That some viruses are asymptomatic does not mean they trigger ME/CFS, or anything else for that matter, on people not known to be infected with it at the time. It's still "anything is possible" argument. If they are arguing that some ubiquitous/harmless/undiagnosed virus is the cause, they'll need to prove that. Till then, we should just accept that non-viral cases caused by chronic/repeated stress are non-viral.
To my knowledge nobody has made any claims about proof of causation. On the contrary, my argument was that we don't know either way and that both possibilities are sufficiently plausible to not shut the door on either of them just yet. Until we have technology to provide more conclusive evidence both possibilities are just assumptions
Anyone creating a model or hypothesis remains free to choose which possibility they think is more plausible and put forward their arguments for that choice
A checklist to measure models and hypotheses against, on the other hand, requires a higher level of evidence than we don't know either way (note I wrote 'higher', not '100% absolutely certain', which doesn't exist)
I'm not arguing for or against any particular theory of onset, I'm agnostic about that. I'm arguing for a high threshold of evidence before including an item on a checklist intended to direct people's thinking
So yes, a model does need to account for the observation that many pwME didn't have symptoms of infectious onset. But a model postulating asymptomatic infections does this just as much as a model postulating a range of other triggers
A model proposing all ME is postinfectious - and assumes asymptomatic infections for those who don't report non-infectious onset - is just fine even though we can't test the assumption with current technology. If what the model proposes happens after the infection gives us testable lines of inquiry that's still useful. Even if the asymptomatic assumption is wrong it may still turn out the model is valid for ME with clear infectious onset and that would still be a win for a large proportion of patients. I wouldn't want any such model dismissed upfront
A model proposing ME occurs only after severe infection, on the other hand, would be invalid because it doesn't match the observed data. But it would still be valid to argue there may be two types of ME. This is also not testable right now but plausible enough to not be discounted upfront and, as in the previous case, if what the model proposes happens after the infection gives us testable lines of inquiry that's still useful for that particular group. The model just can't make any broader claims.
TLDR: my key points (which apply beyond the specific example above of infectious vs non-infectious onset)
A checklist to measure models and hypotheses against has the potential to influence people's thinking in positive ways. E.g. we really don't need yet another deconditioning hypothesis but we do need everyone thinking about ME to be thinking deeply about abnormal response to exertion.
The same checklist also has the potential to limit people's thinking in a negative way. This is why we should require a high level of certainty that items included on the checklist are based on solid evidence.
Where in doubt, I prefer to err on the side of keeping an open mind rather than shutting down a line of enquiry prematurely. That's why in an earlier post I suggested a second list of items for things that look important but don't currently have solid evidence for them. The aim is to encourage people to think about them really hard but without being required to force-fit everything into a single model
And now I'm going to 'unwatch this thread' - abnormal response to exertion and all that
)
