs … are still circulating among bats in this region.  Thus, the risk of spillover into people and emergence of a disease similar to SARS is possible.” 8

Ben Hu (2017)

Continue to Coronavirus Primer Part 2: SARS-CoV-2, COVID-19, and the Individual

IV. Citations

  1. Photo Credit: C. GoldsmithContent Providers: CDC/ C. Goldsmith, P. Feorino, E. L. Palmer, W. R. McManus / Public domain.  http://commons.wikimedia.org/wiki/File:HIV-budding-Color.jpg (accessed and saved 6/23/20).
  2. Ron Sender, Shai Fuchs, and Ron Milo, “Revised Estimates for the Number of Human and Bacteria Cells in the Body”, PLOS Biology (8/19/2016), http://journals.plos.org/plosbiology/article?id=10.1371/journal.pbio.1002533 (accessed 7/06/20).
  3. Logistic curve by Yapparina / CC0, http://commons.wikimedia.org/wiki/File:Logistic_curve,_r%3D1,_K%3D100,_N0%3D1.png (accessed 7/07/20).
  4. Joel O. Wertheim et al., “A Case for the Ancient Origin of Coronaviruses”, Journal of Virology 87(12):7039-45 (June, 2013), http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3676139/ (accessed and saved 6/25/20).
  5. Patrick C.Y. Woo et al., “Discovery of Seven Novel Mammalian and Avian Coronaviruses in the Genus Deltacoronavirus Supports Bat Coronaviruses as the Gene Source of Alphacoronavirus and Betacoronavirus and Avian Coronaviruses as the Gene Source of Gammacoronavirus and Deltacoronavirus”, Journal of Virology 86(7):3995-4008 (Apr., 2012), http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3302495/ (accessed and saved 6/25/20).
  6. Ben Hu et al., “Discovery of a rich gene pool of bat SARS-related coronaviruses provides new insight into the origin of SARS coronavirus”, PLOS Pathogens 13(11):e1006698 (11/30/2017), http://journals.plos.org/plospathogens/article?id=10.1371/journal.ppat.1006698 (accessed and saved 6/25/20).
  7. Jane Parry, “WHO queries culling of civet cats”, BMJ 328(7432):128 (1/17/2004), http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1150312/ (accessed and saved 7/03/20).
  8. Hu (2017), op. cit., “Discussion”, last paragraph.
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Understanding Gravitational Waves https://scotsthoughts.com/understanding-gravitational-waves/ Wed, 17 Aug 2022 19:00:40 +0000 https://scotsthoughts.com/?p=372 Originally posted 8/28/17 on TheEvolutionOfHuman.com, the precursor to HLGTW.com In the 2010’s, science seems to produce miracles every day.  We are constantly enthralled by ever-changing smart phones and life-saving medicines.  Yet one of this decade’s most important science stories is something that didn’t have much media reach – the direct detection of gravitational waves.  This […]

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Originally posted 8/28/17 on TheEvolutionOfHuman.com, the precursor to HLGTW.com

gravitational waves
A simulation of gravitational waves in the 3D space surrounding an inspiraling black hole pair.

In the 2010’s, science seems to produce miracles every day.  We are constantly enthralled by ever-changing smart phones and life-saving medicines.  Yet one of this decade’s most important science stories is something that didn’t have much media reach – the direct detection of gravitational waves.  This post will explain what gravitational waves are, how they were recently detected, and what this means for the sake of science.

What are gravitational waves?

A boat sitting on a lake displaces (pushes aside) some of the water.  As the boat moves, the displacement of water follows it.  The disturbance in the water then propagates outward from the boat in waves.   Physicists predicted a century ago that gravity can behave in a similar way.  A massive body like a star warps space-time, especially in its vicinity.  When the star is disturbed in certain ways, the space-time warp radiates outward from the star in gravitational waves, carrying energy with it.  If the star is massive enough and particularly agitated, the waves could even be detected from Earth.    

How do we know this?

Our best understanding of gravity today is Einstein’s general theory of relativity (GR).  His theory gave physicists much to think about, as it was a degree more refined and explanatory than Newton’s 17th century model of “action at a distance”.  When Einstein published this theory in 1915, however, it was mostly theoretical.  It made good sense to those (few) who understood it, and it went a long way toward explaining how the universe works on a large scale.  Believers were eager to see if relativity were really supported by astronomical observations.  There were a few early corroborations.  GR immediately explained anomalies in Mercury’s orbit that made no sense otherwise.  Astronomers knew that if Einstein were right about gravity as the warping of space-time, light rays from distant stars should be bent as they passed near the sun, slightly shifting the stars’ locations in the sky.  That can only be observed during a total solar eclipse.  The opportunity came in 1919, and during that eclipse stars near the sun did in fact appear slightly offset from their true positions.  Since then, distant galaxies have been observed acting as “gravitational lenses”, making galaxies directly behind them appear as rings of light rather than points!

