Jonathan Edwards
Senior Member (Voting Rights)
Maybe, but I have spent my life surrounded by experts in fields who couldn't see beyond their noses.
-
New Forum Software Installed (Still a few issues but reopening the forum) More details.
The symptom signaling theory of ME/CFS involving neurons and their synapses
- Thread starter ME/CFS Science Blog
- Start date
Maybe, but I have spent my life surrounded by experts in fields who couldn't see beyond their noses.
I agree with @ME/CFS Science Blog that ME/CFS is a “brain signaling disorder” but I believe that it is immunomediated.
Why?
Most/many ME/CFS patients respond (in some cases dramatically) to the dopamine system stabilizer drugs (Abilify, Rexulti, Vraylar, OSU-6162), indicating that there are postsynaptic signaling issues (@forestglip) causing symptoms.
But like psychiatric drugs, the effect ends when you stop taking them or when they poop out. If the poop out/tolerance phenomenon wasn’t so common then these drugs would be good treatment options for many.
By contrast, for the (limited number) of patients who responded to immuno drugs like dara and cyclo, the obvious neuro symptoms like fatigue and brain fog dissipate and the effects are (or can be) long lasting or possibly permanent, perhaps indicating a reset of certain aspects of the immune system.
Why?
Most/many ME/CFS patients respond (in some cases dramatically) to the dopamine system stabilizer drugs (Abilify, Rexulti, Vraylar, OSU-6162), indicating that there are postsynaptic signaling issues (@forestglip) causing symptoms.
But like psychiatric drugs, the effect ends when you stop taking them or when they poop out. If the poop out/tolerance phenomenon wasn’t so common then these drugs would be good treatment options for many.
By contrast, for the (limited number) of patients who responded to immuno drugs like dara and cyclo, the obvious neuro symptoms like fatigue and brain fog dissipate and the effects are (or can be) long lasting or possibly permanent, perhaps indicating a reset of certain aspects of the immune system.
ME/CFS Science Blog
Senior Member (Voting Rights)
Ah apologies. I think I mostly meant brain damage or structural changes, things you can more clearly see on brain scans.
Could the perception of muscle stiffness be caused by incorrect signals? For muscles to work properly, they need the correct signals with the correct timing. Getting a "contract" signal at the same time as a "relax" signal might cause the perception of stiffness or weakness or fatigue. It would also reduce muscle efficiency.
Just want to post the following because it slightly goes against the postsynapse specifically part. @hotblack and I managed to get standalone MAGMA working. The results were similar to doing it on FUMA, but not exactly the same (probably because of mapping to rs ids instead of liftover to grch37).
For gene sets, again none significant after correction, but when looking at the C5 gene set collection, the number one gene set was "GOBP presynaptic membrane assembly", which somewhat goes against that postsynaptic theory. Though it only consists of 6 genes (only 6 of 9 were also in the GWAS genes). There's also "GOBP presynaptic active zone organization" near the top with 11 genes in this analysis while it was ranked >2000 on FUMA.
Some of the other top gene sets still match the top gene sets I got on FUMA like "somatodendritic compartment" and "macrophage colony stimulating factor production", so not totally different.
Just wanted to add this so that no one discounts the presynapse because of what I posted.
jnmaciuch
Senior Member (Voting Rights)
I don't think that would cause my doctors or acupuncturist to note abnormalities when actually stretching out or putting a needle in my muscles while I was laying down.
[Edit: And, for what it's worth, the physical therapist in particular works with lots of people with neurological disorders so I think they would be familiar with what abnormal contractions looked like. He didn't compare it to that, he compared it to professional athletes with repeated muscle strain/tears]
Jonathan Edwards
Senior Member (Voting Rights)
Noticeable 'stiffness' on stretching a muscle, technically known as increased 'tone' although confusingly so, is nearly always neural rather than muscle and mostly due to central reflexes.
I wouldn't trust an acupuncturist to report anything reliably!
jnmaciuch
Senior Member (Voting Rights)
Not just when stretching. And I'd be interested in how neurological control of muscle would explain a crackling sound audible to me and my doctor/physical therapist
Jonathan Edwards
Senior Member (Voting Rights)
Yes, just when stretching. Every medical student is tautght to use it as a sign of central reflex or basal ganglia problems.
jnmaciuch
Senior Member (Voting Rights)
I'm talking about my own stiffness, which is not present only when stretching.
Jonathan Edwards
Senior Member (Voting Rights)
OK, but central causes of stiffness are not just when stretching either.
A crackling sound ("crepitus") is going to be coming from tendon or joint synovium flicking over rigid structures, sometimes in association with a local vacuum. It isn't a known association with muscle pathology as far as I know except in gas gangrene. For thirty years I stretched people's muscles as part of routine exams every day. I never felt crackling from muscles but most days there was some crackling from synovia.
BrokenBeaktheBrave
Established Member
A friend of mine is a PT and he's said the exact same thing. He was shocked to hear that I spend most of my time sedentary.
