Posts Tagged ‘Hearing Loss’

Hearing Loss And Hearing Aid Myths Debunked – Fiction vs. Fact

January 18th, 2012

By Crystal L. Chalmers, Au.D.
Doctor of Audiology
North State Audiological Services
15 Jan Court
Chico, CA 95928
(888) 844-7024
Follow North State Audiological Services | Facebook | Twitter | Youtube
www.nsaudiology.com

A recently completed study by Johns Hopkins University – published on November 14, 2011 in the Archives of Internal Medicine – now confirms that 1 in 5 Americans have hearing loss in at least one ear. This is well over 50 million people and far exceeds previous hearing care industry estimates of approximately 25 million.

The Johns Hopkins study is unique in that the data used statistically corresponded with the entire US population by including both men and women of all races, aged 12 and older, living in cities throughout the country.

Using the World Health Organization’s definition of hearing loss – not being able to hear sounds of 25 decibels or less in the speech frequencies – the Johns Hopkins researchers found that over 30 million Americans have hearing loss in both ears and that over 20% of the population – in excess of 50 million people – have hearing loss in at least one ear.

Despite there being so many of us with hearing difficulties, too many people are still unaware of how or where to obtain professional help as the misconceptions about hearing loss and hearing aids are commonplace in our society. The fact that you are reading this article is an excellent first step towards empowering yourself (or a family member) and taking control of your hearing health.

Common Hearing Loss and Hearing Aid Myths

Myth: Buying hearing aids online, by mail, or at a big box store saves time, money, and gets the same results as professionally fit devices.

Fact: The proper diagnosis and selection of hearing technology as a solution for hearing difficulties is not the same thing as purchasing common consumer goods. Rather, it should be a process built upon a relationship of respect and trust between the patient and a highly trained, competent, and ethical professional whose services and products provide long-term value.

Myth: Anyone licensed to sell hearing aids is qualified to test a person’s hearing.

Fact: By law in the state of California, only audiologists are licensed to perform diagnostic hearing evaluations. The “free” tests that hearing aid dispensers frequently advertise are not comprehensive exams and are merely designed to determine if a person could be helped by a hearing aid.

Myth: Hearing loss affects only “elderly” people and is merely a sign of aging.

Fact: Hearing loss can affect people of all ages. As mentioned in the Johns Hopkins study, 20% of the US population aged 12 years and older have hearing difficulties severe enough to impact communication.

Myth: Hearing aids don’t really do anything but amplify sound. Besides they’re unsightly and uncomfortable.

Fact: While the hearing aids from 20 years ago left a lot to be desired from both technology and cosmetic standpoints, today’s hearing devices are exceptional technological performers and are so small as to be very discreet. However, the most important consideration for you, the consumer, is not what the product is, but rather how it is fit to your hearing lifestyle, and to what extent you are provided with expert follow-up in the fitting of that device. That is what makes my patients so successful in being able to enjoy better hearing.

Would you like to learn more about solutions to hearing difficulties and hearing aid technology? Here are two great places to start:

#1.) My Internet website at www.nsaudiology.com. This educational website offers a world of information, including highly informative videos, a free guide to better hearing, online specials, current “News & Events”, and the “Ask Dr. Chalmers” section where I have posted previously published original articles such as the one you are reading now.

#2.) Attend my upcoming Free Educational Luncheon Seminar which will be held Wednesday, January 25, 2012, starting at 11:30 AM at the Chico Women’s Club. I’ll be providing an in-depth discussion covering everything from how your hearing works, to what are the different types of hearing care professionals, to insights about technology solutions for hearing difficulties. A delicious catered lunch will be served. There is no cost or obligation to attend, but due to limited seating, reservations are required. Simply call my office today at 1 (888) 893-1352 …. Because hearing is wonderful gift.

About the writer: Crystal Chalmers, Au.D., is an AudigyCertified™ Doctor of Audiology, the owner of North State Audiological Services in Chico, and a member of Audigy Group, the nation’s largest member-owned association of independent hearing care professionals.

Since 2006, Audigy Group has interviewed over 5,000 of the 18,000 audiologists in the United States, yet has selected only 230 to be members in this elite association. AudigyCertified™ is a trade-mark of Audigy Group, LLC.

To learn more about Dr. Chalmers, her practice, and Audigy Group visit online at www.nsaudiology.com.