Einstein was not perfect.  His model of GR was based on the assumption that the large-scale universe was static.  When it became clear that the universe is actually expanding, he had to modify his equations to suit observational reality.  Thus, even the best ideas from the smartest people cannot be taken as gospel.  They have to be borne out by reality.       

Over the decades, all of Einstein’s predictions were directly confirmed, except one – gravitational waves.  There was actually good indirect evidence dating back to the 1970s.  Binary black holes were seen spiraling in toward one another, gradually losing energy.  That observation was consistent with the idea that they were transmitting gravitational energy out into space.  Still, the next logical step in nailing down general relativity was detecting those waves and studying them. 

Gravitational Wave Detection

A gravitational wave causes periodic stretches and compressions of space.  If such a wave were headed straight toward you right now, it would cause space in your vicinity to stretch horizontally while compressing vertically, and then to stretch vertically while compressing horizontally, in a continued cycle.  To detect these fluctuations, scientists shine lasers in two perpendicular directions, essentially vertical and horizontal.  The lasers travel equal distances until they each strike a mirror and get reflected back to meet each other in the middle.  They are polarized so that, on a normal day, they cancel each other out at this middle point.  But if a gravity wave passes by, one laser beam gets longer while the other one gets shorter, and then they no longer quite cancel in the middle!  Any residual light patterns are recorded, producing a trace of the gravitational wave.   

The problem is that gravitational waves are difficult (frankly, all but impossible) to detect.  They are only generated by extreme systems like binary black holes.  There aren’t many of those within a billion light years.  By the time those waves reach us, they are inconceivably small.  A typical gravity wave is described mathematically as having dimensionless strain amplitude of 10-20.  This means that a distance of 1020 centimeters (from here to a typical star in the night sky) gets distorted by only 1 centimeter (the width of your pinky finger)!  How on Earth (literally) can we detect that?! 

The secret lies in engineering that is just as incredible as the science of relativity.  Fortunately, the lasers don’t have to shift very much to produce an interference pattern.  Mirrors are used to lengthen the lasers’ paths, thus lengthening their stretches and compressions.  The real challenge is separating out these miniscule oscillations from normal everyday movement; gravitational waves are much smaller than disturbances in the laboratory such as footsteps or even air currents.  Engineers have found workarounds.  The mirrors are suspended from four levels of pulleys, each of which dampens movement by orders of magnitude.  The whole system is controlled by advanced “noise reduction” technology.  If a truck passes by outside, the control system creates its own minor vibrations to cancel out the truck’s!  Finally, the results from one gravitational-wave observatory are checked against another one elsewhere in the world.  All these steps ensure that the equipment is not falsely reading local jostles as cosmological events. 1

A handful of gravity wave detectors such as the Laser Interferometer Gravitational-Wave Observatory (LIGO) have been in operation since the 1990s.  They produced absolutely no results for two decades.  As a Caltech alumnus, I was long aware of and curious about the LIGO, which is a Caltech lab in conjunction with MIT and the NSF.  After some key engineering improvements in 2015, LIGO finally made a breakthrough and detected gravitational waves.  In fact, it almost immediately detected waves from three different events.  Go Caltech!  The most recent detection was just announced in June, 2017. 

Can we see or hear gravitational wave events?

Well … yes and no. 

The gravitational waves detected so far were all caused by the same phenomenon, called a black-hole in-spiral.  A pair of black holes in very close, very fast orbits around each other spiral inward for a collision.  The forces behind a system like that are impossible to imagine.  Picture two large stars, each ten times more massive than the sun.  Then shrink each star down to the size of a baseball.  As they orbit each other, they radiate energy away in gravitational waves, causing them to inch closer toward their mutual center.  After millions of years, their small size permits them to get within a few kilometers of one another.  Like an ice skater pulling in her arms, their angular momentum causes them to spin faster and faster until they are twirling at ludicrous rates, stirring the very space around them.  The gravitational waves reach a climax as the two black holes merge into one.  Only the peak of this wave is detectable on Earth, literally the split second of coalescence.  After that, the new larger black hole behaves in a spherically symmetrical way and becomes gravitationally quiescent. 

