Hearing Loss Help  

by Neil Bauman, Ph.D.

A man explained:

I lost my hearing when I was 26. I even tried a cochlear implant, but I’m still deaf. I need to learn sign, but since I don’t have a job, I have very limited income. I need a free way, let me repeat “free” way to learn sign so I can at least join the deaf community and get friends, a job, a life worth living again! I’ve found schools but all are talking about fees. I can’t pay fees without a job. I can’t get a job without knowing sign. Please help me.

I’m not sure why you think you need to learn to sign in order to get a job. Very few, if any, people on the job know how to sign so they wouldn’t be able to communicate with you anyway.

Since you had hearing to age 26, I assume you have good speech skills and people understand you well. Therefore, all you need to do is be able to understand them. You can do this by speechreading (lip reading) them, having them gesture where appropriate, and have them write down whatever you still miss.

Depending on the job, your boss/coworkers can email you or instant message or text you and you reply back. You don’t need hearing to communicate this way. Thus, there are many things you can do in order to communicate without learning sign.

Now, I’m certainly not against learning to sign—as long as you have people that can sign back to you—family, friends, coworkers, etc.

There are several sources of free signing classes. The most likely is a church near you that has a deaf ministry. Very often they offer free signing classes.

Another source of free signing classes are agencies that work with deaf people. In my county, the Lutheran Social services run a “deaf center” and offer sign language classes. When I took ASL classes there, if you were deaf or hard of hearing, you could attend free.

A third option is to find a deaf person that is willing to teach you some sign. Become friends with them. That is what my daughter did to help her improve her signing. Some deaf people are wonderful and willing to help you when they see you really want to learn to sign.

Another option, if you can prove that learning sign will help you get a job, is the Office of Vocational Rehabilitation (or whatever name they go under in your state). They may fund signing classes for you.

So there are some free, live hands-on ways to learn signing.

In addition to these, some agencies that work with deaf people have signing videos that you can borrow—either VCR tapes or CDs or DVDs.

Then, too, your library may have some signing CDs or DVDs in their collection, or if you ask, may be willing to get some for you.

Also, you can find good on-line signing websites. There are a number of these.

Here is two such websites: http://www.lifeprint.com

and http://www.aslpro.com/cgi-bin/aslpro/aslpro.cgi.

Here’s a good one to learn/practice fingerspelling.

These should get you started.

Just be aware that to become fluent in signing, it will take you several years of constant work. It is learning a new language and that takes lots of time and practice.

by Neil Bauman, Ph.D.

Some people have been longing for a completely implantable hearing aid. Besides the (dubious) advantage of being completely invisible (people won’t be able to tell if you are hard of hearing so won’t make allowances when you don’t hear them), there are a few real advantages to a totally implantable hearing aid.

For example, if you spend time in the water swimming or splashing around, you’ll still be able to hear. Ditto when you are in the shower. Furthermore, you can leave it on all night as you sleep so if you are a mother with young children, you’ll be able to hear them if they cry during the night (assuming you don’t roll over and sleep on the implant side so the microphone is buried in the pillow). Also, if you live in a humid location, or sweat profusely, or work in a dirty environment, all that extra moisture and dirt won’t “gum up the gearworks”. Furthermore, if wearing hearing aids/ear molds causes problems in your ear canals, with an implanted hearing aid, your ear canals will be totally free of any apparatus.

The good news is that if you are so inclined, you now can get such a hearing aid. Otologics of Boulder, CO has introduced their new fully-implantable hearing aid called the Carina.

Here’s how it works. The microphone, which is implanted under the skin, sends the sound signals to the amplifier which is surgically embedded in the mastoid bone behind your ear (much like the internal parts of a cochlear implant are embedded). The output of the amplifier is sent down a wire to a transducer (vibrator), the point of which touches, and thus pushes on, the incus (anvil), the second of the three bones in your middle ear. This mechanical motion amplifies the normal sound signal that is then sent in the usual fashion to the incus (stirrup) and from there to the inner ear.