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Posted in Audiologist, Buy Hearing Aids, California, Chico, Diagnostic Evaluations, Doctor of Audiology, Hearing Aid, Hearing Aid Dispensers, Hearing Aid Technology, Hearing Aids, Hearing Care, Hearing Difficulty, Hearing Health, Hearing Lifestyles, Hearing Loss, Hearing Technology, North State Audiological Serivces

What Should You Expect from Your Hearing Evaluation?

January 12th, 2012

By: Bettie Borton, Au.D., FAAA
Doctor of Audiology
Doctors Hearing Clinic
7025 Halcyon Park, Suite A
Montgomery, AL 36117
(334) 396-1635
“Like” Doctors Hearing Clinic | Facebook
www.doctorshearingclinic.com

More than 32 million Americans have significant hearing loss, yet only a fraction of that number have ever had their hearing tested by a Board Certified Audiologist. Everyone over 25 should have a baseline audiogram! Consider this fact- 17% of all those involved in motor vehicle accidents will have resultant permanent sensorineural hearing loss. However, if you’ve never had a valid hearing evaluation, you’d be hard pressed to show that your hearing was normal prior to such an accident.

A thorough hearing test is the first step in determining if you do, in fact, have hearing loss. The hearing test results also allow your audiologist to recommend the best treatment options if you do in fact have hearing loss. A hearing test is a quick, painless and non-invasive test, and should always be performed by a licensed, Board Certified audiologist. Ask to see the credentials of those who will be doing your testing! As with most health care professionals, credentialed individuals have the greatest amount of educational training in diagnosis and treatment of hearing impairment, and will offer you or your loved ones solutions that reflect their knowledge base.

The test begins with a thorough case history, which reviews specific health information that may provide insight into hearing loss causes and will assist in determining which tests should be performed. Following the case history, the audiologist will examine your ear canals and eardrums with a special light called an otoscope. Your middle ear function will also be assessed by a test called tympanometry, which offers insight regarding the status of the area behind your eardrum. This area cannot be easily seen, and so the tympangram offers valuable information to the examiner. The test involves a pressure change, and may replicate the feeling you experience while going up in an elevator, but is not painful in any way.

Next, the levels of hearing in each of your ears should be measured in a sound-treated test booth. Some hearing aid technicians don’t use this type of equipment~ but be wary of any hearing test that is not conducted in such a booth, as reliability may be seriously compromised. During this test, a series of tones of different pitches, as well as speech signals, are presented to each ear through headphones. You will be asked to respond to the signals by either pushing a button, raising your hand or in the case of speech signals, repeating what you heard. You will be asked to respond to the lowest level that you can hear which determines your hearing thresholds. Thresholds for each pitch and ear are plotted on a graph called an audiogram. These thresholds indicate the level at which you are just barely able to detect sound. The speech testing yields a word recognition score, which is important in determining in part how well you will perform with hearing aids, which listening situations will be most challenging, etc.

Further tests may be conducted during the hearing test. Your ability to understand words or sentences at different volume levels or in the presence of noise may be assessed to determine how clearly you hear speech in various conditions. Following the tests, the hearing professional will discuss the results with you and may provide further recommendations, including treatment options, like hearing aids.

If you suspect you have hearing loss it is important to have your hearing tested as soon as possible. The use-it or lose-it principle does apply to our hearing; the sooner you treat hearing loss, the better the outcome of treatment. Most people wait an average of seven years from the time they suspect they have hearing loss until they purchase hearing devices. During that time period, the auditory system is at extreme risk for auditory deprivation, or lack of stimulation due to insufficient volume. This can make a difficult situation worse than it really needs to be. So why wait? Have a Board Certified Audiologist evaluate your hearing as soon as you (or others!) suspect there might be a hearing loss.

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Posted in Audiogram, Audiologist, Bettie Borton, Board Certified Audiologist, Doctors Hearing Clinic, Ear Canal, Eardrum, Ears, Hearing, Hearing Aid, Hearing Aid Technician, Hearing Care, Hearing Evaluation, Hearing Impaired, Hearing Loss, Hearing Test, Hearing Tested, Hearing Threshold, Listening Situations, Otoscope, Sensorineural Hearing Loss, Uncategorized

Tags: Alabama audiogram Audiologist Bettie Borton Board Certified Audiologist Doctors Hearing Clinic ear canals eardrums ears hearing hearing aid technician Hearing Aids hearing care professionals hearing evaluation hearing impairment Hearing Loss hearing professional Hearing Test Hearing Testing hearing threshold listening situation Montgomery Opelika otoscope Sensorineural Hearing Loss sound-treated speech signals timpangram tympanometry

Make the Most of Your Hearing – (re) Train Your Brain!