We cannot literally “see” such an event with telescopes, but a computer simulation of such a black hole mating – with gravitational waves emanating outward – is shown here: 2 http://www.youtube.com/embed/157rfAqypcc

Just about any wave can be converted into a sound wave so we can “listen” to it.  A black-hole collision produces a powerful but brief burst of waves that is detectable for about one second.  As shown in the video, the waves increase in frequency during that second, which we would interpret as a rising pitch.  Scientists call it a “chirp”.  You can listen to the chirps of the first two detections in this video: 3

So what?

These waves are a scientific breakthrough.  For starters, they are Einstein’s final witness.  Everything he said about general relativity is now seen to be true.  We now feel that we have a very complete understanding of what gravity does (though the ultimate question of why mass distorts space-time is still unknown). 

The first gravitational wave was detected in September, 2015 and announced in February, 2016.  It’s a pretty cool coincidence that this processing period spanned the date November 25, 2015, the 100th anniversary of publication of Einstein’s general relativity.

In addition, gravitational wave detectors bring the promise of a new generation of observatories.  Classic telescopes detect visible light.  Modern versions such as radio telescopes see outside the spectrum of the human eye, but they are still detecting variants of light, electromagnetic radiation.  Gravitational waves are completely outside the realm of electromagnetics.  They are not obscured by physical objects or dimmed by dust, so observatories such as LIGO have an unobstructed view of them wherever they occur.  They also emerge from very interesting astronomical phenomena that do not emit light.  That includes black holes, of course, and even the big bang.  The oldest electromagnetic radiation in the universe came about 100,000 years after the big bang.  Gravitational wave detectors could pierce that veil and peer indefinitely closer to the actual moment of creation.

What gravitational waves are not

The name “gravitational waves” can be a little misleading.  They are not the normal mechanism by which gravity works.  The earth goes around the sun because of the sun’s gravity, which does warp space-time in the solar system, but in a static field.  There are no gravitational waves emanating from the sun to the earth.  Waves are an exception rather than a rule in GR, simply a consequence of certain asymmetric movements. 

It is also important not to confuse gravitational waves with gravitons.  The graviton is a hypothetical construct that some theoreticians use to explain what could cause gravity in the first place (ie why mass warps space-time).  The three other forces of nature (electromagnetism, the weak nuclear interaction, and the strong nuclear force) are all transmitted by strange subatomic units called bosons, which can behave as particles or waves.  The most familiar boson is the photon, the light wave / particle.  Could it be that gravity is also transmitted by bosons?  Nobody knows.  Certainly nobody has ever detected one.  The graviton hypothesis comes at gravity from a very different direction – Einstein came at it cosmologically, on the very large scale, whereas the graviton model emerged from quantum mechanics, the study of the very small.  As for myself, I am skeptical.  Graviton theory is mathematically consistent only if it allows “hidden extra dimensions” for the gravitons to wiggle around like little strings.  It seems to be a non-falsifiable speculation.  To be clear, gravitons did not come out of Einstein’s theory of relativity.  On the other hand, GR only explains how mass warps space-time, not why.  A full understanding of gravity would have to go beyond even Einstein’s imagination. 

  1. LIGO Caltech, http://www.ligo.caltech.edu/page/ligo-gw-interferometer (accessed 8/28/2017).
  2. Simulating Extreme Spacetimes, CC BY-NC 3.0 license, http://www.black-holes.org/gw150914 (accessed 8/28/2017).
  3. American Astronomical Society, http://www.space.com/33180-how-gravitational-waves-were-converted-into-audio-chirps-video.html (accessed 8/28/2017).
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The Electoral College and Election Mathematics https://scotsthoughts.com/the-electoral-college-and-election-mathematics/ Wed, 17 Aug 2022 18:58:17 +0000 https://scotsthoughts.com/?p=370 Originally posted 1/19/17 on TheEvolutionOfHuman.com, the precursor to HLGTW.com Tomorrow, Donald Trump will be sworn in as one of the most controversial presidents-elect in US history. 1 Because it was a complicated election and Clinton won the plurality of votes, many protesters characterize Trump’s election victory as “illegitimate”, and (as in most elections) there is a […]

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Originally posted 1/19/17 on TheEvolutionOfHuman.com, the precursor to HLGTW.com

Tomorrow, Donald Trump will be sworn in as one of the most controversial presidents-elect in US history. 1 Because it was a complicated election and Clinton won the plurality of votes, many protesters characterize Trump’s election victory as “illegitimate”, and (as in most elections) there is a lot of grumbling that the Electoral College system is flawed.  The underlying assumption seems to be that this system must be “outdated” since it is centuries old, and that only a one-person / one-vote rule would be fair.

