This is a Draft Amnesty Week draft. It may not be polished, up to my usual standards, fully thought through, or fully fact-checked.
Commenting and feedback guidelines: Keep one and delete the rest (or write your own):
I’m posting this to get it out there. I’d love to see comments that take the ideas forward, but criticism of my argument won’t be as useful at this time.
I claim that in scope-sensitive biosecurity, it is important to focus on developing and deploying broad defense technologies like super-PPE, air filtration, and far-UVC. Given that we have limited resources, maybe more people should be working on these technologies instead of other things.
The premises are:
The risk of catastrophic pandemics in the next decades seems significant; let’s say >1% chance of a pandemic killing >100M people by 2050 (these numbers are made up)
Even with much better pandemic prevention and early detection approaches, we only delay the eventual outbreak. At some point, a horrible pandemic will start. This point is especially relevant if you are mostly concerned about bioterrorist threats because competent terrorists could plausibly circumvent prevention measures.
With the worst case scenarios we are worried about, medical countermeasures (MCMs) like vaccines and antivirals will take way too long to develop and deploy since they probably need to be specific enough for the emerging pathogen.
In that case, the most crucial defenses will be broad defenses like super-PPE, air filtration, and far-UVC that work against many different kinds of threats
Passive defenses
The great thing about air filtration and far-UVC (and maybe microwave inactivation and triethylene glycol if they work) is that you can install them and mostly forget about them since they work passively. Humans are lazy and often make mistakes, so you can’t trust them to actually start wearing PPE and wearing it properly. With widespread far-UVC, for example, you could theoretically nip an outbreak in the bud without ever learning that it happened!
Counterarguments
There is no law of physics or physical limitation preventing the development and deployment of vaccines or antivirals within one day.
Yes, pathogens spread exponentially fast, but human engineers can, for example, create vaccine doses even faster if they work really hard.
“Physics is on your side” (h/t Gregory Lewis)
We can hopefully develop pan-viral-family vaccines and antivirals that would probably be helpful in many biothreat scenarios
the Swiss cheese model[1] is important and true, and we should work on all possible layers of prevention, detection and defense
I agree that we shouldn’t put all of our efforts into the broad defenses described above, but my claim is about relative importance and how we spend our resources.
If I were the czar of biosecurity resources, then I would probably only re-distribute them marginally differently and focus slightly more on broad defenses
prevention is still our best bet since it is much better to prevent an outbreak outright than to need to defend against it
counter: prevention is really hard! Technocratic solutions seem much easier.
international diplomacy, like strengthening the BWC, is famously extremely difficult and slow
on the other hand, DNA synthesis screening seems like a good technocratic approach to the prevention of bioterrorist threats
counter: broad, passive defenses like widespread far-UVC are also kind of like prevention because they could hypothetically stop an outbreak by preventing the first-ever transmission between patient zero and the next few people
they might also act as a deterrent because malevolent actors might think: “It doesn’t even make sense to try this bioterrorist attack because the broad & passive defense system is so good that it will stop it anyways”
to be fair, this is hopefully also true for early-warning systems
I am probably biased toward broad, passive defenses because I worked on far-UVC for a while
There could be some subconscious motivated reasoning going on to make my research seem more important
Focus on broad (and passive) defense technologies for biosecurity
Commenting and feedback guidelines:
Keep one and delete the rest (or write your own):
I’m posting this to get it out there. I’d love to see comments that take the ideas forward, but criticism of my argument won’t be as useful at this time.
I claim that in scope-sensitive biosecurity, it is important to focus on developing and deploying broad defense technologies like super-PPE, air filtration, and far-UVC. Given that we have limited resources, maybe more people should be working on these technologies instead of other things.
The premises are:
The risk of catastrophic pandemics in the next decades seems significant; let’s say >1% chance of a pandemic killing >100M people by 2050 (these numbers are made up)
Even with much better pandemic prevention and early detection approaches, we only delay the eventual outbreak. At some point, a horrible pandemic will start. This point is especially relevant if you are mostly concerned about bioterrorist threats because competent terrorists could plausibly circumvent prevention measures.
With the worst case scenarios we are worried about, medical countermeasures (MCMs) like vaccines and antivirals will take way too long to develop and deploy since they probably need to be specific enough for the emerging pathogen.
In that case, the most crucial defenses will be broad defenses like super-PPE, air filtration, and far-UVC that work against many different kinds of threats
Passive defenses
The great thing about air filtration and far-UVC (and maybe microwave inactivation and triethylene glycol if they work) is that you can install them and mostly forget about them since they work passively. Humans are lazy and often make mistakes, so you can’t trust them to actually start wearing PPE and wearing it properly. With widespread far-UVC, for example, you could theoretically nip an outbreak in the bud without ever learning that it happened!
Counterarguments
There is no law of physics or physical limitation preventing the development and deployment of vaccines or antivirals within one day.
Yes, pathogens spread exponentially fast, but human engineers can, for example, create vaccine doses even faster if they work really hard.
“Physics is on your side” (h/t Gregory Lewis)
We can hopefully develop pan-viral-family vaccines and antivirals that would probably be helpful in many biothreat scenarios
the Swiss cheese model[1] is important and true, and we should work on all possible layers of prevention, detection and defense
I agree that we shouldn’t put all of our efforts into the broad defenses described above, but my claim is about relative importance and how we spend our resources.
If I were the czar of biosecurity resources, then I would probably only re-distribute them marginally differently and focus slightly more on broad defenses
prevention is still our best bet since it is much better to prevent an outbreak outright than to need to defend against it
counter: prevention is really hard! Technocratic solutions seem much easier.
international diplomacy, like strengthening the BWC, is famously extremely difficult and slow
on the other hand, DNA synthesis screening seems like a good technocratic approach to the prevention of bioterrorist threats
counter: broad, passive defenses like widespread far-UVC are also kind of like prevention because they could hypothetically stop an outbreak by preventing the first-ever transmission between patient zero and the next few people
they might also act as a deterrent because malevolent actors might think: “It doesn’t even make sense to try this bioterrorist attack because the broad & passive defense system is so good that it will stop it anyways”
to be fair, this is hopefully also true for early-warning systems
I am probably biased toward broad, passive defenses because I worked on far-UVC for a while
There could be some subconscious motivated reasoning going on to make my research seem more important
From this NYT article