November 23rd, 2011

We hear in our ears, but we process and understand sound in our brain. Hearing aids can help a person detect that are no longer in their range of audibility, but they don’t necessarily provide good listening skills. There is a fundamental difference between hearing and listening, and hearing devices alone do not assure good listening. We all know people who have normal hearing but are poor listeners (ok, ok, don’t reference your spouse’s selective hearing!). Hearing requires a functional auditory system that allows sound to be heard, listening requires specific effort and skill, and that can become more difficult when a hearing loss is present.

As technically advanced as modern hearing aids might be, these devices alone cannot ensure listening skills needed for communication. Listening integrates a number of skills including attending, understanding, and remembering. Unfortunately, many of these cognitive skills deteriorate as we age. This may show up as a worsening of short-term memory, or increasing difficulty understanding rapid speech. Modern hearing aids have certainly improved the quality of sound in noisy environments, but they do not eliminate background sounds. People with sensorineural hearing loss have disproportionately difficult time understanding speech in noise. In addition, research shows that a loss of hearing produces physical changes in the auditory pathways of the brain. We now know that when hearing loss deprives parts of the brain of auditory stimulation, neural pathways actually degrade. The old adage of “use it or lose it” is very true with regard to hearing loss- waiting to get hearing aids when you know you have hearing loss is problematic because your brain may not be receiving the kind of stimulation it needs to maintain speech understanding.

When people lose confidence in their ability to communicate in noisy social situations, they simply drop out and avoid those environments. While this may save them effort and embarrassment, it ultimately costs them important personal and social contact. Some individuals utilize compensatory strategies that may result in successful hearing aid use. Others, however, are not so fortunate. The need for additional therapy beyond that provided by devices alone is becoming increasingly evident, and is underscored by the fact that individuals with similar hearing loss frequently report a wide range in satisfaction and benefit from their hearing aids.

The good news is a Board Certified Audiologist can optimize your hearing aid hearing experience using a number of methods, strategies and techniques. The hearing healthcare professionals at Doctors Hearing Clinic specialize in developing individualized treatment plans for those struggling with hearing impairment, and can offer the very latest in technologies, as well as the time required to successfully implement them! Have realistic expectations for hearing aids – they’re wonderful devices, but not new ears. Join a self help group to share methods and techniques that are successful for you and others (Montgomery has a Hearing Loss Support Group that meets the second Thursday of each month at the First Methodist Church, 4 PM, free of charge!). And consider new computer software to “train your brain” to listen more effectively!

The great news is that with the help of a skilled Audiologist who routinely offers programs in aural rehabilitation, you or your loved ones can keep listening skills from deteriorating and improve ability to function in noisy situations. When a person injures an arm or leg, everyone recognizes the importance of physical therapy to strengthen adjacent muscles and instruction to optimize function. Similarly, it is likely that hearing devices alone will not produce optimal communication skills unless accompanied by counseling and training.

There are many exercises you can try on your own. Here are three examples:

• Use closed- captioned TV, or record programs using a DVR or TIVO. Watch the show live. Then replay it with closed captioning or by slowing it down.

• Listen to, while reading, audio books.

• Buy two copies of the newspaper. Have your spouse or colleague read the newspaper aloud while you are listening only, and then go ahead and read it yourself. Try this in quiet at first, and then proceed to noisier listening environments.

• Try self-help computer assisted training programs

One such auditory training therapy program designed to help the brain listen, Listening and Communication Enhancement (LACE) uses a computer or DVD. LACE is designed to enhance listening and communication skills, improve confidence levels, and provide communication strategies. The program consists of a variety of interactive and adaptive training tasks for listening to speech in noise, rapid speech, and auditory memory. Besides the immediate feedback given for each task, LACE provides you with a graph depicting daily improvement from the start of the training.

LACE training is conducted in the privacy of your own home at a pace comfortable to you; Doctors Hearing Clinic also offers a computer lab where you can take all or part of the training in their office. Research on thousands of people with hearing loss demonstrates that you can expect on average a 40% improvement of speech comprehension in noisy situations, if you complete the training program.

So if you or someone you love uses hearing devices, take the important step of seeking help from a Board Certified Audiologist to help you develop a comprehensive strategy for hearing and communication skills – train your brain for listening!