Police talk to Trump protesters, downtown Los Angeles, 11/12/16

As a math instructor who has taught lessons in political science, my simple message today is this:  There is no such thing as a perfect election method.  Every conceivable system has inherent unfairness or even contradictions.  The only principle that’s really essential is that all parties agree to the rules before the election.

Here’s an example to give you an idea of how a voting system can be paradoxical.  Consider a three-candidate race among Arthur, Buchanan, and Cleveland.  The presidency will go to the candidate who receives the plurality of votes, i.e. more votes than anyone else.  A survey (which we will consider accurate!) reveals these voter preferences:

10,000,000 voters prefer Arthur 1st, Buchanan 2nd, and Cleveland 3rd.

8,000,000 voters prefer Buchanan 1st, Cleveland 2nd, and Arthur 3rd.

4,000,000 voters prefer Cleveland 1st, Buchanan 2nd, and Arthur 3rd.

If the election were held that day, Arthur’s 10 million votes would win him the election.  Cleveland would come in last place.  Discouraged by the polls, Cleveland announces at the last minute that he is dropping out of the race.  But then something very interesting happens at the election:  Cleveland’s 4,000,000 votes go to Buchanan.  Buchanan now wins the election, 12 to 10 million!

That doesn’t seem fair.  The winner changed just because the loser dropped out.  To look at it another way, the three-man election wasn’t really fair either. More people preferred Buchanan over Arthur but, with Cleveland in the race, Arthur would win.  This hypothetical election violates the “Independence of Irrelevant Alternatives” criterion of fairness.

Political theorists have a handful of other criteria for what makes an election fair.  They have names such as the Majority Criterion, Universality, Monotonicity, and Citizen Sovereignty.  I won’t bore you with the details here, but they are basic conditions that most of us would agree seem fundamentally fair.

Now here’s the kicker.  In his 1951 PhD dissertation, a Columbia student named Ken Arrow proved mathematically that no election system can possibly satisfy all of these fairness criteria all of the time!  It’s an idea now called the Arrow Impossibility Theorem.  OK, there is one exception to this rule.  In a two-candidate race, “Majority Rules” is perfectly fair.  However, while the US has two major parties, there are several minor parties too.  If we insisted that our elections be perfectly fair in every way, we would have to eliminate minor parties … and that already isn’t very fair or democratic.

I often say, “Life is 90% great, 9% imperfect, and 1% terrible.”  This is part of that 9% that we just have to accept.  Since there is no such thing as a perfectly fair voting system, we have to pick one and deal with its quirks.  In the case of the Electoral College, it is possible to get a national winner with a relatively small fraction of individual votes.  What is vital is that everyone agrees to the election system before the votes are cast.  Gray areas and surprises will happen.  We want them to be resolved by a rulebook that everyone knew they were playing by.

That’s why the part of this election cycle that bothered me most was when the Republican party was still debating its nomination rules just a few weeks before the convention!  If you recall, there was a rule from 2012 requiring a candidate to have won a majority of delegates in at least eight states in order to be considered as a Republican nominee.  As the convention drew near, dark horse candidate Trump was the only one who had met that threshold.  He started to gloat about it, but other candidates were saying, “Wait now; there’s no guarantee that rule will apply to this convention.”  I was stunned.  I would have thought the party had firmed up its nominating rules years earlier.  In fact, though, those rules were only decided one week before the convention!  That’s a problem, because rules can be crafted for or against specific candidates at that stage.

The Electoral College has some legitimate strengths and weaknesses.  The constitutional purpose was to let each state decide how to determine its electors.  Every state starts out with two votes (that’s fair when counting states) and then an additional number of votes proportional to population (that’s fair when counting voters).  On balance, the system is biased toward small / rural (presently Republican) states.  For instance, blue California has a population of 40,000,000 – as much as the 19 least-populous red states combined.  That red bloc has 36 more electoral votes than California, for the same number of people.  That’s why you actually don’t hear much talk about California in national campaigns.  It has the most diluted votes in the nation.