Incidentally, the amount of movement the transducer imparts to the incus is very small—only 1 to 2 micrometers. That is only 1 to 2 thousandths of a millimeter, (or about one 25 thousandths of an inch) an imperceptible movement even under a microscope.

Since it is all internal, you need a remote control to adjust the volume and turn the hearing aid on or off. Unlike the remotes in typical hearing aids where you just hold the remote in your hand in front of you and press a button, the Carina remote has to be placed right over the implant behind your ear before you press any buttons.

The implant is programmed according to your specific hearing needs just like any regular digital hearing aid. The Carina is designed for adults with moderate to severe hearing losses.

Since the battery is also internal, the folks at Otologics had to come up with a way to recharge the internal battery. The charger system consists of the base station, a charging coil, and the charger body. To recharge the implant, you remove the charger body from the base station and place the coil on your skin over the implant. The charger body contains a clip so you can attach the charger to your belt during charging. Typically, charging time is about 1 hour. You must recharge the Carina daily. While recharging, you can go about your normal daily activities, turn the implant on and off, and adjust the volume.

One cool thing about the Carina is if the battery dies or the implant quits working for any reason you won’t be left totally deaf—you can still use your residual hearing. You see, the implant does not affect your residual hearing. Thus you could even temporarily wear a backup hearing aid in your implanted ear.

There are some downsides to implantable hearing aids. For one thing, upgrading your “hearing aid” as new technology comes along is going to be a real problem. Second, you will need surgery to replace the battery when it finally dies. This won’t happen often as the battery has a projected 20 year life span. Third, you cannot have any MRIs unless you have the whole implant surgically removed. Fourth, if you like diving or scuba diving, you will have to limit yourself to a depth of 10 feet or less. And fifth, it is pretty expensive—$12,000.00 and $15,000.00 each, and that does not include the surgery and related costs.

However, if having a fully-implantable hearing aid turns your crank, the Carina may be the hearing aid for you.

To learn more about the Carina, point your browser to the Otologics web site.

by Neil Bauman, Ph.D.

A man asked:

I have a question about hearing strategies. Say you’re in a room and you’re trying to understand something. I’m wondering if I should learn how to read lips. It doesn’t seem like it could hurt. Do you need to take a course, or just practice?

How about if you try and guess what’s just been said? I find I do this. After I hear someone say something, and I don’t quite get it all, my brain reviews possibilities until it matches one that makes sense in the context of the situation and what else has been said.

By all means learn to speechread! Speechreading is most important in helping you understand speech better. I have been speechreading all my life. Some of my earliest memories are sitting on the floor and staring up at the faces of those giant people (parents) towering above me (at least they sure seemed tall to me way back then) and watching their faces so I could understand what they were saying.

Both my younger daughter and I became good speechreaders when we were tiny tikes. It was a coping strategy we both just naturally picked up from necessity at a very early age. We were both good speechreaders by the time we were 3 or 4.

To become good at speechreading you need to practice. In fact, you need lots of practice. If you are around me you’ll notice I always “stare” at the person with whom I am conversing. That is how I hear and understand what they are saying. Of course, I’m using my residual hearing too, but I’ve constantly been “practicing” speechreading for more than 60 years now.

Taking a speechreading course can help you fast-track your speechreading skills and get you on the right track. Unfortunately, speechreading classes are hard to find—but if you have one in your area, by all means enroll in one.

If there aren’t any speechreading classes near you, all is not lost. There are some good speechreading CDs available so you can practice in the privacy of your own home in front of your computer. This way you can practice at your own convenience and for as long or short a time as you want. Furthermore, your computer will never get tired or exasperated at you if you make a mistake, or ask it to repeat something a “million times”!

Probably the best speechreading CD around is the Seeing and Hearing Speech CD program.

Speechreading is not perfect by any means. The best estimates are that only around 30% to 35% of English sounds can be speechread. That leaves a lot of room for educated guessing. The more you know of the structure of English, and the topic under discussion, the better your “educated guessing” becomes.

