Since we're on the topic, shouldn't this (hospital admissions) be the almost singular criterion to influence public policy / restrictive measures?
The line I've heard repeatedly is we're waiting for "total" herd immunity, as in ensuring almost all of a population is potentially protected from the virus. Frequently quoting fall / end of 2021, potentially into 2022.
Shouldn't the only benchmark be those with medium-to-high risk of hospitalization? (Determination of risk however you'd like to do it.)
Put another way, you wouldn't shut the world down if a bunch of people got sick for a few days. You may, and indeed we have, shut it down if a large part of the population were at risk of hospitalization or death. In many developed countries, that population is looking at full inoculation (for those who want it) sometime this spring.
> Since we're on the topic, shouldn't this (hospital admissions) be the almost singular criterion to influence public policy / restrictive measures?
Given the high correlation between COVID# cases (or %Positive) and hospitalizations, why not just use COVID# and "gain" 2 weeks of information?
Hospitalizations are weeks delayed from COVID# or %Positive spikes. Its a slow moving disease: taking 5 to 14 days before people feel sick, and then a week or two AFTER that before people decide to go to the hospital.
As such, if you see a spike of hospitalization, you're already 3-weeks late to the results (ie: hospital spikes are associated with infections that occurred 3+ weeks ago).
In contrast, watching COVID# or %Positive numbers gets you much closer to the ~5-14 day period where symptoms appear (and thanks to contact tracing, some people may test themselves before symptoms arrive: gaining a few precious days in the information war). Hospitalizations and Deaths are strongly correlated (with a few weeks delay). So you're effectively gaining a week-or-two worth of information.
Its better to be only 1-2 weeks behind (watching COVID#), rather than being 3-4 weeks behind (watching Hospitalization#).
> Given the high correlation between COVID# cases (or %Positive) and hospitalizations, why not just use COVID# and "gain" 2 weeks of information?
Because it is not given and - if given - is not reassuringly close to 1. Correlation is positive, alright. But if you calculate hospitalization as percentage of cases, even adjusting for a lag, it is far from constant. Eg in Canada this ratio was 6x time higher in the first wave than in the second. It strongly depends on testing policies and hospital admission criteria.
Sure, over the whole run of the pandemic the case count has to be adjusted for changes in the testing regime. But in many countries the testing has been reasonably constant for many months, so the case count is a good indicator of the state of things.
The most vulnerable people are being vaccinated right now, so we should expect (hope?) that the number of hospitalizations and deaths will decrease significantly even if the number of cases does not.
I'm curious about your data set. The correlation of cases to deaths using data from covidtracking.com for the US over the past year is 0.28-0.3 when I ran it. I slid it by two, three and four weeks.
I'm not sure that a simple sliding correlation really captures how treatments, protocols, and behaviors have changed over time. Leaving aside the winter holidays case peak (which is much more multi-modal than the others), I see two peaks:
* A peak of cases around Apr 11, followed by a peak of hospitalizations on Apr 22, with a peak of deaths also around Apr 22.
* A peak of cases around Jul 22, followed by a peak of hospitalizations around July 26, followed by a peak of deaths around August 4.
If I were going to do a more detailed analysis, I would want to try breaking out individual states/counties (subject to some reasonable population minimum), such that multiple distinct trends nationally don't interfere with each other in the data.
Totally agree. I ran it for New Jersey with the similar results, but it is brute force. Scratching the surface quickly leads to many more variables. For example, more testing would lead to more cases. Then, of course, we'd need to look at how the testing was done (eg random or hospital entry) and what test it was.
I really wish that stochastic testing were discussed more seriously.
> Given the high correlation between COVID# cases (or %Positive) and hospitalizations, why not just use COVID# and "gain" 2 weeks of information?
As we vaccinate the people at the highest risk of hospitalization, the correlation will change: Numbers may stay very similar, but hospitalizations should go way down.
This, and also hospitalizations are a less exploitable metric. Self-selection bias isn't much of a problem, and the number of tests being done doesn't influence the results.
I would look at either hospitalizations or deaths once vaccinations reach a large percentage of the population.
> As we vaccinate the people at the highest risk of hospitalization, the correlation will change: Numbers may stay very similar, but hospitalizations should go way down.
Then we'll know in 2 weeks to change the policy and account for it.
Note that vaccinations will *also* cause the %positive and case# to decline. USA is approaching 15% vaccinated at over 95% efficacy means that you'll have 15% fewer cases (as well as 15% fewer hospitalizations later on). I'm not convinced that cases will become desynchronized with hospitalizations: my expectation is that vaccination will cause a decline in both case# and hospitalization#, roughly in proportion.
But if case# and hospitalization# become less correlated, then it won't take long (~2 weeks to see the first effects, maybe 4-weeks to be sure of the effects) to see such a split in the time-delayed correlation.
When you have a vaccine that's both 90% effective at stopping the spread and 95% effective at stopping hospitalizations, then the spread and hospitalization numbers will both go down severely (that is: #cases and #hospitalizations reported both go down).
This assumption that #cases and #hospitalizations will become "desynchronized" isn't necessarily written in stone. Its possible both numbers drop down dramatically in the coming weeks as vaccines are distributed... indeed, its highly likely IMO.
Pretty much all countries are distributing vaccine to the elderly / at-risk population first. We're doing that for the obvious reason that the most-at-risk population is most-at-risk, and thus most at risk of hospitalization.
Concretely, that means hospitalization rates should decline a LOT faster than community spread. This is going to be less visible in countries that have their shit together and are able to vaccinate very fast / have already moved on to genpop, but in most of the EU (sigh), we've just finished vaccinating care homes and 75+. So now, a couple of weeks from now, we should see hospitalization numbers sharply decline because that share of the population represents the most hospitalizations, and will now be mostly immune.
So despite being at like, 5% total vaccinated, we should see a decline in hospitalizations of up to 75%.
Furthermore, given that most of the spread happens outside the most-at-risk in the first place (since those most at risk were those with the most protective measures before vaccines), 5% vaccinations should not mean 5% less cases total.
The #1 group in the USA was not "at-risk" population, but doctors, nurses, and other front-line staff. The idea is that these groups are seeing many, many COVID19 patients and therefore have a big risk at spreading the virus around.
Once this "Priority 1A" group was vaccinated, then age 75+ individuals were vaccinated in Priority 1B. Even then, Postal Office employees and Grocery Store workers (other "high impact" workers) are in the 1B and 1C prioritization queues.
With efforts being to reopen schools, 1B also includes school-teachers (stop-the-spread focus). So a 21-year-old healthy school teacher is prioritized over a 67-year old obese person (despite the 67-year old's higher risk factors).
---------
So at least in the USA: there's a significant effort being placed on high-impact "stop the spread" kind of vaccination effort. There is an element of "save lives", but stopping the spread also saves lives. So its a difficult calculus. (USA has some risk-factor prioritizations... 1B with 75+ age, and 1C with 65+ age + comorbidities like obesity. But again, Grocery Store workers are in 1C as well).
I realize other countries have different priorities. But hey, I live in the USA so my understanding of things will have a USA-slant. These 1B / 1C things are also CDC recommended. Different states (like Texas) are more aggressively stop-the-spread than CDC guidelines (while other states may lean more towards risk-factor based "save lives / prevent hospitalizations"). 50-different states, 50+ different policies. Welcome to America.
To take directly from the CDC [0], "Other essential workers, such as people who work in transportation and logistics, food service, housing construction and finance, information technology, communications, energy, law, media, public safety, and public health."
No, it's not. It's “essential workers”, which isn't everyone in the listed sectors but people in the listed sectors whose work cannot effectively be done remotely; approximately, the people that were exempted and allowed to work on site during the strongest lockdowns, where they occurred at all.
> Doesn't that cover pretty much everyone on HN ?
Probably not; lots of people on HN are probably in jobs that can be and are being done remotely. Even if it did, “everyone on HN” and “everyone” aren't the same thing.
I disagree, "everyone" isn't too much of a hyperbole. The system is gamed and most of the "essential workers" aren't essential in the sense their work could be done fully remote. I work for a large corporation and we were all deemed essential workers. The employees shifts in office are rotated so that it's not a full capacity at any given time. I know a handful of other corporations doing the same thing.
Outside of big corporate tech, I also know a bunch of people working 100% remote but already got vaccinated because they are an employee of pharmaceutical/medical company and qualify as health care workers.
We can be pedantic on how a 1C essential worker isn't everyone but it is a huge percentage. Maybe my sample of people I know in the Bay Area is too small but at least half of my friends can classify as 1C.
> No, it's not. It's “essential workers”, which....
Not to be impolite, but _I am absolutely correct_.
See here [0] for the detail, on which I quote, "in Phase 1c, persons aged 65–74 years, persons aged 16–64 years with high-risk medical conditions, and essential workers not recommended for vaccination in Phase 1b should be offered vaccine."
Further, if you read the double asterisks note at the bottom of that page, you'll see this, "On December 20, 2020, ACIP voted 13 to 1 in favor of the Phase 1b and 1c allocation recommendations."
Finally, if you look at the chart on the lower half of the page, you will see that _group 1c includes 199 million people_ (32 + 110 + 57 ), which is, after the 75 million people in groups 1a & 1b, darn near everyone.
So if you think I'm wrong, offer proof, not an interpretation. With proof, I'll gladly admit error, but the facts are very clear.
> Second, shouldn't the focus be #1 - stop deaths; #2 - stop hospitalizations; #3 Stop the disease (which is what "spreading" actually is)
Because stopping the disease implicitly stops the deaths and hospitalizations, its not very clear that a focus on deaths-only or hospitalizations-only is optimal.
Especially when you consider that the disease will continue to mutate as it exists (possibly making our vaccines less effective or even obsolete). So stopping the disease first-and-foremost might be the most effective way to stop deaths/hospitalizations (especially when mutations are considered).
--------
Turning the R-value from 1.5 to 1.3 means a 14% decline COMPOUNDED PER GENERATION. After one generation, its 14% fewer cases (and 14% fewer hospitalizations and 14% fewer deaths). After two generations, that's 25% fewer cases (and 25% fewer hospitalizations and 25% fewer deaths). After three generations, its 35% fewer cases (and 35% fewer hospitalizations and 35% fewer deaths). Etc. etc.