Last edited:
jnmaciuch
Senior Member (Voting Rights)
Thanks, I will go with my doctor and physical therapist's assessment
Whilst I can understand that people might be reluctant to such a model, because it might currently not be explain muscular problems in a straightforward way, there’s been an abundance of metabolic, muscular and so forth theories on ME/CFS but none of those have even tried to explain the “information processing problems in ME/CFS” (a bit like Rob Wüst saying he has no idea how the PEM that is reported after exercise and the things they are believing to see in muscles which they believe to be related, could be caused by cognitive activity).
@ME/CFS Science Blog raises the question: If the disability is even higher than in conditions that are muscular/metabolic/viral and the problem is supposed to be muscular/metabolic/viral or so forth why are we not seeing anything?
However, one can also have to ask this question to a neurological hypothesis: Say the problem are “broken synapses” as in the hypothesis by @chillier , should a brain scanning study tagging synapses not have to show a clear result? If the problem is something more of “hyperexcitable neural networks” why are we not seeing anything on EEG’s? My understanding is that in EEGs for epilepsy people have their “hyperexcitable neural networks” triggered (by looking at some display) and then the results are rather clear. Now one can argue that EEGs in ME/CFS haven’t found the “right trigger” (like an EEG before and after a CPET or an EEG before and after certain cognitive exercises), but the same argument put forward by @ME/CFS Science Blog here can also be used: If the disability put forward is larger then in epilepsy why are we not seeing anything? I'm not quite sure whether arguing about disability is really the right angle. If more subtle neurological problems can cause greater disability then in illnesses with more obvious neurological problems and clear pathology, can't the same apply to other theories and bodily systems as well?
I like the idea of pursuing the neurological angle a bit. Perhaps it might be sensible to forget about the physical/CPET angle in ME/CFS for a moment and try to understand what the cognitive problems in ME/CFS entail, devise a test on how they can be measured and in particular devise a test on how they can be triggered, somehow showing a descrepancy before and after trigger? If "hypersenstivity to sound" in some people with ME/CFS is supposed to share some features to "hypersenstivity to flashing lights" in epilepsy maybe those are the angles one wants to pursue for a bit.
@ME/CFS Science Blog raises the question: If the disability is even higher than in conditions that are muscular/metabolic/viral and the problem is supposed to be muscular/metabolic/viral or so forth why are we not seeing anything?
However, one can also have to ask this question to a neurological hypothesis: Say the problem are “broken synapses” as in the hypothesis by @chillier , should a brain scanning study tagging synapses not have to show a clear result? If the problem is something more of “hyperexcitable neural networks” why are we not seeing anything on EEG’s? My understanding is that in EEGs for epilepsy people have their “hyperexcitable neural networks” triggered (by looking at some display) and then the results are rather clear. Now one can argue that EEGs in ME/CFS haven’t found the “right trigger” (like an EEG before and after a CPET or an EEG before and after certain cognitive exercises), but the same argument put forward by @ME/CFS Science Blog here can also be used: If the disability put forward is larger then in epilepsy why are we not seeing anything? I'm not quite sure whether arguing about disability is really the right angle. If more subtle neurological problems can cause greater disability then in illnesses with more obvious neurological problems and clear pathology, can't the same apply to other theories and bodily systems as well?
I like the idea of pursuing the neurological angle a bit. Perhaps it might be sensible to forget about the physical/CPET angle in ME/CFS for a moment and try to understand what the cognitive problems in ME/CFS entail, devise a test on how they can be measured and in particular devise a test on how they can be triggered, somehow showing a descrepancy before and after trigger? If "hypersenstivity to sound" in some people with ME/CFS is supposed to share some features to "hypersenstivity to flashing lights" in epilepsy maybe those are the angles one wants to pursue for a bit.
What is not quite clear to me about a neurological hypothesis: Why are these problems apparently more common after glandular fever? How does EBV seemingly have more influence on synapses or neurons than other viral infections?
If we accept a comparison to something like a "ongoing sickness response", then I see no reason to also not see a similarity to the PVF that EBV causes in many people, but why is EBV particularly good at doing that?
If we accept a comparison to something like a "ongoing sickness response", then I see no reason to also not see a similarity to the PVF that EBV causes in many people, but why is EBV particularly good at doing that?
Abilify et al also work presynaptically as well. For example:
EBV specifically seems to increase the risk of the neurological damage of MS, so maybe there's some common pathway, even if totally different neurological effects.
Jonathan Edwards
Senior Member (Voting Rights)
I don't think so. Other bodily systems tend to work in pretty predictable ways based on good functioning of structural and metabolic elements that we can study under isolation conditions. The brain isn't like that. There are lots of brain problems that produce very severe disability without any signs on EEG. The problems are presumably at a different level of functional organisation.
But I agree that the failure of muscle-based theories to explain cognitive PEM is something to think hard about.
Yes, but if I'm not wrong the 2 theories for that are: Increasing the likelihood of "bad B-cells doing bad things" or "something to do with viral persistence" and of course these effects take place years, sometimes decades after infection so how could a common pathway look (especially if we don't want to make use of something like a B-cell theory).
So in short, the argument might really only work in one way due to the complexity of the brain and the inability to somehow view it as isolated?