When we speechread, our brains run through the possibilities we see and hear and tries to give us the most likely word we missed. However, it can come up with completely wrong solutions because of several factors.

For example, if we don’t know the context, we can’t put things in context to get the right word. Or, if we have the wrong context, our brains will try to fit what we see (speechread) into this “wrong” context and come up with totally “off the wall” solutions as to what has just been said.

Furthermore, many words in English have identical mouth shapes, although the words sound different (if you could hear them). Thus depending on your mindset at the moment, you may “see” a different word than what was said—and again come up with an “off the wall” interpretation.

We call such words homophenes. The three words “pat”, “bat” and “mat” are examples of homophenes. So are the words “shoot”, “shoes”, “chews”, “juice” and “Jews”. So are the words “queen” and “quiet”. You cannot tell these words apart unless you can either hear the difference, or you are sure you know the context.

“Is this process made easier if you know what sounds people with a rare hearing loss such as a reverse slope hearing loss often miss? So you think, ‘well, I usually can’t hear these sounds, so chances are the word I missed was _____.”

You know, in all the years I have been speechreading myself and all the years I have been teaching and writing about speechreading, this is the first time I’ve ever heard anyone ask this question. It’s a wonderful question—and just as those of us with severe reverse slope hearing losses hear “backwards” to those with the common ski-slope losses, so also we also speechread “backwards”—thus there are notable differences. Let me explain.

People with the common ski-slope hearing losses hear lower frequency sounds reasonably well, but do not hear high- frequency sound well or at all.

Furthermore, you need to realize that most of the “power” or volume of speech is contained in the lower-frequency sounds, while most of the “intelligence” in speech is carried in the higher- frequency sounds.

Since people with ski-slope losses hear the lower-frequency sounds, but not the higher-frequency sounds, they generally hear people talking, but can’t understand what they are saying.

This is where speechreading helps them. You see, typically, the higher frequency sounds such as “s”, “f”, “th”, “ch” and “t” (all air hissing around your teeth with your voice box turned off) are relatively easy to see so you can speechread them well. Thus you can fill in the missing “intelligence sounds” and understand what the person is saying.

In contrast, those of us with severe reverse-slope hearing losses don’t hear the lower-frequency sounds (which are formed in the middle or back of the mouth so are hard or impossible to speechread), but we hear the higher-frequency sounds which are also relatively easy to speechread, thus we have more difficulty in speechreading. As a result, we have to concentrate on learning to speechread the “difficult” sounds in order to become good speechreaders.

In any case, even though speechreading is more difficult for us, it is still an indispensable skill to have, and one I’d never want to be without.

by Neil Bauman, Ph.D.

A lady asked:

Can Amlodipine cause roaring in the ears? I have only been taking it for 6 weeks. Can I stop without a problem? My doctor doesn’t think that is the cause of the roaring. I would like to stop for a period and see if the roaring stops.

Roaring in your ears is one of the many tinnitus sounds. According to the PDR, Amlodipine (Norvasc) causes tinnitus in between 1 person in 1,000 and one person in 50, so tinnitus is a relatively common side effect of this drug. Also, realize that the “official” figures are always low by their very nature, as not all tinnitus occurrences are reported, and thus included in the “official” figures.

You need to talk it over with your doctor about whether you can stop cold turkey, or need to taper down or what. Then together you can make the decision what you want to do.

If you stop taking this drug for a couple of weeks or so, and if your tinnitus goes away, that is strong circumstantial evidence that this drug is causing your tinnitus in spite of what your doctor says. (Doctors typically know little about ototoxicity.) Don’t expect the tinnitus to stop immediately after stopping the drug. It may take some days or weeks or longer.

Then, if/when your tinnitus stops, and you decide to begin taking this drug again—if the roaring comes back, that is proof that this drug is the culprit. If that happens, I’d suggest you ask your doctor for a different drug that will do the same job.