As such, "stopping the spread" has a benefit that grows exponentially every week or two (the generational period of this virus). Exponentially growing its results and efficacy.
Keeping our eye on the bigger picture, it seems like stopping the spread is the best way forward to stop deaths and hospitalizations. I realize this is a bit "splitting hairs" (compared to people who would rather "save lives" and focus on hospitalizations and/or deaths). But... it seems like the superior strategy in my opinion.
...meaning that to reduce the number of cases evenly, we'd have to choose people to vaccinate by random, but we're not doing that; we're choosing by risk, and those at higher risk of severe disease are less likely to contract an infection because they move around less and meet fewer people.
However, we could speculate that perhaps we should in fact put more priority on the groups that have most infections, not highest risk? Because the restrictions impact their lives (of young people) most.
However, I'm quite sure that the priorisation of old people will continue, except possibly in places where priorisation is done by money (the rich purchasing vaccinations).
> hospital admissions) be the almost singular criterion to influence public policy / restrictive measures?
From a control theory perspective, it's one of the worst measures because it's delayed. Much more efficient to measure cases - then you don't need restricted social life as long.
It's an important metric because earlier indicators aren't as useful. The rate of new cases is tricky because we don't really care if someone gets COVID-19 anymore than we care if they get the common cold, assuming they have only mild symptoms and fully recover. Hospitalizations are the first unambiguous metric we have to know there is a serious problem that may require a dramatic response.
> It's an important metric because earlier indicators aren't as useful.
Sure they are. They're less precise, but they're more useful, because they're more likely to let you combat the spike before it gets out of control.
It's like a smoke alarm. Maybe it's going off because it's over-sensitive and someone just took a shower... but it's a better early warning system than waiting for active flames to appear.
You use cases to determine if you need to react to stop spread since you get results faster. You use hospitalization to determine the time-lagged efficacy of your interventions since it is more precise. What is more useful depends on what you are trying to get out of it. In this particular case, we are discussing the efficacy of vaccination and how that might influence restriction lifting, so you want to err on the side of caution and accuracy and use hospitalization.
I agree, but once vaccinations are widespread and we are confident that severe illness will be very rare, it would be hard to take drastic measures based only on the rate of new cases. There could be a huge surge of cases but we would expect a low hospitalization rate, so we would likely want to wait.
Immunity through vaccination + natural immunity is getting closer to 'widespread' now (in the US). We are likely near 30%, and of that 30%, a growing proportion is the most vulnerable sections of the population. A spike in cases now would be increasing less connected to a future rise in hospitalizations. I think its fair to say, that if we do not see a spike within the next 3-4 weeks, we are in the clear for future spikes. By April 1st, we should be nearing 40%, with the difference primarily being now vaccinated old and immune compromised people.
But once enough people are vaccinated, the pattern may change. For example, you may still catch quite a lot of cases through PCR testing which is very sensitive, but the share of asymptomatic cases will be much higher and the share of people who are going to suffer a severe case much smaller.
The entire societal signature of the disease will change depending on vaccination levels and maybe even particular vaccines used.
The point isn't that we use hospital admissions as a metric to infer cases or some other metric, it IS the metric that matters. The problem over the last year wasn't that there exists a person who is at risk, it's that there didn't exist any healthcare system capacity to treat them.
From very early on in the pandemic, it seemed to me like our goal for optimal balance between caution/risk was to try and maintain the highest level of hospital occupancy that is sustainable. If every single person quarantines perfectly, then our hospitals are empty, but so is every business. If no one quarantines, our businesses are full, but so are hospitals and everyone's viral load; i.e. maximum mortality.
With the vaccines now available, it seems like our goal should still be be to maintain the highest level of sustainable medical system occupancy.
Call me a renegade, but I think the only goal should be to minimize the total number of deaths from Covid. Trying to maximize sustainable medical system occupancy is almost certainly not aligned with the former goal.
No perfect solutions there. If there was perfect quarantine, we would still lose additional lives from suicide, domestic violence, etc. from the increased stress. There is definitely a balance to be struck, and making sure we have capacity to treat all of the sick seems to be as good as any.
Yeah, making sure we have capacity to treat anyone sick is certainly one of the highest priorities (and the reason there was such a scramble trying to contain the virus from wreaking havoc if we went past that). And I get that there are other "costs" to the virus and lockdown and a holistic, balanced view is useful. Heck, I have two young children who have been remote schooling for almost a year now while both parents work full-time.
I just object with the parent's following statement:
> With the vaccines now available, it seems like our goal should still be be to maintain the highest level of sustainable medical system occupancy.
If we are still trying to maintain the highest level of sustainable medical system occupancy while the percentage of population that has been vaccinated is slowly increasing, it would actually mean we are doing a horrible job in trying to limit preventable deaths when a fully vaccinated populace + herd immunity is not too far away. Maybe when a much larger percentage of the population is vaccinated, the spread and rate of deaths will be low enough that this may change, but we are still nowhere near that stage.
I agree completely. The only reason they used for shutting everything down at first was so hospitals don't get overrun. That's clearly not happening right now in most places. Also, it's not uncommon for the flu to cause hospitals to exceed capacity and we don't shut down for that.
> was so hospitals don't get overrun. That's clearly not happening right now in most places
Citation needed.
Up to 3 weeks ago, California, the Southeast were in field hospital territory.
Anecdotally, Alabama hospitals have been in overflow since July.
Georgia re-established a field hospital in January at their conference center [1] hospitalizations only stopped dropping beginning at the end of January
The link you sent doesn't have these numbers, but many metro Atlanta hospital systems are still diverting patients from their emergency rooms (because they are full). There is currently an operational field hospital being run at the convention center. The field hospital was still operational as low the weekend.
You can see ER status by hospital here: https://georgiarcc.org . Flip through the counties where most people live and you'll see a lot of full ERs.
You should choose another region to support your argument, it's not going so well here in Georgia right now.
This is what I found bizarre about NZ's approach. Their goals was 0 _cases_ in the entire country. It's a great accomplishment but perhaps unnecessary.
Because zero is magic. If you know your number of cases doubles every week when you aren't locked down, it seems as though it hardly matters what you do right? Five cases, six cases, ten cases, it's going to get out of control no matter.
But if your base is zero then double that is still zero. That's why they've pursued elimination and why it has worked.
On an island nation with an 80%+ urban population, your choice is either to aim for 0 cases, or to expect unbounded cases and new more virulent mutations (for the whole world to deal with the consequences).
This was predictable in advance, and with hindsight I still would prefer 0 cases.
At 0 cases you can fully return back to "normal" life. If you have a small amount of cases, this will always grow exponentially without countermeasures.
That's true. They do have outbreaks, about half a dozen people this time, perhaps related to a job at a laundry working with quarantine facilities.
For several days Auckland residents couldn't go to the pub.
Normally of course they can go to the pub. Or a night club. Or a packed stadium to watch sports.
But it's true that for several days last week in Auckland they weren't allowed to do that. And the same back in... September maybe? And according to you that isn't "mostly back to normal" so we can assume you believe it isn't "mostly back to normal" anywhere and never will be. That's just not a very useful benchmark.
Still, I think you're right when you say perhaps unnecessary: some countries have successfully suppressed COVID without eliminating it. That said, it's some but not many countries.
I'm a bit ambivalent. Regardless, it certainly wasn't necessary for NZ to close their border to asylum seekers.
I don't know about all states as they have different rules, but in Washington they track:
1. Trend in 14-day rate of new COVID-19 cases per 100,000 population, shown as Trend in case rate;
2. Trend in 14-day rate of new COVID-19 hospital admissions per 100,000 population, shown as Trend in hospital admission rate;
3. Average 7-day percent occupancy of ICU staffed beds, shown as Percent ICU occupancy;
4. 7-day percent positive of COVID-19 tests, shown as Percent positivity.
And there are phased reopening plans, where restrictions are slowly lifted based on different tresholds for the above. So if the above 4 metrics meet some treshold we might go into phase 2 where now indoor dining at half capacity is permitted for example. If the numbers than stay under the treshold and eventually keep going down, we'd go to phase 3, etc. If the numbers get worse after moving to phase 2 we'd go back to phase 1 with more restrictions.
Seems pretty reasonable to me. They're always kind of revising the tresholds to some extent as well, so it's not set in stone. But it makes sense for me to take a staged approach to reopening and just make sure we're truly over Covid before going all back to normal (so it doesn't come back).
> The line I've heard repeatedly is we're waiting for "total" herd immunity
It depends which line you are considering; if wearing masks yes.
If "reopening and returning to normal" that remark is most resembles a hyperbole.
In the United States, on April 16th 2020, the Coronavirus task force outlined a 3 phase plan dependent on 3 criteria based on 2 week averages
1) Hospital Vacancy,
2) New cases decreasing (from where they were), and
3) Percent positive testing rate under 10% (that suggests that the tests numbers are close to accurate and not in community spread)(5% is the standard that Europe uses as a liberal goal, 2.5% is the recommended)
For an answer on those 3 in the US (today)
1) Hospitals are just now where they were on April 16
2) New cases is about 3x where they were April 16
3) We've been under 10% since 1/21 (now at a 7 day average of 5%)
So the goal posts haven't gotten harder. They did get easier; restaurants shouldn't have been open for socially distanced dining based on the plan until 1/21.
> You may, and indeed we have, shut it down if a large part of the population were at risk of hospitalization or death
I wouldn't really call 1% of the population "a large part" of it. It's just, our healthcare capacity relative to the size of the overall population is miniscule. So even a disease that threatens .1% of the population with death and 1% with hospitalization is enough to overwhelm the healthcare system. And apparently policy makers aren't willing to let people die due to overwhelmed hospitals - they would rather shut down the entire economy than let that happen.
History will tell if that was the right decision. Almost nobody notices or remembers blips of abnormally high "excess deaths" for a particular year, but everyone notices and remembers economic depressions that last a decade.
> So even a disease that threatens .1% of the population with death
The IFR for COVID is likely ten times that, at least in societies with decent numbers of older people.