References: Robert W. Sweetow, Ph.D., Professor of Otolaryngology, University of California, San Francisco and the Better Hearing Institute

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Posted in Audiologist, Communication, Communication Strategies, Hearing Aids, Hearing Loss, LACE, Listening Tips, Sensorineural Hearing Loss, Uncategorized

Tags: Audiologist Board Certified Audioloigst Communication Skills Doctors Hearing Clinic Hearing Aids Hearing Loss LACE LACE Training Sensorineural Hearing Loss Train Brain

Can I Prevent My Hearing Loss From Getting Worse?

November 10th, 2011

When I diagnose patients with a loss of hearing, they usually want to know if there is any way they can stop the progression of the loss. Common sense (and a large body of research) tells us that hearing loss tends to get worse as we get older, but each case is unique. In many cases, hearing is stable for many years. In others, the hearing loss progresses relatively rapidly.

One of the most important things that all adults over the age of 50 need to do is to have an audiological evaluation that will establish their baseline hearing, and keep that on file with their primary care physician and with their health records kept at home. Getting a comprehensive audiometric by a Board Certified Audiologist ensures that you have been evaluated by a professional who has the most training for this purpose, and ascribes to the highest ethical, practice, and continuing education requirements available. Why is it so important to have this baseline? Well, if your hearing changes, it will be much easier to gauge the rate of progression of the loss if you have clearly established a “starting point”, and have annual re-evaluations to document any shift in thresholds. And remember, documenting that starting point could be very important –No one wants to borrow trouble, but don’t forget that 17% of all of those involved in motor vehicle accidents with air bag deployment have permanent sensorineural hearing loss as a result! That could be difficult to prove in a court of law if you haven’t had a recent hearing test.

Noise is a leading cause of hearing loss, and hearing loss from noise exposure is usually preventable. Both the level of the noise and the length of time you’re exposed to it determine if a noise will cause damage to your hearing. A good rule of thumb is: if you have to raise your voice to be heard by someone standing three feet away, the noise around you could be damaging. Everyday sounds, such as music, power tools, or a lawn mower, have been shown to cause hearing damage.

Visit a local hearing center for advice regarding the best options for ear plugs or other noise protection to wear during these activities and get your hearing checked on a a regular basis. Your hearing professional can compare your exams over time to determine if your hearing loss is worsening. If a significant change is noted, your hearing professional may refer to you to an ear doctor for further evaluation.

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Posted in Audiological Evaluation, Audiometric, Baseline Hearing, Bettie Borton, Board Certified Audiologist, Doctors Hearing Clinic, Hearing Center, Hearing Damage, Hearing Loss, Hearing Professional, Hearing Test, Loss of Hearing, Noise Exposure, Sensorineural Hearing Loss, Uncategorized

Tags: Alabama audiological evaluation audiometric baseline hearing Bettie Borton Board Certified Audiologist Doctors Hearing Clinic hearing center hearing damage Hearing Loss hearing professional Hearing Test Loss of Hearing Montgomery noise exposure Sensorineural Hearing Loss

You bought new hearing technology, but, you still have difficulty hearing in noise. What’s going on??

November 3rd, 2011

By: Amit Gosalia, Au.D., FAAA
Board Certified Doctor of Audiology
Audiology Clinic, Inc.
505 NE 87th Ave., #150
Vancouver, WA 98664
(360) 892-9367
Follow Audiology Clinic | Facebook | Twitter
www.audiologyclinic.com

“Dr. Gosalia, I just bought a pair of $8500 hearing aids from XYZ in Portland. I was told that I would hear normally in all environments, including restaurants and ball-games. I am less than pleased because I still can’t hear or understand in noise. Did I waste my money?”

This was a case I dealt with a few months ago. This patient went to a business to purchase hearing aids, and this franchise/chain location set some lofty expectations for the patient. As hearing instrument technology improves, so do patient expectations. Terms such as noise reduction, noise management & directional hearing (along with many other proprietary terms) give the perception that the end-user will not hear background noise, and only hear the person in front of them. Unfortunately and fortunately, this is not true. Below I’ve touched the surface of noise, noise reduction and directivity.

