Wow, thanks everybody for a lot of great questions and comments.
Hearing pulse:
I know people often try to categorise tinnitus as 'pulsatile' (i.e. hearing blood flowitself ) or 'non-pulsatile' (what we usually mean by 'tinnitus'). However I have long been convinced that there is overlap in some cases. My tinnitus is in most respects typical and non-pulsatile, but I certainly hear it go in time with my pulse a lot of the time. All the different senses in the head, neck and ears communicate, and things like blood vessel stretching with the pulse could easily modulate tinnitus. It also seems plausible that once the brain has tuned in to tinnitus, it might also tune in and hear blood flow where it didn't before, and hence get
both kinds of tinnitus.
Central gain:
Most researchers think that central gain is at least part of the process of tinnitus. However, personally I don't think it offers a compelling full explanation. I wrote an article on this last year 'Tinnitus: does gain explain?' which is free online. There is some even more evidence coming out that suggests central gain may be increased in tinnitus with hyperacusis, but reduced in tinnitus without hyperacusis. But whether this 'reduction' is because some of the auditory pathway is taken up with encoding the tinnitus, hence not responding so much to other sounds, is a possibility. This is a fascinating and important area which researchers have yet to reach a consensus on. Watch this space...
Tinnitus and phantom limb pain:
Great comparison. Lots of parallels, and some evidence of shared mechanims in the brain.
Visual snow:
I hope to do some studies directly on visual snow in future, but I have a few other things to get through on my list first. I think anything that sheds light on tinnitus will help shed light on VS, and vice versa.
Changes in tinnitus due to noise, time of day, etc.:
Good questions. Why do some peoople get a constant unchanging sound, whereas in others it is much more dynamic and responds either to various other factors, or changes for no clear reason? Hard to say really. Some people talk of tinnitus as a barometer of how they are doing in their general health/stress/wellbeing. There are brain mechanisms by which our level of activity and alertness turns up or down gain in the brain, so these could affect tinnitus. Also, for at least 20% muscle activity or posture of the head or neck modulates tinnitus.
Not hearing audiometry beeps due to the tinnitus or the hearing loss?:
We see this conundrum all the time. And it is so hard to tell which is it. The tinnitus always occurs in the area of hearing loss, so we just can't tell. In principle one could do a study where we temporarily suppress tinnitus and see how the sensitivity to the beeps changes in that period.
Cochlear synaptopathy:
The evidence of this (reduced ABR wave 1 etc.) underlying tinnitus has not been replicated in a large proportion of studies, so it seems like it is proably there in some cases but not others. Though the studies coming through recently do seem to be showing changes in the middle ear muscle reflex in tinnitus, which is another possible marker of synaptpathy. But, there is no practical benefit to testing for synaptopathy in routine practice, as it won't change treatment. It is very much a rersearch tool at present for understanding mechanisms of tinnitus.
Doubt over whether sound therapies can work:
I fully agree the odds are not wonderful. Indeed, many therapies have been tried, and most do not work better than placebo. A couple have shown
some benefit in trials, and it has always saddened me how these have been commercialised with a huge price tag. The approaches I am planning to try are new, and would work via a different mechanism, so there is still a chance. Oh, and if they work then I have no intention of trying to make lots of money out of them.
Tonotopic map changes:
All the initial studies that suggested that these map changes were responsible for tinnitus compared people with tinnitus plus hearing loss to people with no tinnitus and no hearing loss. All the more recent studies that controlled for hearing loss found no difference. In fact, one is just coming out now showing that, once you account for hearing loss, tinnitus is associated with
less tonotopic map change. I believe similar things were found for phantom limb pain (i.e. the map plasticity indicates the amputation, not the pain).
Underlying theory of predictive processing and auditory memory in tinnitus:
For further info, you can read my paper entitled 'An integrative tinnitus model based on sensory precision' which is free online. It is fairly heavy-going in places, but I have tried to make it understandable in others. It tries to explain how there can be various different contributory mechanisms, but how they all culminate in a single process whereby the brain stops ignoring spontaneous cell firing in the auditory pathway, and starts experiencing it as sound.
Tinnitus matching where there is more than one sound:
Good question. In terms of investigating mechanisms, I tend to ask the volunteer to focus on their dominant tinnitus sound, or even just pick one. Though, it may be slightly moot, because tinnitus pitch matching is so notoriously difficult and unreliable in most people (compared to loudness matching, which is very reliable) that we are probably only just 'in the ballpark' most of the time, rather than spot on. Thankfully, for my ongoing line of research, this doesn't seem to matter, and we seem to be able to tap into tinnitus mechanisms by just being close.
Going 'off-topic':
I don't mind that at all
It is always nice to learn and be reminded of what is important to people living with tinnitus. It is you we are all doing this for, after all.
Thanks again everyone.
P.S. I really must try and do some new up-to-date research videos. The ones online are getting outdated now. Not that they are necessarily incorrect, but there have been advances in our understanding of tinnitus since then.
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