> Almost nobody notices or remembers blips of abnormally high "excess deaths" for a particular year
This isn't a bad flu season in a 5 year cycle. The excess deaths caused by COVID last year are not just 'abnormally high'. They're more like once in a lifetime abnormally high.
> The IFR for COVID is likely ten times that, at least in societies with decent numbers of older people.
Right I purposely picked a disease less deadly than covid that could still overwhelm the healthcare system
> This isn't a bad flu season in a 5 year cycle. The excess deaths caused by COVID last year are not just 'abnormally high'. They're more like once in a lifetime abnormally high.
Right, and I still maintain that those excess deaths will be largely forgotten within the next few years or so by the majority of the populace. 500k excess deaths in 2020 followed by several years with fewer than normal deaths (since an abnormal amount of old people that otherwise would have died weren't around to die). Great Depression 2.0 on the other hand is something that wouldn't be forgotten for a lifetime for the people that live through it.
This kind of cavalier attitude towards half a million people dying bothers me, particularly when it’s very likely that our death totals are significantly higher than they could have been with better adherence to guidelines, better guidelines to begin with, etc. Those excess deaths won’t be so quickly forgotten by people who have lost family and friends.
Should we be pragmatic in public policy? Of course. You can’t prevent all the deaths, and we’ve got to keep individuals and businesses afloat as well as we can. But we need to go into these discussions with clear eyes about the real cost that each of those lost lives represent, both in a compassionate sense and in a practical sense (a not insignificant proportion of those dying were still working, still contributing to society, were young with many productive years ahead of them, etc.).
I really don’t think we’ll look back on this and think, “Eh, a half a million people died, oh well,” particularly not with a more historical lens, but I could definitely be mistaken.
> This kind of cavalier attitude towards half a million people dying bothers me
> I really don’t think we’ll look back on this and think, “Eh, a half a million people died, oh well,”
Well, we look back on the past 2 decades (2000-2020) and think "eh, 700k+ people (mainly the elderly) have died from influenza, oh well." But actually most people don't even think that. Most people just... don't even keep track of how many people die of the flu because they don't care. Why would covid be any different 20 years from now? To be honest most people probably wouldn't even care how many people were dying of covid if the media wasn't shoving the statistic in everyone's face 24/7. Just like most people don't care to know how many people die in the USA per year in general (~3 million) and what the breakdown of those deaths are in terms of causes.
35k per year from influenza is literally an order of magnitude less than the current death toll (but we should still take it seriously! I hope COVID normalizes masks during flu season). You or I are much more likely to know or be connected to someone who died of COVID this past year than of the normal seasonal flu in any given year.
675k Americans died in the 1918 Flu, and we’re still talking about that one. We may very well surpass that in raw numbers (although not in percent of population) with COVID.
And lots of people care about the 3 million people that die every year! We’re constantly trying to make driving safer, investing in new therapies for heart disease and cancer, etc. I’ve seen many articles about the increase in suicide in the US over the past decade, written with the hope of stirring action and driving change. There’s no reason to accept potentially preventable deaths as a matter of course.
> 35k per year from influenza is literally an order of magnitude less than the current death toll
But it kills consistently year after year, decade after decade. Influenza has been consistently killing for how many years in a row before covid showed up? So really, the "current death toll" of the flu is in the many millions by now. Unless you reset the count after every year in which case covid's death count doesn't get to keep ticking up forever either and needs to reset to 0 at some year boundary.
> 675k Americans died in the 1918 Flu, and we’re still talking about that one.
And in 1918 America had less than one third the current population. 675k out of 100M is way deadlier than 500k out of 350M. Also we weren't really "talking about it" until very recently. Prior to 2020 almost nobody talked about it except people who study public health.
> But I did and we learnt that the 1918 flu killed more people than WW1.
Hmm, but I would argue there's a difference between young healthy people dying en masse (war) and mainly the sickly and elderly dying (pandemic). It feels awfully utilitarian to distill it down to this, but I'm sorry, a healthy 18 year old dying from a bullet is way worse than a 70 year old dying of a disease, especially from a "years of life lost" perspective.
In my view, with covid, it's mostly the elderly that got a few years cut short, but most of them would have died within the next decade anyway of something else (including "age") and I predict we will see "negative excess deaths" in the coming years for that very reason.
Same! And on top of this, 500k is more Americans than died in WWII. It’s true the proportions are a bit different due to population growth, but we can’t pretend like it’s anything but a staggering number of people
> I really don’t think we’ll look back on this and think, “Eh, a half a million people died, oh well,” particularly not with a more historical lens, but I could definitely be mistaken.
It's generally a political challenge for a free society to get the power and the megaphones back from the people they were given to during a crisis.
After an acute terrorism threat ends, it's hard to get power back from the military and the police.
In this case, it will be hard to take back power and the narrative from the public health establishment.
While they perform a crucial role in our society, they will tend to value safety over freedom and quality of life to an extent that would be crippling if we let them continue to set the agenda after the acute phase of the crisis has passed.
Is this a joke considering the vast majority of Western countries have basically ignored their “public health establishments” for almost all of the past year? Ironically (or not) the only country that has really followed their “public health establishment” until recently was Sweden. Which isn’t surprising because theirs was the only one not asking the government to make tough choices.
> In this case, it will be hard to take back power and the narrative from the public health establishment.
Sitting in California where county sheriffs basically comprehensively vetoed the public health establishment throughout the crisis, I don't see that likely to be a real problem.
That didn't stop thousands of businesses from being closed.
But regardless, the narrative is just as important. After some threshold of vaccine distribution, people need to be convinced that it's ok to return to normal life, and that they don't need to cower in fear in their homes or wear masks for years and years just because we haven't completely eliminated covid. There's a cost to all of this.
> After some threshold of vaccine distribution, people need to be convinced that it's ok to return to normal life, and that they don't need to cower in fear in their homes or wear masks for years and years.
No one has suggested people should cower in fear, and people seem pretty happy going about without masks, or with masks worn in an openly defiant manner (under the chin, off of one ear, etc.) in public places with prominent mask mandate signage today, so, again, I don't think the issue you are alluding to is even remotely serious. As a society, whatever the formal provisions of law say, we haven't given public health authorities the power in practice that you argue we will have problems with when we need to take it away.
All the "long covid" stuff is essentially fear mongering. There's no science behind it.
The implication is that everyone should be terrified, stay home as much as possible, and wear masks as long as there's any chance of catching covid. Even after being vaccinated.
Sure, people flout the restrictions, and they are met with social disapproval for doing so.
The worst thing is the hugely negative psychological effect this is all having on children. It shouldn't be taken lightly.
> The implication is that everyone should be terrified, stay home as much as possible, and wear masks as long as there's any chance of catching covid. Even after being vaccinated.
Apparently there is insufficient data to back up that the vaccine reduces transmission. That much is mostly true. It doesn't seem like they're trying particularly hard to find out.
Why are we not studying unvaccinated household members of vaccinated individuals and comparing with household members of the unvaccinated. Could be as simple as adding a data collection step after receiving a test result, given that it's pretty much a given you will infect people you live with we should notice a large difference very quickly.
> All the "long covid" stuff is essentially fear mongering. There's no science behind it.
That's not true. Studies are showing large fractions, say 10-25% of COVID patients are suffering symptoms after a month.
COVID infections have demonstrably damaged pretty much every organ in the body.
That's very different from the initial assumption, whence all policy, that COVID is like the flu, and passes in two weeks if it doesn't kill you.
> Even after being vaccinated.
However, these vaccines are stupidly effective. Once enough people are vaccinated, COVID will die out in the community, just like measles. You're right that we can't fear COVID forever.
I believe that the flu causes more long term damage than people give it credit for. For example, here's a paper talking about the flu and heart swelling: [0]
> During the Sheffield, England influenza epi-
demic from 1972 to 1973, the cases of 50 consecutive
patients who were initially diagnosed as mild cases
and were treated on an outpatient basis were followed.
Transient electrocardiogram (ECG) changes were seen
in 18 patients, and long-lasting changes were seen
in 5 patients.
It could be that the flu is worse than covid in this regard, the few studies I looked at were surprising/sobering. They were talking for years about "long-flu" after the 1918 pandemic.
Until we have numbers to back it up I would not make the assumption that covid is any worse or different in this regard. Conventional wisdom is that every virus that attacks the body leaves some people with long term lung, heart, and or brain damage.
It's not surprising that when a disease almost kills you, it (or the medical interventions that saved you) might leave your body in bad shape.
But this is being spun to imply that it's a serious threat to people who are otherwise in extremely low risk categories for severe covid. There's no solid evidence for that.
> But this is being spun to imply that it's a serious threat to people who are otherwise in extremely low risk categories for severe covid. There's no solid evidence for that.
It's a numbers game.
When hundreds of millions of people are infected, you're still going to get a lot of hard hit people in 'low risk' categories, aren't you?
Yes, just like a lot of people die in car accidents every year. People have always been willing to take some risk for the sake of freedom and a better life.
The lie here is that it's anything other an extremely minor risk for the large majority of people.
So far there was a tight coupling between the number of positive tested people and the hospitalisation count. It was important to base politics on the positive test results because they are several weeks "ahead" of the hospitalisation trend. It would have been foolish to not use those weeks for necessary actions.
Now, with the vacinations, things change a bit. As soon we can show a significant reduction in hospitalisation, of course this needs to taken into respect. But with the vacinations, I would also expect the infection count to drop, as there are good indications that the vacinations reduce the infection count to drop.
I know somebody who's had this. Despite never being hospitalized, after getting sick they had to take a long medical leave from work in hopes of getting their strength back. That's worlds away from "sick for a few days".
I have been following "long COVID" reports. Firstly, much of the mass media coverage is misleading, often intentionally so in pursuit of clicks and advertising revenue. A lot of the people claiming to have debilitating "long COVID" were never actually tested positive for COVID in the first place. They are the broadly the same demographic that, before COVID, were claiming to have "chronic Lyme" or whatever. Certainly mainly of them do have symptoms and distress, but it is questionable what relationship they have to COVID.
Then, if one starts digging into more serious discussion – even your link above – one finds that "long term" in medical parlance may mean a series of months but not necessarily years, and similar months-long impacts are known from diseases that we have generally tolerated among society. It also isn’t clear that these lingering symptoms affect enough people to impact the economy if measures are lifted once hospitalizations fall.