If we switched to a one-person / one-vote system, we would bypass the states.  It would then be essentially a race of Democratic cities versus Republican countryside.  That could pose its own challenges; for instance, it is much easier to organize and to campaign in dense cities than in sparse counties.  We would also lose the sense of regional interests.  Here is an incredible map that shows “where the voters are” as granularly as possible.  Each county’s population is represented by area, and its Republican : Democratic ratio is represented on the red / blue spectrum.  It’s hard to see any sense of party identity other than the urban / rural divide.  (Large cities are concentrated on the coasts).  Here you can see that the country as a whole is pretty evenly split.  The new “swing” areas are the most medium purple; you see a lot in Arizona, Texas, Florida, and the Northeast.

Trump can credit his victory to a handful of counties where he out-campaigned Clinton. 2 In a popular vote, the candidates would have learned how to “game” this system instead of the state-based electoral one.  Trump said so himself.

So, sure, the Electoral College system has its wrinkles.  But so does direct popular voting.  To drive the point home, the unfair Arthur / Buchanan / Cleveland example above was a popular vote.  The Electoral College is not perfect, but it’s perfectly legitimate and as good a system as any.

Love him or hate him, Donald Trump duly won the election.

  1. Mark Murray, “Trump Enters Office With Historically Low Approval Rating”, NBC News (1/17/17), http://www.nbcnews.com/politics/first-read/trump-enters-office-historically-low-rating-n708071 (accessed 1/17/17).
  2. Charles Mahtesian, “How Trump Won His Map”, Politico (11/09/16),  http://www.politico.com/story/2016/11/anatomy-of-trumps-election-231154 (accessed 1/19/17).
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We Need to Stop Terror, not just Terrorism https://scotsthoughts.com/we-need-to-stop-terror-not-just-terrorism/ Wed, 17 Aug 2022 18:55:06 +0000 https://scotsthoughts.com/?p=364 Originally posted 9/10/16 on TheEvolutionOfHuman.com, the precursor to HLGTW.com This September 11, I feel compelled to write a few words about the War on Terror.  It is an important issue this year as Americans make big choices.  We all know that emotional thinking can cloud judgment – and the War on Terror is one of the […]

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Originally posted 9/10/16 on TheEvolutionOfHuman.com, the precursor to HLGTW.com

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One of LA’s most intriguing corners symbolizes the nation’s fears and divisions over the War on Terror

This September 11, I feel compelled to write a few words about the War on Terror.  It is an important issue this year as Americans make big choices.  We all know that emotional thinking can cloud judgment – and the War on Terror is one of the most emotional issues of our time.  When you look at it objectively, though, you reach a striking conclusion.  Yes, terrorists are definitely evil.  But in the grand scheme of things, they are not very deadly to Americans.  When you compare the cost of this war to its benefits, it is very hard to justify on its present terms.

American conservatives describe the War on Terror as a “Clash of Cultures”.  This characterization is an ideological belief, not a fact, and it is not productive.  A look at worldwide terrorism deaths reminds us what the fight is really about:  instability within the Moslem world.  Of the roughly 20,000 terrorist deaths worldwide in 2013, a majority of them were in Iraq or Afghanistan.  90% of them occurred in 10 African / Asian countries that are home to terrorist groups.   1 These groups are militias aimed at local governments or other sects.  Most of these groups don’t target outsiders.  ISIS and al Qaeda are the main exceptions.  The US and other countries engage them directly in combat, and they strike back at our civilians.

From 2001 – 2013, the number of Americans killed by terrorist attacks was about 3,000.  Outside of 9/11/01 itself, that number is about 400, and of those only 50 were on US soil. 2 That was a whole decade’s worth of casualties.

By contrast, on a typical day (based on annual rates), 90 Americans are killed by guns at home or in the streets – by angry acquaintances, accidents, or suicide. 3  Another 90 Americans are killed in car accidents.  4  The overwhelming majority of preventable deaths in the US – 2,000 per day – are caused by our own stupid decisions to smoke, drink, overeat, and abuse drugs. 5

Terrorism is not even close to our biggest problem.

Nevertheless, more than half of Americans are “very concerned about Islamic extremism.” 6  That’s a higher rate than in Pakistan!  This disconnect is not surprising.  People don’t think with statistics.  We think with emotions.  Lifestyle-related deaths are not as evil or terrifying as terrorist attacks.

The emotionally-driven political response has been vastly out of proportion.  This war has cost trillions of dollars 7 , killed perhaps a million people 8 (wow), and sacrificed 7,000 US soldiers in combat 9 to avenge our 3,000 dead.  Not only that, but ironically most of those 400 American civilian deaths since 2001 have resulted from counterattacks against our War on Terror.