Let’s start with noise. Noise is any disrupting event (in this case, sound) that impedes one’s ability to sense (in this case, hear) a signal (in this case, speech). For the purpose of this post, we’ll concentrate on hearing speech within a noisy environment. A general term and formula that is used in hearing healthcare is Speech-to-Noise Ratio (SNR) which tells us how loud speech is in relation to noise. For example, average speech is 45-55 decibels (dB) hearing speech in a basketball stadium where the crowd is cheering over 90 dB is difficult because the speech is 35-45 dB lower than the noise. This is considered a very low SNR; now compare this to speaking at a normal volume in a quiet library, the SNR will be high making speech much easier to understand. When someone has a hearing loss things change. Without amplification important parts of speech are not heard well, making understanding the person next to you difficult, if not impossible. The natural ability of any person to hear through noise decreases as hearing loss increases. This is a fact that has been well established in research on the human auditory system. Thus, a hearing aid can help make missing pieces of speech more easily heard but it cannot repair one’s ability to hear through noise and find valuable pieces of speech. For this reason, modern hearing aids focus on managing noise and amplifying clean speech.

Hearing instruments can come with or without venting. Vents are holes that are drilled through either the hearing instrument or the earmold for the purpose of letting air and sound travel in and out of the ear canal. The larger the vent, the closer you get to a more natural, open ear. Newer technology has allowed us to keep the ear open with small hearing instruments that rest behind the ear and even some custom molded devices (please see other postings for detailed descriptions of hearing technology). As cute as they may be, if your hearing is not within or near normal limits in the lower frequencies, an open ear device may not be for you.

One advantage of an open ear hearing aid is to allow low frequency sound to escape the ear canal, keeping the user’s voice more natural. When the user complains of hearing their own voice in their head or sounding as if they are speaking in a barrel, it’s usually a phenomenon called occlusion (or ampclusion). Keeping an ear canal open minimizes this effect but also introduces two detrimental issues. First, low frequency environmental sounds will bypass the hearing aid and travel into the ear naturally through the vent. These sounds that bypass the hearing aid are often heard naturally because most hearing losses are minimal in the low-frequencies and greater in the high-frequencies. This also means that the hearing aid is not able to process the sound before it’s heard, so technologies such as noise reduction do not affect low-frequency sounds in the open ear hearing aid.

Secondly, directional microphones will prove less beneficial in the open-ear fitting.² What this means is that the more open the ear canal, the harder it becomes to hear what’s in front of you. So, theoretically, if our goal is to have the instruments focus more front-facing, the ear canal should not be very open. Note that normal low frequency hearing will be affected by closing the ear canal, and opening the canal with moderate to profound low frequency hearing will result in less hearing in those frequencies.^1,2

So, what does this tell us about hearing in noise with amplification? You will hear background noise in noisy environments. You will most likely hear the kids screaming four tables away. You may still have difficulties hearing the person across the table from you. The good news is that with proper hearing aid selection and the correct technology that meets your lifestyle and budget, you’ll hear much better. Only a well trained hearing care professional can make these choices and help you to establish reasonable expectations for better hearing.

“Ms. XX, although the level of technology you purchased is consistent with an Active Lifestyle (in our clinic approx $7500 – $1000 less than the chain!!), you should know that hearing aids only supplement your hearing in those difficult environments. In fact, with normal hearing, I have difficulty hearing at basketball games and certain restaurants as well. Although we can not restore normal hearing, we can help you hear much better in more environments. You will still have some difficulty hearing and understanding in certain environments, but, with some realistic expectations, expert advice, and some auditory retraining, you will find greater success.”

1 What is the Effect of Venting on Directivity? Audiology Online 10/2009; Todd A. Ricketts, Ph.D., CCC-A, FAAA

2 Efficacy of an Open-Fitting Hearing Aid; Hearing Review February 2005; Francis Kuk, Phd, et al

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Posted in Audible, Audiologist, Audiology, Directional Hearing, Doctor of Audiology, Ear Canal, Earmolds, Hearing Aids, Hearing Care, Hearing Healthcare, Hearing Instruments, Hearing Loss, Hearing Technology, Human Auditory System, Open Fit Hearing Aids, Uncategorized

Tags: active lifestyle amit gosalia Audiology Clinic difficulties hearing directional hearing ear canal earmold hearing aid Hearing Aids hearing care professional hearing healthcare hearing instrument technology hearing instruments Hearing Loss hearing speech Hearing Technology human auditory system open ear hearing aid open-ear fitting portland Vancouver

It Doesn’t Really Matter If I Wear My Hearing Aids, RIGHT?

October 28th, 2011

By: Bettie Borton, Au.D., FAAA
Doctor of Audiology
Doctors Hearing Clinic
7025 Halcyon Park, Suite A
Montgomery, AL 36117
(334) 396-1635
www.doctorshearingclinic.com

WRONG! According to ScienceDaily (Sep. 20, 2011), mild hearing loss has now been linked to brain atrophy in older adults. Anecdotally, over the course of my 30+ years in private practice as a Board Certified Audiologist, I’ve observed this to be true. But now, more and more research is indicating strong correlation between failure to obtain or use hearing devices and increased problems with understanding speech and cognition.