Yes, indeed, the various studies (and yours is a typical example) show mainly an older demographic reporting symptoms stretching into months, and include the observation that it was mainly (even if not exclusively) a severe course of the disease that preceded lingering symptoms. But a lot of the attitudes that restrictions must be kept in place to prevent "long COVID" are held by younger people who are very afraid of coming down with the phenomenon, yet they are not significantly at risk of it according to these studies.
Table 3 and Figure 2 make it clear that the hazard ratios for patients with hospitalization and/or encephalopathy are multiples higher for those without hospitalization and/or encephalopathy.
Intracranial haemorrhage is 3-4x more likely in hospitalized patients; ~5x higher in those with encephalopathy. For stroke, 2-3x for both. For first mood disorder, 1.5x/2x more likely.
They don't break down the cross-tabs by age (as they should), but given the patterns here, I would expect to see a strong correlation.
Yes, that paper, I am familiar with. It is...quite poor (see below). But it does clearly show the age-dependence of the things they're observing.
There's far too much to get into in a single comment, but the TL;DR is that they bury a lot of important information in the supplemental materials [1] that make a strong argument that what they're observing are spurious correlations with a third factor. At the very least, this kind of statistical fishing expedition has a high risk of bias, because the researchers know the outcomes ahead of time.
Consider supplementary tables 10 & 11: these show that a large number of the "psychiatric sequelae" are correlated with the control conditions, and the effect of Covid is not significantly different (even where they are, the authors have clearly gone on a fishing expedition, which should make you skeptical).
Figures 16-21 show that the risk of a patient developing Covid is 1.5x greater if they've had a recent psychological illness. This is on par with the risk ratios discussed in the text of the paper, and indicates that the association is not necessarily causative (i.e. it's not clear if Covid causes psychiatric problems or vice-versa).
Figure 22 shows a particularly interesting series of plots, where the diagnosis rates of the control illnesses (broken bones, etc.) are plotted over time. Without exception, everything drops but Covid. It is almost inevitable that if you look at this dataset, you will find an increase in diagnosis of X after Covid...because Covid patients are being seen at much higher rates!
Overall, my interpretation of the supplementary figures is that there was an intense focus on "Covid patients" in 2020, and all other groups stayed out of the doctor's office. Covid patients were showing up in the clinic, so covid patients were the ones being diagnosed with other illnesses.
Average age 40, as you said yourself. And then as the authors of this paper find, "Risks were greatest in, but not limited to, those who had severe COVID-19."
Framing an "average age of 40" as "an older demographic" seems a bit misleading, as the average age of human beings in America is 38. We're not talking a few sickly senior citizens here (which, even if we were, I wouldn't feel justified in writing off, but it's not).
It doesn’t matter if these longer-term symptoms affect some number of people outside that older, frailer risk group. There are always statistical outliers. If the amount of younger, stronger people affected by these symptoms is small, then that weakens the case for maintaining restrictions after vaccination of the most at-risk groups.
This issue seems to be important to you personally and to others whose concerns may or may not be reasonable, but I don’t believe it will be important to most of society as vaccinations roll out and the Northern Hemisphere spring and summer are upon us.
I was talking about the innumerable "long COVID" media coverage where some ordinary person is invited to tell the whole story of how they got ill, felt terrible, and still feel terrible, but nowhere did they actually go to the doctor and get a formal positive COVID test. They are just guessing that they had this disease that was going around. And now dedicated Facebook groups etc. are popping up whose membership has complaints and claims that are extremely similar to the "chronic Lyme" groups that flourished just before COVID.
I was obviously not referring to actual scientific studies of long-term COVID effects, but as I said, those studies don’t say quite what the more sensationalistic mass-media coverage is saying.
There is a big difference between "formal positive COVID test" and "just guessing". For the case I mentioned above, tests were effectively unavailable at time of illness. But later on, multiple doctors said that from the symptoms and the follow-on illness, it was probably COVID.
Your insistence on denying distinctions like this makes you look like a person arguing a case, not somebody trying to jointly get at the truth. Which from my perspective, makes you much worse at arguing your case.
"fatigued" from not getting enough sleep or being physically active is not the same thing as folks get from diseases. When you are fatigued from children, you can sleep and take care of it. It is solvable.
It isn't like that with disease.
The worse I've had is the complete inability to stand long enough to make a simple dinner, for example, and this was after napping and sitting most of the day. I'm lucky: Mine passed. Some people live with this day after day after day, and this is more similar to what folks with disease-related fatigue.
No. People (extraordinarily healthy people) are suffering pulmonary embolisms (and thus hospitalized) weeks after they have been cleared from the virus. There is a very, very, very long tail to this disease outside of the initial 2 - 4 weeks of being sick.
Small percentages of people suffer complications from many different types of illnesses. At a certain point, human beings simply have to live with a small chance of a bad outcome from ailments that are normally mild.
This isn't some small percentage of people this is 3 - 8% [1] of people hospitalized! Despite not finding data for people not hospitalized many report suffering from and being hospitalized for failures of the pulmonary, endocrine, and digestive system.
Sometimes people have strokes from sneezing.
See I can make generalizing statements about bullshit too.
> This isn't some small percentage of people this is 3 - 8% [1] of people hospitalized
And what percentage of people that get covid are hospitalized? Let's estimate and say 3% of people that get covid end up hospitalized. 3-8% of 3% is, frankly, a small percentage of people.
You can make any percentage seem large and scary with the right framing (https://xkcd.com/1252/)
I was talking about the near future when most people are vaccinated, as we have ample proof that hospitalizations are extremely rare for vaccinated individuals.
> More than one in 10 Covid patients died within five months of being discharged from hospital, while almost a third of those who survived the virus had to be readmitted, new research has warned.
> Papers released by the governments Scientific Advisory Group for Emergencies (Sage) also revealed half of patients in hospital with the virus suffered complications, with one in four struggling when they got back home.
> Younger patients under the age of 50 were more likely to suffer complications.
I was talking about the near future when most people are vaccinated, as we have ample proof that hospitalizations are extremely rare for vaccinated individuals.
This is not a 1 in a million event. There are studies like my comment above that back this statement whole heartedly. This is a virus with proven neuroinvasive potential that affects large swaths of otherwise incredibly healthy people.
You can't compare these supposed 1 in a million events to something like doing perf testing on a 64 node raspberry pi kubernetes cluster.
In US State Ohio recently, the benchmark for restrictions was changed to the number of people hospitalized for COVID in the state. When it fell below a threshold, bars and restaurants were allowed to stay open later.
Nobody has figured out what "long covid" is, or how long it lasts. The anecdotes I've heard about the effects to the relatively young mean I'd just assume not open up.
It's preferable to have very low infection numbers, to reduce the likelihood of mutations taking hold.
Doesn't mean you go on forever waiting for 0 infections, you just wait a bit longer than the minimum number of vaccinations to go back to activities with highest risks of transmission.
That depends on how many cases you started with and how low you can get the transmission rate.
No way could the EU or USA get to zero in 6 weeks. It took Victoria Australia about 6 weeks to get from 500 cases to 20. America and Europe have a 100X more than 500 cases.
And the longer you need to lockdown, the less restrictive the lockdowns can be.
Yes, but you're still stuck with a population who remains very susceptible to the diseases. Lockdowns, as I'm sure Australia will discover, are not a complete solution to the problem.
We're pretty happy here in Australia with how few of our friends and family have been affected by COVID. Life is practically back to normal and has been this way in Sydney for a while. Vaccination roll-out started this week.
You'd be hard pushed to find a single person who would trade our state's response with pretty much any other countries response.
Everyone can empathise with wanting life to get back to normal. However the problem with folk wanting to take the individual risk is that the “low” percentage of people needing medical help can still overburden health care systems.
This potentially means that people with other illness / disease can’t / don’t see a doctor in time, and others in a society take the brunt.
Yes, let’s open up; but let’s not throw caution to the wind either.
But they haven’t. The prevailing opinion I’m seeing on HN recently is that the US didn’t do a “real” lockdown which is why there are still so many cases. They opine that Americans largely didn’t “comply” with the government orders rendering any potential positive effects from lockdowns moot.
If you take that at face value, then shouldn’t we have had an overwhelmed medical system by now?
The Denver convention center was turned into a makeshift hospital for almost a year. They never had a single patient. My relatives lost their low-paying jobs and are still jobless today.
Remember the military hospital ships that were sent to NY and LA? They never saw a single COVID patient?
At this point I just don’t see any evidence that our healthcare system overwhelmed in any meaningful way. It’s FUD.
Don’t try and post an article about how some random ICU was at 80% capacity. ICUs are designed to be near operating capacity because it’s a waste of resources to over supply.
The US Navy reports that the Hospital Ship Mercy treated fewer than 200 patients in total.
“ By the time of Comfort’s departure, the approximately 1,200-person crew and 1,000-bed hospital had treated just 182 patients, of which approximately 70 percent had COVID-19”
> The US Navy reports that the Hospital Ship Mercy treated fewer than 200 patients in total.
Mercy treated 77 patients and was not reconfigured for COVID, Comfort treated more after being converted to COVID just before local cases dropped from their peak for the wave the ship was present for.
It completed reconfiguration to take COVID patients on April 7, just before new cases in both NYC and NYS started rapidly dropping. It almost entirely missed the time it was needed.
I think they are both evidence that both the response and the systems for utilizing new resources wet optimized for the real needs, but neither shows that healthcare systems weren't overwhelmed.
This is a worldwide pandemic, not restricted to the borders of the US. People in countries around the world complied with quarantine, but their healthcare systems were still under real pressure. If they were not overwhelmed, it was a close run thing only prevented by social distancing.
Hospitals cancelled and delayed medical procedures around the world due to this: Italy, Spain, the UK, etc.
While the worst case scenarios of healthcare systems on their knees have not panned out, it’s disingenuous to suggest that the impact is imaginary or FUD.
It’s not clear to me how illustrating the flaws in one country’s healthcare system should affect the decision of another’s who hasn’t experienced the same flaws even with greater per-capita cases of the virus.
My comment was geared towards America because I’m an American talking on a forum operated by an American company.