This conflict means less to the US, but more to the world, than most Americans realize.  The US needs to downscale its response, make it more efficient, and share it more evenly with its allies.  Our trillions could be much better spent on intelligence, police, and security.  Better yet, the responsibility and the budget should be spread among many nations.  The global solution to the problem is a very interesting discussion, and beyond the scope of today’s post.

As for the upcoming election, the two presidential candidates, for all their mudslinging and difference in style, have roughly similar platforms on the War on Terror.  Some of the key differences include:

  • Trump has expressed his desire to remove the US from NATO.  This would be counter-productive, as the solution needs to be international.  Trying to shore up the entire Moslem world would stretch America far too thin.  Then again, he has also spoken in favor of coalition support.
  • HIllary Clinton wants to work with Moslem Americans as a “coalition at home”.  10
  • Clinton supports stricter gun control for people on FBI watch lists.
  • Trump wants the US military to grow even larger.  Clinton supports a sustainable military with enhanced cyber capabilities.
  • Trump opposes arming Syrian rebels.  Secretary Clinton supported arming them, but Obama tried that and it backfired.  She does not include arming rebels in her presidential platform.

The more serious difference between the candidates and their supporters is their outlook on the conflict.  Trump buys into the “Clash of Cultures” storyline.  He and his voters see ISIS as first and foremost out to get America.  That outlook doesn’t get us any closer to the real problems in West Asia and their solutions.  Trump is riding on the coat tails of American fear, perceiving the terrorist danger as so large that it threatens the entire nation.

FDR said, “The only thing we have to fear is fear itself.”  Yoda was just as wise when he said, “Fear is the path to the dark side.  Fear leads to anger, anger leads to hate, hate leads to suffering.”  For Americans right now, it is just as important to conquer our terror as to conquer the terrorists.

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This Website Reminds us why Terrorists Attack in the West https://scotsthoughts.com/this-website-reminds-us-why-terrorists-attack-in-the-west/ Wed, 17 Aug 2022 18:54:08 +0000 https://scotsthoughts.com/?p=362 Originally posted 7/28/16 on TheEvolutionOfHuman.com, the precursor to HLGTW.com It surprises me that even to this day, when there are terrorist attacks on the US or Europe, people still wonder why.  “Why do they hate us?!” they ask.  They often come up with self-pleasing answers:  “They hate us because we’re free.”  “They’re attacking our way […]

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Originally posted 7/28/16 on TheEvolutionOfHuman.com, the precursor to HLGTW.com

Tornado GR4 Attack on Libyan SCUD Launcher

It surprises me that even to this day, when there are terrorist attacks on the US or Europe, people still wonder why.  “Why do they hate us?!” they ask.  They often come up with self-pleasing answers:  “They hate us because we’re free.”  “They’re attacking our way of life.” “They have the wrong religion.”

No.  ISIS attacks “us” because we attack them.  Sure, we may be on the right side of the law, but at least we should acknowledge our part in this two-way cycle of violence.

Time and again, terrorist attackers make their motives clear.  When Jihadi John beheaded US hostages, he specifically said that it was a punishment for US airstrikes.  Abdelhamid Abaaoud, the mastermind behind the Paris attacks, did not choose Paris at random.  The French military had personally targeted and tried to kill him the month before.  Why did ISIS take down a plane full of Russian passengers?  It’s not a coincidence that Russia had just begun a series of airstrikes against Syria.

And if ISIS wants to retaliate, what else can it do?  Our military is invincible and invisible.  ISIS cannot strike down drones.  We have no soldiers to shoot.  Its only option is to strike at “us”, the people, in hopes that we will cave in and implore our governments to leave ISIS alone.  Welcome to 3rd-millennium warfare.

Islamists’ war was not about us until we intervened.  Jihad is fundamentally about Asian / African governance.  ISIS, Boko Haram, al Qaeda, al Shabaab, Hamas, and Hezbollah are primarily interested in toppling secular dictators, changing borders, and establishing a caliphate.  Some of them have serious problems with Israel.  Beyond that, they don’t really care about the outside world.  In fact, ISIS is the only one particularly active outside its territory.  They only attack outsiders to keep us out of their turf, especially in retaliation for intervention.

Our news cycles are dominated by terrorist attacks.  Somehow, we don’t seem to be as aware of our side of this fight.  ISIS is being pummeled on a daily basis, reports Chris Jennewein of the Times of San Diego.  Some airstrikes are more justified than others.  Last month in Iraq, coalition bombers killed 300 ISIS militants, one of the most successful air attacks to date.  But last week, an errant US airstrike killed maybe 100 innocent civilians in Syria.  One way or the other, these attacks are sure to breed counterattacks.  The cycle never ends!