To learn which drugs are (or can be) ototoxic, see “Ototoxic Drugs Exposed“. This book contains information on the ototoxicity of 763 drugs, 30 herbs and 148 chemicals.

by Neil Bauman, Ph.D.

Researchers are busy looking for ways to reduce tinnitus. A recent study (1) that caught my eye, and one that shows promise, consists of listening to your favorite music for about 2 hours a day for a year. How hard can that be when one of the benefits is reducing the volume of your tinnitus?

In order for this to work, there are two conditions you must meet. First, your tinnitus must be a tonal kind of tinnitus that stays at a constant frequency. Second, the music you listen to must be digitally modified to take out the frequency of your tinnitus—hence the term “notched music”—as you have a notch where there is no sound at your tinnitus frequency.

(The way the researchers created this “notch” was to filter out a whole octave of sound centered around the frequency of the person’s tinnitus.)

Then, you just listen to your music for about 2 hours a day for the next year. By the end of 6 months, you’ll notice that the volume of your tinnitus is dropping significantly.

After 12 months, the people in this study found their tinnitus had dropped in volume by about 28%, and their annoyance at their tinnitus had dropped around 22%. In contrast, those in the placebo group (who listened to their favorite music without the notch) actually had their tinnitus increase about 9% and their annoyance at their tinnitus increase about 7%. (There was no indication as to what kind of music people listened to, nor at what volume.)

The reason this notched music therapy appears to work is that our brains are “plastic”. That means they can adapt and change their responses over time. Apparently our brains are more amenable to changing based on listening to sounds we like rather than to ones we dislike—hence the need to choose music you particularly like.

Researchers are beginning to understand that tinnitus arises when the auditory cortex in our brains inadvertently changes in inappropriate ways.

Researchers feel that tinnitus is “associated with a relative excitatory-inhibitory cortical neural network dysbalance, at the expense of the inhibitory system.” Say what? In plain English, what this means is that when everything is functioning properly, some auditory neurons in our brains may get too excited and “talk” out of turn so to speak. When they do this, the surrounding neurons tell them to “shut up”. This maintains order in the auditory cortex.

However, when too many begin to talk out of turn and not enough tell them to “shut up”, things get a bit wild and the result is tinnitus. If this situation is allowed to continue, it becomes the new norm and you end up with constant tinnitus.

Furthermore, if you have a hearing loss, some neurons in your auditory cortex are deprived of normal sound signals. Since neurons are not happy doing nothing, they “rewire” themselves so that they are no longer excited by the frequencies they were originally tuned to. Instead, they tune in to the frequency of their neighboring neurons. When a bunch of them do this, the resulting synchronized spontaneous neural activity apparently results in what we call tinnitus.

The good news is that previous research has shown that this “rowdy” behavior can be modified by behavioral training. The way the researchers did this in this study was to eliminate sounds at the frequency of the person’s tinnitus. Now, since there was no “sound stimulus” at the frequency of the “tinnitus neurons”, but at all other frequencies, the “neurons that weren’t stimulated were suppressed via lateral inhibitory inputs originating from surrounding neurons.” In other words, enough of the surrounding neurons told the “tinnitus neurons” to “shut up” and thus the volume of their tinnitus went down, and things became more normal once again.

It appears that notched-music therapy may prove to be an enjoyable, low-cost and casual (relaxed) treatment for reducing tinnitus a significant amount.

If you want to learn more about tinnitus and some of the things you can do to help bring it under control, see the book, “When Your Ears Ring—Cope with Your Tinnitus—Here’s How“.

(1) “Customized notch music training reduces tinnitus loudness” by Henning Stracke, et. al. Communicative & Integrative Biology 3:3 pp. 1-4, May/June 2010.

by Neil Bauman, Ph.D.

A man asked:

Is it possible for hearing aids to be programmed to deal with “recruitment”, the loud “bursty” elements of sound?

This seems to be quite a common problem for those of us with more severe hearing losses. Few audiologists seem to take the time to properly test for recruitment, and then specifically adjust our aids so they don’t cause recruitment.

