I agree with you broader point that a superintelligence could design incredibly lethal, highly communicable diseases. However, I’d note that it’s only symptomatic untreated rabies that has a survival rate of zero. It’s entirely possible (even likely) to be bitten by a rabid animal and not contract rabies.
Many factors influence your odds of developing symptomatic rabies, including bite location, bite depth and pathogen load of the biting animal. The effects of pathogen inoculations are actually quite dependent on initial conditions. Presumably, the innoculum in non-transmitting bites is greater than zero, so it is actually possible for the immune system to fight off a rabies infection. It’s just that, conditional on having failed to do so at the start of infection, the odds of doing so afterwards are tiny.
You’re actually right about rabies; I found things saying that about 14% of dogs survive and a group of unvaccinated people who had rabies antibodies but never had symptoms.
I agree with you broader point that a superintelligence could design incredibly lethal, highly communicable diseases. However, I’d note that it’s only symptomatic untreated rabies that has a survival rate of zero. It’s entirely possible (even likely) to be bitten by a rabid animal and not contract rabies.
Many factors influence your odds of developing symptomatic rabies, including bite location, bite depth and pathogen load of the biting animal. The effects of pathogen inoculations are actually quite dependent on initial conditions. Presumably, the innoculum in non-transmitting bites is greater than zero, so it is actually possible for the immune system to fight off a rabies infection. It’s just that, conditional on having failed to do so at the start of infection, the odds of doing so afterwards are tiny.
You’re actually right about rabies; I found things saying that about 14% of dogs survive and a group of unvaccinated people who had rabies antibodies but never had symptoms.