Italy can lock down to their heart’s content- that’s their prerogative.
For an average person, Italy, Spain and the UK have better healthcare systems than the US by most metrics. The US is only better for some very obscure and exotic diseases that require expensive and rare treatments that most US citizens wouldn’t be able to afford or wouldn’t be covered for under their health care plans.
I’ve all kinds of not nice things to say about the US healthcare system but their ability to not get overwhelmed during this pandemic compared to Italy, Spain and UK is remarkable, as the parent poster (probably unintentionally) mentioned.
The problem with that sort of thinking is if you let the virus circulate and multiply you are risking mutations that are resistant to the vaccines. There already are two mutations that are already somewhat resistant to the vaccines according to initial anecdotal evidence.
But practically speaking most nations are taking this approach and have been reducing social distancing measures when hospitalization rates go down. (Often with negative results.)
Yes 100%. As soon as the "vulnerable" have received their vaccine we should remove all restrictions even if the vaccine doesn't 100% prevent the "old fat cigarette smoking weak people" from dying from this cough virus because after the vaccination there is nothing more we can do.
Vaccines are the single most effective way to prevent disease after clean water. It is the cherry on top of a cake in terms of what humans can achieve medically. A vaccine is literally the dream to achieve for any illness which could affect us. As a result, as soon as we have deployed our best and most effective weapon against this virus we must open up again. If the vaccine doesn't prevent fat people from dying then nothing will and we just have to accept that fat people will die due to their own wrong doings. After all that's how the world is designed to work.
As long as one believes that chronic covid does not exist or alter one's life expectancy and the comfort of the elderly is our top priority then yes. Once the olds are safe the virus shall run wild through the young.
> Since we're on the topic, shouldn't this (hospital admissions) be the almost singular criterion to influence public policy / restrictive measures?
No. This is the "flatten the curve" logic which was a horrible misjudgment. Having the disease in circulation in the community is not only doing tremendous damage to many, many people (even if the hospitals aren't full), but is also allowing the virus to mutate and potentially escape immunity protections or become more deadly. If you re-open as soon as the hospitals start to free up again, you just start moving the pendulum back in the direction of crisis.
Countries like Australia and New Zealand have shown that if you keep up lockdown measures for just a month or two after the hospitals free up (AND if you institute and keep real travel quarantine restrictions), you can get the virus to effectively ZERO community spread and keep it there. We can achieve this, and we ought to be aiming for it.
> Countries like Australia and New Zealand have shown that if you keep up lockdown measures for just a month or two after the hospitals free up (AND if you institute and keep real travel quarantine restrictions), you can get the virus to effectively ZERO community spread and keep it there.
It's too late for that anywhere that isn't super remote like AU/NZ. Even South Korea and Japan, isolated as they are and with very strict measures, controls on lockdown, and a population that strictly follows them, cannot get / is not getting to zero community spread: It's doing regular, short, strict lockdowns instead.
This is the model that the west should adopt but instead a lot of countries are faffing around. Belgium has been in a five-months-long semi-lockdown that is leaving everyone severely depressed, is hugely damaging to the economy, and has plateau'd the spread to very non-zero numbers so the disease is still very much present. Worst of both worlds.
Japan does NOT have strict lockdowns in place. I know, I work for a Japanese company. Heck they've been giving out travel vouchers for free travel around the country. Not a model for pandemic response at all.
Australia is hardly isolated. Tons of flights in and out every day, and a vital part of the world economy. Really, any country can be "isolated" if they just close the borders to non-quarantined (REAL quarantine) travel, which is much more important than lockdowns.
To play devil's advocate, clearly the world can handle a certain amount of locking-down, the social distancing, the mask wearing, etc., so it seems it is better if we just accept these restrictions indefinitely because we can save more people. Maybe we're fine not having mass gatherings, not eating indoors, and not leaving the house without a mask if it means saving the vulnerable. After all, it could be that COVID stays in the body like herpes and creates a different set of problems years later. Until we know for sure, the safest course of action for the public is for them to remain quarantined.
After all, how bad is your life, really? If your life is tolerable, that means the restrictions are tolerable as well.
EDIT: It's like nobody knows what playing "devil's advocate" means anymore. I think it's valid to ask that, if all the measures we are taking are objectively good, whether we should take them from now on.
Assuming this is not sarcasm, this can be taken to any logical extreme of "tolerable". I'm sure there are many other new restrictions we can put in place that would make people's lives (more) miserable, that are nevertheless "tolerable".
Furthermore, can the world really handle the restrictions in place indefinitely? We've been locked down for a year, and it's certainly starting to feel like the wheels are coming off for many. The economic devastation alone has been staggering.
Epidemiologically speaking, sure, doing this forever would save the most amount of people from COVID. But we can't just look at this from that point of view.
The vast majority of people are not fine with any of those things for an extended period. In fact, in the US, once late spring/summer roll around people are going to be out and about.
Really? That's what people said back when it was proposed that we shut everything down for a few weeks to "flatten the curve". Now look how long we've gone. I'd say Americans have very well tolerated this new way of life and could do so in perpetuity. I wouldn't count the protests and riots last summer since they were politically motivated.
> I'd say Americans have very well tolerated this new way of life and could do so in perpetuity.
Except for the horrific acceleration of radical politics, rioting in the streets (and Capitol), effective abandonment of the education of the children of the bottom 50% percentile earners, rise in suicides and substance abuse, etc. Locked down masses are going to be increasingly difficult to pacify.
In spite of lots of grumbling and non-compliance in some regions, people have adapted to things they said weren't really conceivable last year. Yes, people have (generally) accepted extended temporary restrictions. That said, essentially no one is accepting this as a permanent condition and as people are vaccinated, I have a high level of confidence that people are not going to accept continued restrictions. You are, of course, welcome to do whatever works for you.
People certainly didn't permanently hide out before there were vaccinations against diseases like cholera.
I kindly disagree. Although I think we'd see next to no resistance if we were told "this is the new normal, deal with it", in reality we'll all be told "by this time next year" in order to keep people hooked on the hopium and ensure the new paradigm.
For the record, I'm not in support of the prevailing COVID containment strategies. Believe me, I'd love to see politicians face some actual backlash over what's been happening.
I dunno. Based on the traffic around where I live, I'm probably more conservative than most but come widespread vaccination, I'll vote against any politician who tries to keep things locked down and I (and most others) are already casual around things like outdoor masks that are essentially theater. And that's not even considering all the business and other economic constituencies which are frankly more important to the politicians. For example, many organizations will not tolerate physical events being shutdown indefinitely.
Absent vaccines it would have been more complicated. But, at some point, countries say that they've done what they can and things are as they are.
Have you actually looked into the numbers regarding what lockdowns have done to mental health, not to mention the economic impacts which are going to feed back into people's well being in all sorts of ways? Just because your subjective experience of being a shut-in for nearly a year has been a tolerable one does not mean that has been the case for large numbers of people.
I want my kids to go to a harvest festival again with a live band and tons of people like the one they did in fall 2019. No, this is not something worth giving up simply to preserve a few years of life for some nonzero number of society's most vulnerable and aged. And no, I'm not any more willing to wait five years to see whether there's some lurking complications from the disease, any more than people have been willing to do that with the vaccines which are being distributed.
Thinking more about headlines like this, I wish we could just replace the word "linked" with the words "correlates with"
Society really needs to use either the term correlation or causation more often so we can always have the "correlation does not imply causation" discussion and hammer that home until it's common knowledge and common sense.
The word "link" to me is a weasel word meant to plant the thought "causation" when only correlation is merited.
"By the fourth week after receiving the initial dose, the Pfizer and Oxford-AstraZeneca vaccines were shown to reduce the risk of hospitalisation from Covid-19 by up to 85 per cent and 94 per cent, respectively.
Among those aged 80 years and over - one of the highest risk groups - vaccination was associated with an 81 per cent reduction in hospitalisation risk in the fourth week, when the results for both vaccines were combined."
I wanted to highlight this part for folks reading. My brothers Mother in Law is now hospitalized due to COVID, and there is a high likelyhood that she will not survive COVID due to lung scarring. She got her first COVID vaccination about a week before she got COVID.
You are not out of the woods just because you got your first dose COVID vaccine! It will take time for it to take affect.
I sorry to hear about your brother's Mother-in-Law.
I just wanted to concur for anyone who is not yet aware: all the data so far (from multiple studies) shows that there is zero or near zero protection for the first two weeks after the first dose. It's not until the third/fourth weeks after the dose that you start to see substantial protection, with higher protection the fourth week.
So sorry to hear this. My mother also died of covid, and I also feel there's a warning in her story for everyone.
She'd been sad for several months from my father dying, so during the summer she went to visit her sister abroad. Until then she'd been shielding at home. They both knew about the virus but thought it wouldn't happen to them, arranging group meals with old friends.
Three of them went to ICU, and everyone tested positive.
It's of course up to people themselves what risk they want to take, but with this disease in particular the numbers are deceiving. The general figures seem so low but are actually a heck of a lot higher than flu. They're also markedly higher if you're in a risk group.
It's also terrible because as family you think the odds are okay, most people at every stage (cough, hospital, icu) survive, until the doctor calls you and says it's tonight.
Yeah....I can only imagine what they are going through. That was why I posted that comment, I can't do anything for her, but I can hope that others will see that and take heed.
Do you remember what studies this data was from? I'd be curious to look at it.
The fda filing [0] for Moderna seemed to indicate a decent uptick in protection > 14 days after dose 1 (which seems to mirror the studies you are referencing). I see a "Vaccine Efficacy" of 92.1% for > 14 days after dose 1, which seems to be fairly close to the ~95% efficacy I've seen described for 14 days after dose 2.
We should note that the >14-day efficacy is presumed to decay fairly rapidly, thus the need for the 2nd dose to cement the response long-term, as well as eke out the last few percent of efficacy.
But that does seem to imply that 2 weeks post the first shot (assuming the second shot will be given soon after), folks are pretty much at maximum immunity.