The proper way to test for recruitment is to check the uncomfortable loudness levels (UCL) where sounds go from being too loud to hurting for each test frequency.

Typically, audiologists just do a “broadband” check of the UCL, rather than frequency by frequency. In fact, only one time in my life has an audiologist ever done a proper frequency by frequency recruitment check, and that was because I specifically asked her to do it.

After testing for the UCL frequency by frequency, your audiologist then needs to set the compression on your hearing aids for each frequency to limit the maximum sound level for those frequencies such that they always remain below your recruitment level.

This sounds simple in theory—but may be harder to do in practice depending on the number of compression bands your hearing aids have. Because of the placement of my recruitment along the frequency spectrum, and since by hearing aids only have four compression bands, my audiologist has to “detune” half of my channels in order to fix the recruitment problem. The result is that my comprehension goes down significantly. This is not good.

Thus I have two choices: either fix most recruitment problems, but don’t understand as much of what I hear, or understand more of what I hear, but yank my hearing aids out of my ears when sounds start recruiting. Either way, I don’t hear as much as I should. The next time I get hearing aids, I’m going to look for hearing aids where the compression can be set for each frequency—not just by broader bands.

Totally eliminating recruitment isn’t easy. There is a fine line you have to walk when adjusting the hearing aids to get the best of both worlds at the same time. It won’t be perfect, but with patience, your audiologist should be able to get pretty close.

by Neil Bauman, Ph.D.

A student wrote:

I am a senior in college and have had single-sided deafness since birth. I coped with my hearing loss fairly well, although I do not know what it is like to hear with both ears.

The reason I’m writing you is because I have a problem I’d like your help with. I’ve realized that I mishear and mispronounce certain words. I put in a lot of effort in order to make sure I don’t make mistakes in my presentations or at formal meetings. However, I will soon graduate from my university. What I am worried about is that this problem will negatively affect me in the future—during job interviews, for example.

Are there any techniques I can use in order to solve this problem? I know about sitting with my good ear in the general direction of the speaker, and directly facing the speaker, but is there any way I can boost my ability to comprehend what people are saying better, and also not mess up what I am saying at the same time?

I realize this is an odd question, but I would greatly appreciate your help.

Actually, this is a very good question, one more people should ask.

The problems you are facing are not unique to people with single-sided deafness. They affect most hard of hearing people too. I’ve struggled with these same problems myself.

There are a number of things you can do to help yourself.

First, consider getting some sort of hearing aid that pipes the sounds from your deaf side to your good ear. There are a number of devices you could consider. The BAHA (bone anchored hearing aid) is the current industry “darling”, but there are other less expensive solutions such as CROS hearing aids, or the TransEar, and even sophisticated regular hearing aids. You can read more about these various solutions in my article “Options for Single-Sided Deafness“. This will help you hear better from your deaf side, but it is not the total solution.

Second, make family, friends, classmates and teachers aware of your hearing loss and consequent problem with mispronouncing certain words. Ask them to tell you whenever they notice you are mispronouncing a word. Then have them show you how to pronounce it correctly. Repeat it back to them until you can do it properly.

Third, for words you come across when reading but have never heard pronounced, either ask someone who knows how to pronounce them correctly, or check the dictionary for pronunciations. Many dictionaries have pronunciation guides in them. You can also do this on-line. In fact, several on-line dictionaries actually pronounce the word so you can hear how it is supposed to sound.

Fourth, as necessary, use assistive listening devices such as an FM system to pipe the speaker’s voice right to your good ear. In practice, the person you want to hear (teacher, professor, boss, etc.) wears the FM microphone (wireless transmitter) and you wear the FM receiver. You plug an earbud into the earphone jack and place it in your good ear. A good FM system for this purpose is the Motiva.

When you do this, the sound is transmitted from the speaker’s mouth right to your good ear without any interference from background noise around you. As a result, you should hear beautiful, clear speech. Thus you will know exactly how words should sound.