The website AirWars is a very interesting journalism project keeping track of coalition attacks.  You can find breakdowns by coalition country or by year, and even daily news.  I think it is important to stay apprised of our own activity.

Right or wrong, this is the cause of terror attacks against North America and Europe.  It’s not just random cultural hatred or religious insanity.  It’s a cycle of violence.  At the very least, we should understand the reason for these retaliations.  Only then can we decide what to do about them.

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US Diplomacy with Iran, Cuba https://scotsthoughts.com/us-diplomacy-with-iran-cuba/ Wed, 17 Aug 2022 18:48:08 +0000 https://scotsthoughts.com/?p=357 Originally posted 4/12/15 on TheEvolutionOfHuman.com, the precursor to HLGTW.com The ongoing saga of the “Iran nuclear deal” is difficult to follow for the casual news watcher.  It never seems to end.  Israelis, Saudis, and US Republicans oppose it without explaining which terms they are against, or what they would like to propose instead.  The opening […]

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Originally posted 4/12/15 on TheEvolutionOfHuman.com, the precursor to HLGTW.com

The ongoing saga of the “Iran nuclear deal” is difficult to follow for the casual news watcher.  It never seems to end.  Israelis, Saudis, and US Republicans oppose it without explaining which terms they are against, or what they would like to propose instead.  The opening of diplomatic relations with Cuba is also hotly debated.  But these are positive developments in two ways.  First, in the true spirit of a contract or treaty, the Iran nuclear deal offers something positive for both sides.  Second and more broadly, this recent trend indicates an opening of communications between geopolitical enemies.  Obama’s belief in “talking to the enemy” has been one of the most controversial elements of his presidency.  With a perspective outside of political bias, I agree that it is the right course.  Communication is healthy for international relations just as it is for personal relations.  This has already been proven by Republican presidents Nixon and Reagan.  At the very least, communication humanizes the enemy.  The US and the West should continue the policy of talking openly to its adversaries – Iran, Cuba, North Korea, and more.

The Iran Nuclear Deal in a Nutshell

Iran has a large nationwide program of uranium enrichment.  Enriched uranium can be used either for nuclear power plants or (at much higher concentrations) nuclear weapons.  Obviously, nobody would like to see Iran develop an arsenal of nuclear bombs.  Thus, the primary interest in the West is to keep Iran free of weapons-grade uranium.

To put pressure on the Iranian government – for nuclear activities and other reasons – the US has “boycotted” Iran with trade sanctions since the revolution of 1979.  The UN and EU followed with major sanctions in the 21st century.  Other nations have imposed minor sanctions as well.  The sanctions have had their primary intended effect of making it difficult for Iran to develop nuclear weapons.  However, they have also had a major impact on Iran’s overall economy, including high inflation and a current unemployment rate of well above 20%.  After four decades, these actions directed against the Iranian government have made life very difficult for ordinary people throughout the entire country.  This is bad not only for Iran, but for perpetuating Iran’s negative perception of the outside world.

For decades, the US and Iran’s mutual strategy was to be strong-headed and hope to win a battle of wills.  The US hoped that sanctions would eventually cripple Iran to capitulation; lifting sanctions was not an option.  Iran felt that it had no choice but to arm itself into a stronger position; nuclear enrichment was non-negotiable.

Diplomatic overtures began in 2003.  Iran offered to negotiate a middle ground.  The US refused, after which Iran vastly increased its nuclear enrichment program.  A decade later, after UN and EU sanctions had strained Iran even further, a tentative agreement was reached between Iran and a multinational coalition representing the US, UN, and EU.  The gist of the agreement was very simple.  In exchange for sanctions relief, Iran would limit its uranium enrichment to peaceful purposes, and open its nuclear energy program to international monitoring.  The 2013 agreement gave Iran and its negotiators time to work out a “framework,” and then the details of execution.  A framework for such a deal was reached last week, in April, 2015.

The agreements of 2013 and 2015 are historic and significant.  This is the first time that Iran has offered any sort of concessions on its nuclear program.  The agreement-in-progress includes important provisions allowing the International Atomic Energy Agency (IAEA) to inspect Iran’s uranium industry closely.  Easing of sanctions would make life better for average Iranians.  It would also start to open the Iranian market to many importers and exporters around the world.  Until Iran proves its commitment to the deal, the most important sanctions (those related to uranium and military imports / exports) would remain in place.  In short, there would be clear benefits for the global economy and safety.  This is an important step forward.