The idea behind the second dose being delayed in the UK was it was better to give 24 million and 80% coverage to the most vulnerable people with 1 dose over 12 weeks (assuming 2 million per week), then to give 2 doses to 9 million and 1 dose to 3 million over 12 weeks
.8 * 24 = 19.2m covered in scenario 1
.959 + .83 = 10.95m covered in scenario 2
Even if it were 60% with 1 dose and 95% with 2 it would be
I imagine "fairly rapidly" means a few months rather than a few weeks, in which case delaying the second dose from 4 weeks to 8 weeks won't cause any dramatic dips (this is all conjecture though).
Presumed by whom? AFAICT there is no reason to presume the protection decays rapidly or even at all (on short timescales). There isn’t a biomechanism that would cause that. It’s a conservative operating assumption just in case, but actually not likely.
I wouldn't read too much into that small difference. This study wasn't really designed to show which one works better. The bigger takeaway is that both show significant protection even with just one dose (which presumably rises after the second dose).
Agree. I can't find the right information but I suspect that the headline figures from the different vaccine trials may be generated by somewhat different counting methodologies. I think that some of the trials counted from day 1 of the vaccination, and some of them from day 15 - but I am hoping that someone has the actual information!
Edit: I'm an idiot who was trying to do too many things at once and misread. Removing my incorrect commentary on 95% CI numbers. I'll leave the excerpt from the study since that's useful info.
>Findings: The first dose of the BNT162b2 vaccine was associated with a vaccine effect of 85% (95% confidence interval [CI] 76 to 91) for COVID-19 related hospitalisation at 28-34 days post-vaccination. Vaccine effect at the same time interval for the ChAdOx1 vaccine was 94% (95% CI 73 to 99). Results of combined vaccine effect for prevention of COVID-19 related hospitalisation were comparable when restricting the analysis to those aged ≥80 years (81%; 95% CI 65 to 90 at 28-34 days post-vaccination).`
AZ had 100% efficacy against severe disease in their 3rd phase interim readout. 0 hospitalization in vaccinated arm, 8 hospitalizations 1 severe and 1 death in the control arm.
In contrast, with pfizer, there were 0 covid deaths in the entire trial (vaccinated or unvaccinated).
With my very little biology knowledge I could imagine it being linked to the much stronger reaction many people seem to have to the AZ vs. the BioNTech one, resulting in more solid immunity.
I think the figures from Israel show you are at increased risk of infection for the first week after the vaccine is administered. Presumably because people are already starting to change their behaviour.
It could also be because people got contaminated IN vaccination centers when coming for their first vaccine dose. Told from a doctor working in Israel.
The vaccination locations are the largest group of people anyone I know how been around in a year. Dozens of people coming in and out of a room every 15 minutes, plus having to sit next to strangers for 15 minutes to make sure you don't have an adverse reaction is a larger risk than most take ever.
I've worked several full days at a vaccination center in Michigan. It's quite crowded, something like a grocery store. It wouldn't surprise me if there was some spread there.
Until we have challenge trials, how do we know whether or not other variables, such as natural herd immunity and seasonality are not also significant contributing factors to the 'substantial reduction'?
Because its still winter and herd immunity from natural infections is a gradual process not a steep cliff? At the very least it seems like those factors could be accounted for.
There have been several new variants that have popped up lately, many able to spread rapidly, and some showing the same mutations but developing them independently.
With the rapid spread of some of the variants, it would be foolish to assume that what we are dealing with now is the same thing as what we are dealing with before, and we really don't know enough about the new variants. Maybe they are spreading, but not making people sick enough, increasing herd immunity.
It's difficult to account for these things because the same time these new variants started exploding is the exact same time we shifted resources from random testing to mass vaccination.
Seasonal viruses often peak before the official end of winter. The key date may be the winter solstice in late December when sun exposure reaches its minimum.
Thanksgiving and Christmas holiday were both events where many people that were diligent about quarantine protocol for the past year decided to break protocol "just this once" because it involved the two primary holidays for gathering with loved ones.
I think it has been shown that standard corona seasonality shows the same shape of all case loads we have seen?
That is, most of the recovery we saw last year going into summer could potentially be explained by regular cycles of similar viruses in the areas. The impression being that that could also explain or current recovery.
It is not an argument against vaccination. And I haven't seen people pushing we have heard immunity, yet. But the stark drops we are seeing do seen surprisingly sharp.
"the stark drops we are seeing do seen surprisingly sharp"
Surely that suggests an unnatural cause, such as millions of vaccine doses being rolled out, specifically targeting the most vulnerable (LTC residents) and those most likely to catch/spread the virus (medical profession, first responders, front line workers)?
The argument is, if that were the case, it would be sharper than the natural charts of corona viruses otherwise.
To be clear, I first saw this pushed by some epis on Twitter as caution to get to hopeful that we are seeing the vaccines as a resounding success so early in their rollout. It is expected that the vaccines are needed, but the dramatic drop was pushed as likely unrelated.
I will try and dig up the tweets. Could be they have changed their minds with more data.
Also, my first sentence was a question as I am not sure that is what the opening post meant.
Could it be that there's a strain that results in largely asymptomatic cases and there is not enough data on those people? That could result in a decline now due to competition, or the slope of the line is historically wrong due to invisible statistics.
I know there has been some trouble identifying antibodies in people who were exposed months ago. So if you aren't really sick, you only get counted (maybe) if someone in your circle gets really sick.
I do know that sometimes graphs with weird dog-legs are caused by either graphing the wrong derivative[1], or because there are more populations and someone is either being devious or is unaware.
[1] Developers are by and large flummoxed by S-curves for progress. An S curve for distance maps to a bell curve for velocity. If the sums don't make sense, look at the rates, or the rate of change. Don't keep staring at the S trying to fit trend lines.
The numbers from Israel seem to show the 60+ age group that has been vaccinated with two doses is seeing a sharp drop in hospital admissions compared to the under 60 group that is still mostly unvaccinated. This should rule out the herd immunity and seasonality arguments.
I would have expected even lower hospital admission numbers for the 60+ population, I mean taking into consideration that almost 80% of them have already been vaccinated.
Overall, the average hospital stay for COVID-19 for all ages is 22.4 days, just over three weeks. The length of stay is slightly longer, 23.5 days, for regular hospital admissions and shorter for ICU patients at 16 days, likely because ICU patients go on to die in the hospital.
That's based over thousands of patients.
> Patients in their 50s, who make up the third largest group of hospitalizations at 17.8% of all admissions, have, to date, had the longest average hospital stays at 27.5 days on average.
> Older patients have slightly lower average stays than middle-aged Hoosiers — again, likely because they are more prone to die in care than younger patients
> The average stays for patients in their 30s is 16.4 days
Because you look at similar cohorts at the same time. So if group A has received the vaccine, but group B has not, and they're being observed during the same time/geographical area, and the groups are sufficiently randomized otherwise, then you would expect to capture the effect of any other confounding variables.
Given the large number of people vaccinated so far, and the magnitude of the effect it's pretty safe to say that the vaccine is causing a significant reduction in hospitalizations independent from the broader background trend towards lower prevalence of the disease overall.
Sounds like cherry picking to me. Doctors know if you have been vaccinated when making this decision. I.e. perhaps 90% of people with 1 dose who are admitted are serious enough to need intensive care vs a small percentage of non-vaccinated patients admitted more often as a precaution.
I guess everyone here thinks double blind trials are for fools?
cases:mortality would be a weebit less influenced by placebo and it would be hard to reach numbers like 80%..
IMO, there's no way a significant number of discussions between doctor and patient are not going to reach different conclusions about whether to go to check in to a hospital or wait a few more days based on a significant fact like a jab 3 weeks ago.
Isn't there also a confounding factor that the vaccinations were largely introduced following the thanksgiving and christmas infection events. Even without a vaccine, I would have expected hospitalizations to fall approximately 1 to 1.5 months after the Christmas holiday.
Basically, we had many clusters of fresh unburnt tinder (the household covid pod) and the Thanksgiving and Christmas holiday was a perfect event for many people to "just this one time" break quarantine protocol, leading to the many infections we saw. That's a 2-3 week increase in direct hospitalizations from those events, and then you have another 2-3 weeks of indirect hospitalizations impacting the remaining members of each covid pod. Anecdotally, I've personally witnessed this happen as I know fare more people that acquired immunity from becoming infected during the holidays than for most of last year.
Depends on where you live, in the Midwest the peak was more around Halloween in October. You can hardly find Thanksgiving in any data (and then you probably have to squint and ignore proper statistics) By Chirstmas/new year things were clearly in decline. Other areas of course have different results.
The vaccines seem to have an impact, but it is hard to be sure. There are a lot less old (>65) in the new infected list, which used to dominate the list. The younger groups seems to be be about even by age group. However there are many potential confounding factors, and I haven't done a proper statistical analysis so I don't want to claim something.
We don't, but a challenge trial wouldn't change that.
Best you could do with a challenge trial is to get faster to the results we already have. These vaccines work. We know that. This is just observational data supporting that what works in trials also works in the real world (which is not particularly surprising).
That's the clinical trials, but it should be reasonably straightforward to do observational studies on COVID hospitalizations cross-referenced with vaccine status.
There are plenty of millions of people who haven't yet (or won't ever) get vaccinated to serve as a control.
This WSJ article mention herd immunity. Covid spread really fast, so herd immunity through a combination of the large amount of people that already had covid and vaccination of the vulnerable should make a big difference.
Give up trying to have any reason or rationality about this.
The world wants this mass hysteria. I'm starting to think it's not even about Corona virus anymore. Everyone has an agenda. From the remote workers to the politicians to the news media to the people getting unemployment.
You just have to let the madness pass as it looks like it's making progress towards being behind us.
We are so lucky we had 2020 science to deal with this rather than in previous decades. I wonder how our current efforts will seem to scientists from decades in the future!
The UK is giving both doses. It's just that they are spacing them out at 12 weeks instead of 3-4 weeks. The idea is that this gives more at-risk people substantial protection more quickly.
> The UK is giving both doses. It's just that they are spacing them out at 12 weeks instead of 3-4 weeks.
Are they doing that for all vaccines, or just the Oxford/AstraZeneca one? Because that appears to be the recommended and most effective interval for the Oxford vaccine, but not for the others. (Note that the mix of vaccines approved for use differs considerably from country to country; Oxford/AstraZeneca is not in use on the US, only Moderna and Pfizer/BioNTech.