When you have hearing problems (and single-sided hearing loss is a kind of hearing problem) noise and distance are your enemies. Therefore, anything that cuts down the background noise you hear, or effectively closes the distance between the speaker and your ears will help you understand speech better.

An FM system effectively closes the distance to about 6″ or so—the distance from the teacher’s mouth to the microphone. This fixes the “distance enemy”. At the same time, since the microphone is ever so much closer to the teacher’s mouth than the sources of noise in the room, you have effectively fixed the “noise enemy” too.

by Neil Bauman, Ph.D.

Distance and noise are two enemies of hearing aids. That is why hard of hearing people often need to use assistive devices coupled with their hearing aids in order to hear beautiful, clear sound.

There are many “generic” assistive listening devices that couple with hearing aids via their built-in t-coils. This is the industry “standard”.

However, each hearing aid manufacturer wants people to purchase their hearing aids (understandable—that is why they are in the business) so they come up with proprietary innovative ways to connect to various audio sources such as TVs, iPods, computers, etc.

This means when one of their customers (that’s you and me) buy their hearing aids, we are locked into their line of assistive devices (and they are not cheap). Then, if in the future we want to buy new hearing aids from a different manufacturer, we lose all our investment in the assistive devices we have purchased for our previous hearing aids.

This may be good business for the hearing aid manufacturers, but it is definitely bad for our pocketbooks! We now have to shell out big bucks, not only for new hearing aids, but for new assistive devices as well.

This should not be. Connectivity to assistive devices should be “open source” so all manufacturers can use the same modes of connectivity.

I’m all for innovative designs and advances in technology. I’m just against all the mutually incompatible proprietary devices we have to purchase in order to use the latest technology with our hearing aids.

What brought on the above diatribe is GN ReSounds new Alera hearing aid with yet another proprietary set of assistive devices.

The press releases are long on hype and short on hard facts, but from what I can gather, the Alera has a built-in (presumably FM) receiver operating at 2.4 GHz. Then, the customer purchases various proprietary transmitters that connect to the audio devices he wants to listen to. So you buy one so you can listen to your TV and another to listen to your computer, etc.

It sounds like cool technology. The FM receiver is built into the hearing aid so there is no need for using boots, neckloops or remotes. This makes for a “cleaner” design.

You hook up the appropriate transmitter to the audio device you want to listen to—and voila, you hear beautiful, clear sound. With the Alera, you can be 21 feet away, which is about the same distance as the effective range of the Bluetooth technology that is already out there.

If the “hypewriters” are correct, this new technology will deliver “unique sound quality” by employing ReSound’s “revolutionary” Surround Sound technology which delivers a rich and crisp 360-degree sound.

The Alera and its assistive devices will be available in June, 2010. If any of you try them, I’d love to hear how they work for you. Just be sure that the Alera comes with a standard t-coil, or, when you go to places that use loop technology, you’ll be left “out of the loop” and thus your fancy new hearing aids will be essentially useless.

Learn more about the Alera here.

by Neil Bauman, Ph.D.

In a previous article “Nodding Chime Tinnitus“, a woman explained that she heard chiming tinnitus whenever she nodded or shook her head.

I asked anyone reading that article if they had ever had somewhat similar experiences. Here are five responses I received.

One lady reported:

I also have the same type of thing when I shake my head. At the same time, I have a constant sound in one of my ears regardless of what I am doing.

A man explained:

This is one of my symptoms. The note is slightly different for yes and no—yes is higher-pitched. I think I’ve experienced this for many years, but only started to notice continuous tinnitus at the age of 50, about 8 years ago. I have been wearing higher-frequency hearing aids since then, have had tests for acoustic neuromas, and have undergone tinnitus retraining therapy with some success.

In addition to the nodding/shaking symptoms, I get similar chimes when I jog. I can also reduce or increase my steady- state tinnitus by pressing quite hard on various parts of my jaw. Pressing the jaw into the joint tends to decrease the tinnitus, pushing my chin to one side tends to increase it. The effect is quite dramatic.

