Any guess for success rates? I'm thinking on average 10%-50% reduction of tinnitus in 60% of people.
I believe the same!
I'm packing my bags. Where's my tent? Does the weather get awful hot or cold in Michigan?I believe the same!
Best case scenario: if the FDA submission is put in the first quarter of 2024 (latest being March), and it only takes 90 days to approve, the latest we should see it out should be in July!
I do wonder how long it will take to train the doctors that will be making it available for us.
I'm hopeful, nonetheless, to see it by mid next year!
10% would so little. 6 dB would be 50%, and the average reduction was greater than that in the trial.
I'm in Cali, so I'm not too sure! I think it gets pretty cold in that area.
Thinking it might help 60% of people is far from pessimistic.
I keep seeing references to 510(k) approval process but the last time I looked, De Novo was mentioned on the Michigan Univesity website. I looked at the site again but they changed things around and I can't find it anymore. Maybe they won't go with De Novo after all but when I looked last time it was mentioned.
Extended audiograms aren't going to be very useful since everyone has damage to the higher frequencies due to age. A person in his 30s who doesn't hear 17000 Hz, there is no way to know if it's due to age or noise damage.
It really is fascinating how Susan and her team have perfected the exact tone/pulse needed to calm the auditory nerve. Many have tried before... Neosensory Duo, Lenire, magnetic pulses, TENS and haven't gotten the results promised. It feels like such a simple stimulation process, yet she seems to have gotten the timing, sound and location placements better than anyone before her.
I agree. I am 36 and my audiogram shows hearing loss at 16 kHz. I think it's either from natural aging or possibly it is the Hz my tinnitus is already at and that's why I can't hear it, because my tinnitus kinda cancels it out. Just my speculation so IDK.
That's interesting. I have to match the tones to within a few Hz. Unfortunately I have over a dozen tones, so while I'm inhibiting lower frequencies the higher ones come back and vice versa... eventually I'll make an audio file with all of the tones and enjoy sweet sweet silence for a few seconds.
The elephant in the room is that no one knows what happens with genuine long term use of the device. Can you completely nuke your tinnitus if you zap your ears daily for a year straight? That's one of the biggest questions for me.
I think it's because she's a scientist at heart and this is essentially her life's work. She's in charge and has taken her time to get things as good as they possibly can be.
Only a 24-year-old can hear 17000 Hz so I think it's natural. There is a reason ENTs don't do extended audiograms. Unless you are a kid, every adult is going to have some loss in those frequencies.
But what if that same person can't hear 14 kHz? Should we not test to catch that?
If you can hear above it, I would venture a guess it might be your tone. If you're tone searching, I would caution you on some of the online tone generators, as they can be set rather loud to start. If you can't hear it, I would say listen to one octave lower, so 8 kHz, to see if it sounds similar. If it does, well, it might be your tone that you can't hear anymore. Then again, maybe a warble would help, as that helps distinguish from tinnitus. However, it doesn't mean that extended audiograms wouldn't give the medical field more insight on what causes tinnitus, nor sufferers, especially for the more mild cases, who more than likely can still hear their tone, and at that point, pinpoint what dB level of loss they have, so it can be monitored and prevented from getting worse. With Dr. Shore's device though, it will swap to treatment, rather than monitoring. Undoubtedly, with release of the device, research-minded ENTs will get a treasure trove of data to sort through. Lucky them.
This is not necessarily true. I heard 20 kHz into late twenties and can hear 18 kHz now in mid-thirties. There are many people like this; age-related hearing loss is individual.
Would hearing loss affect hair cells or not? My audiologist checked all that and the pressure and my hair cells were okay.
For me useless. Same tinnitus and same problems hearing as if I didn't get an extended audiogram. Information that I can take no action with is just a curiosity.
Same here. I often tweaked the 16 kHz band on my equalizer and noted the change easily. Now, I can't hear a change.
How did the audiologist check for that? I had an entire brain MRI of the auditory cortex and was told that it was not detailed enough to detect hair cell damage. At least, that's what I was told. I'm not a doctor.
Hearing loss can come from several places. The loss of the hair cells, the loss of connection between the nerves and the hair cell, as well as the loss of the nerve cells. Currently, there is no way to look at any of those directly except post mortem methods. So, we use audiograms to give us an idea of what frequency ranges we can hear.
The audiologist put some kind of headphones into my ears and somehow watched how my ears responded to the sounds. It's called an OAE test.
I just looked up the OAE (otoacoustic emissions) test which...
(Source: American Speech Language Hearing Association).
I'm not sure if this is the correct place to look, but...
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