There’s not really much data on what the most effective interval is, though I think some data might come out of Israel and the NHS will probably try to conduct some randomised controlled trials. The choices made in the phase 3 clinical trials were driven by trying to pick a sufficiently large dose that the trial would succeed and as short an interval as reasonable to make the trials take less time. For other vaccines, larger intervals have been more effective. Given how unwilling politicians were to speed up rollout, I think aiming for maximum efficacy with minimum trial latency was the best decision the drug companies could have made.
OP is correct, the link you've posted shows that around 600,000 have had 2 doses, and over 15 million have had 1.
The UK is pushing to get all 'at risk' people one dose (around 49% of people getting the vaccine) as a priority, with the second dose following within 12 weeks.
I'm really worried that will be "locked down" indefinite even when hospitalizations go down. I'm also worried that when an actually deadly virus hits our shores we'll be more hesitate to do lockdowns. So basically governments used their once in a 50 year lockdown on this. It mainly killed people that were fat (why the US had a higher mortality) and old. Except no one every said lose weight, exercise and get fresh air. What happens when Ebola hits us.
When something with ~30-50% mortality starts doing a COVID there won't be room for anti-vaxxers and anti-lockdown people. With COVID you can get sick and live. With something like ebola you get sick and die, or you go through the most traumatic event of your life. It doesn't leave a middle ground of disbelief. So I think there would be the political will for a second lockdown if our next global pandemic looks like ebola. A second COVID probably might not be scary enough though.
Ebola infected ~28,000 people in a few African nations over the course of a few years. Knowning now just how flawed testing is for COVID in developed countries it is easy to imagine this number is understated.
I have to say though, if we were actually making them pay hard for that, I'd be ok with it ethically. You want to skip the line? Sure, that's 2 million+! Then give the money to the one that has to wait instead, but make sure not to allow a free market here to drive that price down. Just thinking.. there surely is an issue somewhere..
Yes! I am from the Indian Subcontinent, I know people who went back to the country to get the Oxford vaccine, because the rollout is great and it is "open season" over there already. Converse is also true- rich people who were doubtful about a vaccine manufactured in India booked came to US to get both Moderna and Pfizer shots.
It's already the case, look at all the exceptions for the wealthy and powerful getting vaccines early, be that politicians, celebrities, athletes, connected individuals, and the numerous cases we each may know of. I won't say more but I do know a few personally who got the vaccine too early.
I don't think so. There's simply not excess vaccines to go around at this point. I imagine this might happen more in the future when a larger percentage of some nations are vaccinated.
> There's simply not excess vaccines to go around at this point.
I'm sure there are creative people out there who'll, say, put you on the staff list at a dentist's office so you're technically a "first responder". For a price, of course.
The UKs adoption of First Dose First is amazing and inspiring in a time when governments worldwide seem unable to operate effectively.
There are 2 things every country can do to save lives that have effectively zero cost and zero negative externalities:
- lifting lingering vaccine bans (the US's ban of AZ is most glaring)
- first dose first - the evidence is overwhelming at this point.
These two things, which could be done almost certainly by Biden alone (in the US), would allow possibly everyone who wants a vaccine to get one by the end of March, instead of July with the current projections. And this decision is effectively zero risk.
While those 2 things would help, I haven't seen any projections that could possibly put supply or distribution availability at ~400M doses in the next 5 weeks.
The other almost-certain win would be half-doses of the mRNA vaccines (ie, double supply) given the antibody responses we saw with lower doses, but that's probably asking for too much...
The UK's policy of making sure everyone gets their first dose of the two dose vaccines before most everyone gets their second, setting the second dose at 3 months instead of 3-4 weeks.
This isn’t quite right. The UK has delayed second doses to 3 months after the first dose to enable more people to get their first dose quicker. The plan is all adults vaccinated by September, and they certainly aren’t delaying second doses until then.
> lifting lingering vaccine bans (the US's ban of AZ is most glaring)
AstraZeneca vaccine was seeing rejections for a variety of reasons even before the South Africa variant which it doesn't work well against began spreading, and that variant is now in a lot of the US. If that's what you are referring to, whether or not there is a special “ban" on it in the US, I don’t see it as something that makes a lot of sense to add to the mix in the US now.
People said the same thing about the US's ban on thalidomide until it turned out they were right.
In this case I'm ok with a little conservatism on the part of the FDA. The US is already in 4th place on vaccinations per capita, just barely behind the UK, without either of those policies.
Copying from my comment below, a bunch of other examples of times when the FDA was right and European regulators were wrong:
Decisions to approve or ban medications are difficult because they're about probabilities, and whichever decision you make, there is an expected body count attached to it.
The "but Thalidomide!" argument only considers one side: If you approve a medication that ends up hurting/killing people. That is bad, and everybody understands that.
The other side is that if you delay the approval of a life saving drug, that also kills a lot of people who die while you wait. That is bad, and very few understand that.
The same people who died before, keep dying today. This does not make news, no one has to resign, and as a result regulators become very prone to err on the side on delaying approvals.
How many Americans have died from this bias since Thalidomide is unknowable, but it's definitely in 6 figures, maybe more.
Plane crashes of the last century deeply inform regulation of planes this century. It's why we have so few plane crashes despite massive increases in passenger-miles flown.
I strongly doubt the planes of today present the vulnerabilities of last century. Those lessons were leant and applied. Today's airplanes have different issues and policy should better be about the current issues (and crashes) otherwise it would be outdated and obsolete.
But my analogy was about recommending flying or not flying: you should base that recommendation on the safety of today's airplanes, not on the crashes of the past (even if those crashes enabled the current safety level).
His point was the regulation of planes, not the planes themselves. Which is effectively what forms the "safety of today's planes" that you are looking for.
The point is the USA was right when everyone else was wrong and didn't bow to public pressure, and so I trust them a bit more when they are conservative with approvals.
Yes it was right in that case, but blindly letting a single tragedy direct policy without taking into consideration current factors is extremely dangerous.
People are dying of COVID right now. If fear of another thalidomide incident delays a saving vaccine we may end up losing more lives than potentially saving.
It's not blindly letting a single tragedy set policy. It's one example of many that the FDA has used to build up trust in their process over the last eight decades.
And it's not like the AZ vax is the only option out there. The lives will still be saved with the other vaccines.
I don't know any of the other "many examples", the only one I keep hearing about is the thalidomide incident.
Kind of like when people opposing nuclear power keep bringing up Chernobyl and Fukushima while ignoring their relative tiny victim count compared to the millions of people killed by our fossil energy production.
Thalidomide is just the most famous because it was the most disastrous, but there are plenty of others. Like I said, the FDA has a strong many decades track record.
OK, but if any of those was actually saving lives I'd argue it should've been approved, side effects be damned.
Last time I looked, thousands of people were dying every day of Covid. Ignoring those just in case a vaccine is harmful is, IMHO, a bad tradeoff and I don't trust the people making it in my name. I prefer, in life-or-death situations, making my own (informed) decisions.
If the AZ drug were the only COVID vax available, I might agree with you. But there are already two others and a third on a the way, all of which are more effective than the AZ drug. And the USA has already negotiated to get more of the approved ones than the UK is getting on a per capita basis.
Allowing a drug you know doesn't work well is a great way to break the public trust, especially when there are plenty of alternatives.
You'd be quite right if we had plenty of mRNA vaccines available, but, if I'm not mistaken, we are supply constrained and we'll be for at least a couple more months. Months in which people are dying, people who could be saved by the AZ vaccine, of course at some risk - but which is very much preferable to death, I'd say.
The AZ vaccine still needs to be produced, it isn't sitting in a warehouse somewhere. The amount of time it would take to make AZ vaccine is the same as making the other Pfizer/Moderna vaccines. It's unlikely it would increase supply at all.
AZ has been withdrawn in South Africa because it doesn't work well against the South Africa variant, which is also now known to be experiencing community spread in several parts of the US. So, whether the US (which wasn't alone in not approving it) was right to reject it based on information available in the past, it doesn't seem like it's something we want to try to gear up for now.
According to bloomberg the US has purchased 300M doses each of Moderna, Pfizer and AZ. That doesn't mean they actually have production capacity though.
Thalidomide is authorised for use in many countries today. It's just that the prescriber has to consider whether their patient could be or become pregnant, and ensure that if the patient could become pregnant they understand that this would be extremely bad.
For its original intended purpose this makes it useless, nobody feeling a bit nauseous wants a medical exam plus an hour lecture about contraceptives, but if you have leprosy and other drugs aren't working, Thalidomide might make a real difference to your life despite the scary contra-indications.
I don't mean to imply that this is your intention at all, but it's a false choice. Both questions are interesting; no need to set them up as if they were in tension with one another.
I meant less interesting as in all the studies/trials have already confirmed that the vaccines significantly reduce severe symptoms...the effect on transmission is still an open question from what I understand.
Yes, I'm also personally most interested in that question. (But will accept more data on any of these questions, since they're so societally important.)
It actually can put them in tension. If the vaccine only stops symptoms it can remove the selective pressure to be less deadly and can actually cause the virus to evolve to be more deadly overall.
If this is the situation we are in, then it would make the most sense to only vaccinate the most vulnerable, and not vaccinate the bulk of the population in order to keep the virus selected for survival + transmissibility.
Why is that more interesting? Reducing severity is just as important as reducing transmission, if not more important.
If we could sufficiently reduce (or eliminate) severe cases and deaths, it wouldn't matter how contagious it was. Common colds are highly transmissible, but no one worries about them much since they very rarely cause severe illness.
Reducing severity is just as important as reducing transmission.
I know what you're driving at and it's all pretty interesting - but counterintuitively I think it's way more effective overall to reduce transmission than it is to reduce severity.
If you make the disease half as deadly, then pretty simply half as many people die. But if you make the disease half as transmissible, then the compound impact means that far fewer than half as many people die.
I think you undercut your own point for no reason.
Less deadly diseases get less reverence, leading to more risk taking. The percentage of people who die goes down, but the number of cases goes way up, resulting in potentially greater loss of life overall. Look at how cavalier we are about influenza, and then we set policy based on whether things are worse than the flu.