A lady wrote:

I also have a type of tinnitus that happens when I shake my head up and down or side to side. It’s not chimes to me but more like a static or buzzing. I can’t remember when it started, but I have a progressive hearing loss that resulted in my surgery one year ago for a cochlear implant. I can provoke it at will—pretty much all the time.

Another phenomena I’ve had for a few years—worse before the CI—has what I’ve found on the web as an “audible wakening”. Basically when changing consciousness stages I sometimes hear a “wraaanggg” type of almost screaming “sound”. Can’t explain it much better—sorry. I wonder whether others have reported this to you.

Another lady reported:

I’m writing regarding the woman who hears a chime sound when she nods or shakes her head.

In addition to ongoing mild tinnitus, I experience movement-induced sound as well. Unfortunately, the sound is not a pleasant chime tone, but a very startling loud buzz—like a noisy fly or bee right inside my ear! The first time I heard it I was terrified that an insect had flown into my ear and would sting me or get stuck and have to be removed surgically. The sound (so far) only happens when I shake my head from side to side to signify “no”.

I hear a variety of other tinnitus sounds intermittently that don’t seem to be related to any particular activity or situation—loud squeals, clicks, and the occasional whooshing noise. They are irritating when they happen, but aren’t terribly disruptive.

Still another lady explained:

I identify with the “chime” tinnitus report—I just tested myself by nodding my head vigorously. I confirmed that indeed, the movement changed the volume of my tinnitus, especially on the head upward movement of a “yes” head nod, and a leftward head movement in a “no” nod. (The ‘yes’ movement yields more dramatic results.) I have unilateral sensorineural loss in my right ear, with tinnitus that is not bothersome—it’s simply “there”.

When I wear my hearing aid, it plugs that ear with the ear mold, and this somehow calls attention to my tinnitus—when I walk, I get a modulation of the tinnitus that reflects the rhythm of my footsteps. That’s annoying. This is akin to my ability to “ding” my head—if I plug my right ear, and flick my finger just so around my cheekbone, I can produce a “ding” sound in my head. (Fun, huh?)

Interesting, isn’t it? Thank you all for sharing some of the weird tinnitus sounds you experience. This once again proves the enormous variety of tinnitus sounds we hard of hearing people experience.

by Neil Bauman, Ph.D.

An audiologist explained:

 I have a client who needs to use a neckloop at work, but his multi-line work phone is over 15 years old and doesn’t have a jack for his neckloop. Any suggestions?

You bet. I’m assuming that your client is using a passive neckloop such as the Williams Sound neckloop?

There may be other solutions, but this one will work with almost any desk phone (analog or digital) as long as it has a handset cord that unplugs from the phone base.

To make this solution work, you need two other pieces of equipment. First, you need a Mini-recorder control from Radio Shack (part no. 43-1237) which costs $19.99.

You unplug the handset cord from the base of the phone, and plug the mini-recorder control phone cord into the phone base instead. Then you plug the phone handset cord into the jack on the mini-recorder control. Set the switch on the mini-recorder control to “REC”. Now the phone is back to “normal” and can be used normally, but has the mini-recorder in-line ready for instant use as desired.

Second, you need a personal amplifier such as the PockeTalker. Plug the mini-recorder control’s 1/8″ plug into the MIC jack of the PockeTalker and the neckloop into the EAR jack.

Now, whenever you want to make or receive a phone call, you simply put the neckloop over your head, switch your hearing aids to t-coil mode, turn the PockeTalker on and set the volume to a comfortable level and lift the receiver.

You hear via your t-coils and neckloop. Thus you don’t have to hold the phone’s receiver up to your ear, but you do have to speak into the mouthpiece.

A good thing about this gizmo combination is that it uses standard parts. Thus it will work with almost any desk phone (digital or analog) as long as the handset cord can be unplugged from the base (really old phones don’t have this). Furthermore, since this gizmo combination is light and portable so you can use it almost any place when you need to hear on a phone. Cool, huh?