As the deadline for the framework approached, the “nuclear deal” became hotly controversial.  Iran’s greatest regional enemies, Israel and Saudi Arabia, oppose the idea of negotiating with Iran.  They are not part of the current talks.  In the US, the Republican Party follows Israel’s lead.  Interestingly, opponents of the talks are very vague about exactly what they oppose.  Benjamin Netanyahu argues that the deal would only favor Iran, “without receiving anything tangible in return.”  He does not acknowledge the value of Iran’s changing stance, from defiance to compromise.  US Republicans complain vaguely that the deal is not tough enough, that it should insist on more enrichment curtailment while offering less sanction relief.  Essentially, what they are arguing for is a repudiation of negotiations altogether; they believe in principle that the US should continue opposing Iran with brute force instead of diplomacy.  I have not heard Republicans propose specific alternatives to any of the deal’s terms.  Keep in mind that congressional opponents are not the same people who are involved in talks.  The negotiators have had years to get to know specific Iranians, their attitudes, needs, and points of flexibility.  Third parties are expressing opposition for opposition’s sake.   Israel and Saudi Arabia’s stance is apparently, “If Iran is for it, we’re against it,” while Republicans feel, “If Obama is behind this, we won’t allow it.”  Some Republicans raise a legitimate point about which branch of government should be involved in the negotiations.  That’s for Congress and the White House to wrestle over.

Cuban Diplomacy

The relationship between the US and the Castros has always been rocky.  After Fidel Castro’s first few aggressive years in office, the US imposed a particularly strong embargo against Cuba and cut off diplomatic ties.  It can be said that this only made matters worse.  Shut off from the US, Cuba turned to the USSR for oil, money, and defense, setting the stage for the particularly bad crises of the 1960s.  Even after the USSR collapsed and Cuba went into depression, neither nation made a move to mend fences.  Talks have only resumed under Raul Castro’s administration.  A trickle of trade is now being allowed, and there is talk of reopening the embassies.  An open channel of communication could even lead to an easing of the embargo in exchange for Castro concessions.  Again, there could be something good in it for both sides.  Nevertheless, of course there is some opposition to these gestures of peace too.

Aside from some matters of asylum, political prisoners, and allying with other dictators, the Castros have not actually posed a threat to the US since at least 1980.  They have just been corrupt dictators in their own nation.  Most of the pressure to shut them out comes from two sources: Cuban-Americans who have family left behind on the island, and those who once again misunderstand the purpose of communication.

To communicate does not mean to condone.  Yes, Fidel Castro wrongfully took his country by force, seized US assets, and harbored Soviet nuclear weapons.  By all accounts, the Castros and their government never should have been in power.  But let’s face it, they are awfully entrenched there.  What are we going to do about it?  Ignoring them has not proven very effective at accomplishing anything.  The US embargo, like the sanctions against Iran, has a strong grip on Cuba.  It is obviously not squeezing the Castros out of power, and is hurting ordinary Cubans more than the government.  The UN recommends lifting it.  The embargo’s greatest value now is as a bargaining chip.  In this century, the US’s main goal is to see a Cuban transition to democracy, at least after the Castros’ death.  Maybe the best way to get Raul to listen to what the US has to say is for the US to listen to what he has to say.  It sounds like he could be willing to negotiate some democratic reforms in exchange for some economic relief.

Upshot

If a man were having serious problems with his boss, a neighbor, or his wife, most people would give the same advice:  Talk to her!  Whether it may be at the dining room table or in pre-trial litigation, at some point they need to figure out how to end the conflict without hurting each other.  That’s still true if the neighbors-at-odds are governments – even bad governments.

The alternatives to communication are recalcitrance, failure to understand each other, demonization, retribution, and violence.  Negotiation can be difficult, because it requires compromise.  But the very act of negotiation, even the willingness to negotiate, can facilitate a mutually agreeable position.  And communication does not necessarily have to mean negotiation or validation.  Formal discussions force each side to identify specific points of contention, rather than reacting emotionally to each other.

Iran is willing to cap enrichment and open its nuclear industry to inspection.  That’s worth an easing of sanctions.  The Castros have not threatened the US in decades, and they are willing to normalize relations.  That’s worth meeting them in the middle.  I think we’d all prefer to have international seats at the table when discussing a post-Castro Cuba.

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