That is not the case - it is for that specific variant of the disease but diseases spread through the entire population have a huge area to mutate in and one of those mutations could be quite deadly.
One of the reason there's a lot of gas behind rolling this vaccine out quickly is that we want to avoid allowing the virus enough time to mutate up some different strains that this vaccine isn't effective in preparing us for since that makes the vaccine far less effective overall.
The problem is that if the vaccinated population carries the virus, then the risk of being infected increases for the unvaccinated population. It doesn't matter if the vaccine reduces the severity of the virus if you haven't received the vaccine.
On the other hand, if the vaccine reduces the transmissibility of the virus, then everybody collectively benefits from each additional vaccination.
Only in that the effect on severe illness (reduction) has already been demonstrated through the studies/trials, this is not really news. Transmission effect is still being understood.
Well obviously it would be great if they significantly reduce transmission as well. But even if they don't, vaccines could still effectively end the pandemic if they reduce severity enough.
It's stupid to imply that drastically reducing severity isn't a big win.
They got flagged by users. We can still see what they wrote, see that it effectively willfully provided negative value to the conversation, and move on without it having to be a global conspiracy.
Not sure what you're alleging here. Is the suggestion that they're editing contrarian comments to be offensive so people flag/downvote them? Frankly, that seems like an ass-backwards way to go about suppressing dissent.
To be clear, if that commenter had been commenting in good faith, in detail, with actual citations and without profanity, or not using an account created expressly to make that comment, I think they'd have a fine chance to be visible (or at least not flagged).
> Roll-out of the first vaccine dose now needs to be accelerated globally to help overcome this terrible disease.
In a publication in the International Journal of Antimicrobial Agents titled “SARS-CoV-2: fear versus data” (March 19th 2020), the researchers indicate that “there does not seem to be a significant difference between the mortality rate of SARS-CoV-2 in OECD countries and that of common coronaviruses”. Furthermore, according to their analysis, “SARS-CoV-2 infection cannot be described as being statistically more severe than infection with other coronaviruses in common circulation. […] Finally, in OECD countries, SARS-CoV-2 does not seem to be deadlier than other circulating viruses.”
Presently this battle is essentially a race between the current vaccines (which data indicates are very effective against current strains) and eventual variants that will make the current vaccines less effective (or in the worst case ineffective).
The mutations aren’t really a question of if just when. Vaccine data on some new strains is concerning and potentially an early warning of things to come.
If we can get shots in everyone’s arms and maintain masks etc before any vaccine-resistant strains can develop then we stand a good chance of getting back to normalcy. If the virus mutates faster or people let their guard down too soon (including vaccinated individuals) then we could have a big setback. It’s important that even vaccinated people follow protocols for now since if a vaccine-resistant variant does get out there we need to make sure it doesn’t spread.
Get vaccinated (when it’s your turn) and wear those masks!
The mutations are far more likely if you give Regeneron to cancer patients and other immuno-compromised people. What an ethical problem... give a therapy knowing that the therapy will kill off the virus identified by the therapy but with a higher chance that mutations in the patient become free to propagate, or don't administer the immuno-therapy to the most vulnerable people in an attempt to stem early mutation? Since only the rich are getting Regeneron, it really is a case of class warfare.
Respectfully, I think the message you're presenting here is an endlessly shifting target that's going to seriously compromise vaccine takeup. The vaccine is highly effective and vaccinated people can safely resume normal life, although masks in public places will (and should) continue until anyone who wants a vaccine can get an appointment. Mutation risk is a legitimate concern, but not an overwhelming one that really needs to impact most people's personal decisions; Covid-19 mutating to escape vaccines is the same category of problem as the flu mutating to become more deadly.
If you wait to resume normal life until experts say Covid-19 isn't a problem at all, you're gonna be waiting somewhere between decades and forever, and you're gonna end up left behind by most of the world.
The end objective is to get the levels of COVID-19 down to as low as practical as quickly as practical with a population that has a high degree of immunity against current variants. If people are immune they won’t get infected and if they don’t get infected they won’t give the virus a chance to mutate via replication.
Concurring with you, and here's some entertaining food for thought. It seems to me that every virus must have a minimum host population that it needs to persist.
The way I think about it is like a tabletop game. You, the player, are a virus. You draw a strain card and roll a stat sheet. Then you pick a human to infect. They draw an immunity card. After that you roll a set of dice that determine if you get to "evolve". If you evolve you get to draw a new strain card, replacing your old strain card, roll new stats, and all players discard their immunity cards. Whether you evolve or not, you start a new round by picking a new human to infect and repeat. The big caveat: you can't pick a human with an immunity card.
Now, if the number of players in this game is low enough and the likelihood of you rolling an evolve action is low enough, then it's easy to see that in all probability you'll lose the game. Every human will get an immunity card before you roll an evolve.
So there are two variables: host population and likelihood of evolution.
Our goal with vaccination is to decrease the former as much as possible. If we get it low enough, the virus will lose the "game". Every other non-vaccinated human will gain herd immunity naturally before it has the chance to evolve. It will die out, and never be given a chance again.
Now, I'm not addressing herd immunity. That's about whether a virus can spread in a given population. This tabletop game doesn't incorporate a virulence mechanic. This is about whether a virus can mutate before the _globe_ achieves herd immunity. The point I'm addressing is this idea lurking in the back of people's minds: third world countries. Won't the virus just "fester" in countries with low vaccination rates until it mutants enough that it can become a new pandemic?
My suggestion is that it's not a given that that's the case, as long as whatever remaining non-immune population is small enough.
What is low enough? An actual virologist could probably guesstimate for some given probability threshold.
But the good news is that SARS-CoV-2 has really bad evolution stats. Many viruses have a "checksum" protein in their genome, just like most other organisms do, that actually work to prevent mutations. Some viruses have this protein "tuned" lower so that they mutate faster, but it's a trade off because that often results in more production of impotent viral particles. SARS-CoV-2, from what I've read in studies, has its "checksum" protein tweaked higher, so it just doesn't evolve as quickly as something like the common cold strains.
In other words, I completely agree with your point. Get vaccinated as quickly as possible and keep up masks and social distance for now. That will give us the highest possibility of winning this "game".
there's no race. If this virus can mutate into something that renders the vaccine ineffective it will. Brazil and Mexico and the rest of the developing world will give it ample opportunity no matter how quickly we roll out the current drugs. It took decades to hunt down smallpox.
There is a race because the more people that are infected with the current strains, the more chances that the virus will have to evolve into newer strains.
It is also believed that new strains are more likely to appear in places where the pandemic is out of control, with a large number of people currently infected and also a large number of people that already have some immunity to previous versions of the disease. This provides the selective pressure that can lead to new variants arising. Therefore, getting the pandemic under control using vaccinations and other measures is key to reducing the number of new variants that pop up.
that just means it might evolve slightly slower, not that it won't ever happen. it 100% will evolve and 100% will evade the vaccine. we've understood about evolution for a very long time, but everyone's in denial atm.
even wearing masks did fuck all because it just evolved anyway. it ain't gonna matter when you aren't wearing them.
There certainly is a race. The slower we go the more spread. The more spread, the more variation. The more variation, the more likelihood of a vaccine-resistant strain taking hold.
Even if it’s a long-term certainty, much better to be well-equipped to respond to it, which we simply are not at the moment.
My point is that this virus spreads unbelievably fast and even with the most optimistic vaccine scenarios it has literally billions of hosts in the developing world to infect who have 0 zero chance of getting a shot anytime in the next few years.
Of course the vaccines might be good enough to ward off infection from all future variants but that's just luck.
Isn’t it almost certainly the case that the ‘unstoppable’ thing it turns in to will basically be more akin to a general cold though? The thing that makes this virus deadly is also the thing we are coding against in the vaccine.
Not necessarily. For example, some of the more recent SARS-CoV-2 variants spread more easily because the virus causes a more severe infection, which is transmissable for a longer period of time. It's also not a guarantee that the virus will evolve into something weaker. There are serious diseases like measles and smallpox that have circulated for thousands of years while remaining as deadly as they ever were. Sometimes, the disease not being as deadly after a while can be a result of natural selection selecting for more resistant individuals (after many deaths), not of natural selection selecting for less deadly pathogens.
> For example, some of the more recent SARS-CoV-2 variants spread more easily because the virus causes a more severe infection, which is transmissable for a longer period of time.
That's purely speculation at this point, while epidemiology shows us that viruses which are more fatal tend to be less transmissible and vice-versa.
It can be more complicated than that, because in some circumstances increased virulence might also provide an evolutionary advantage for the pathogen. This article from snopes.com has a nice summary of the competing views: https://www.snopes.com/news/2021/02/01/will-coronavirus-real...
"""The trade-off model recognises that pathogen virulence will not necessarily limit the ease by which a pathogen can transmit from one host to another. It might even enhance it. Without the assumed evolutionary cost to virulence, there is no reason to believe that disease severity will decrease over time. Instead, May and Anderson proposed that the optimal level of virulence for any given pathogen will be determined by a range of factors, such as the availability of susceptible hosts, and the length of time between infection and symptom onset.
There is little or no direct evidence that virulence decreases over time. While newly emerged pathogens, such as HIV and Mers, are often highly virulent, the converse is not true. There are plenty of ancient diseases, such as tuberculosis and gonorrhoea, that are probably just as virulent today as they ever were."""
What your saying is a likely long-term outcome. But the reason we see milder viruses circulating as an “end-game” is just because we don’t tend to deal with non-threats. There is no rule that mild strains are a given outcome of mutation. You just won’t see super-deadly variants last long-term because it quickly turns into an us or them battle that we have so far been able to win.
The line I've heard repeatedly is we're waiting for "total" herd immunity, as in ensuring almost all of a population is potentially protected from the virus. Frequently quoting fall / end of 2021, potentially into 2022.
Shouldn't the only benchmark be those with medium-to-high risk of hospitalization? (Determination of risk however you'd like to do it.)
Put another way, you wouldn't shut the world down if a bunch of people got sick for a few days. You may, and indeed we have, shut it down if a large part of the population were at risk of hospitalization or death. In many developed countries, that population is looking at full inoculation (for those who want it) sometime this spring.
Should that not be the "end" of it?