We have all heard (or perhaps experienced) the complaint that despite the fact that speech is audible, it’s not understandable. “I hear but I can’t understand” is probably the most commonly voiced concern in my office. So, if someone has hearing loss, if your hearing aids make sounds louder, why doesn’t that solve all hearing related issues? Well, like lots of things in life, it’s just not that simple.

A person’s audiogram (or those little blue X’s and red O’s on the graph of your responses to the “beeps”) tells us a lot, but it does not yield the whole story. Hearing thresholds (or the point at which someone is just barely able to detect sound across the frequency range) are certainly important, but don’t give much information regarding how well someone will understand when speech sounds are made sufficiently loud. Word recognition testing, with and without noise, provides additional information regarding this capability, and as a by-product, an indirect measure of the distortional component inherent to sensorineural hearing loss.

We now have mounting evidence that those who have hearing loss, but fail to get and/or use hearing devices run the risk of depriving their auditory system of sufficient loudness, which in turn results in degradation of the mechanisms responsible for understanding speech. A new study by researchers from the Perelman School of Medicine at the University of Pennsylvania shows that declines in hearing ability may accelerate gray mater atrophy in auditory areas of the brain and increase the listening effort necessary for older adults to successfully comprehend speech. When any one of our senses (smell, taste, sight, hearing, or touch) is changed in some way, the brain reorganizes and adjusts. In the case of those with hearing loss, researchers found that the gray matter density of brain in areas specific to hearing was lower in people with decreased hearing ability, suggesting a link between hearing ability and brain volume.

So, use it or lose it may be the prevailing philosophy. Take heart (and USE those instruments that you have!) According to this study, early intervention for hearing loss with the consistent use of amplification can slow the progression of speech comprehension difficulty. “As hearing ability declines with age, interventions such as hearing aids should be considered not only to improve hearing but to preserve the brain,” said lead author Jonathan Peelle, PhD, research associate in the Department of Neurology. “People hear differently, and those with even moderate hearing loss may have to work harder to understand complex sentences.”

In two recent research studies, researchers measured the relationship of hearing acuity to the brain, first measuring the brain’s response to increasingly complex sentences and then measuring cortical brain volume in auditory cortex. Results indicate that older adults (60-77 years of age) with normal hearing for their age were evaluated to determine whether normal variations in hearing ability impacted the structure or function of the network of areas in the brain supporting speech comprehension.

The studies found that people with hearing loss showed less brain activity on functional MRI scans when listening to complex sentences. Poorer hearers also had less gray matter in the auditory cortex, suggesting that areas of the brain related to auditory processing may show accelerated atrophy when hearing ability declines.

In general, research suggests that hearing sensitivity has important consequences for neural processes supporting both speech perception and cognition. Although most the research has been conducted in older adults, the findings also have implications for younger adults, including those concerned about listening to music at loud volumes. “Your hearing ability directly affects how the brain processes sounds, including speech,” says Dr. Peelle. “Preserving your hearing doesn’t only protect your ears, but also helps your brain perform at its best.”

Physicians should monitor hearing in patients as they age, and everyone should have a baseline audiogram performed by a Board Certified Audiologist, looking specifically at speech recognition abilities even in the presence of normal hearing. Patients should talk to their physician or audiologist if they are experiencing any difficulty hearing or understanding speech. If your physician has not referred you for hearing evaluation, take action!

The research cited above in this article appears in the latest edition of The Journal of Neuroscience and was funded by the National Institutes of Health.

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Posted in Advanced Hearing Technology, Au.D., Bettie Borton, Board Certified Audiologist, Communication, Diagnostic Testing, Digital Hearing Aids, Doctor of Audiology, Ear Protection, Hearing, Hearing Aid, Hearing Aids, Hearing Assessment, Hearing Care, Hearing Test, Hearing Tested, Hearing Threshold, Signs of Hearing Loss

Tags: advanced hearing technology Alabama Au.D. audiogram Audiologist Audiologists auditory cortex Bettie Borton Board Certified Audiologist brain atrophy communication cortical brain volume Department of Neurology diagnostic testing digital hearing aids Doctor of Audiology Doctors Hearing Clinic ear protection gray matter hearing hearing assessment hearing care Hearing Devices Hearing Loss Hearing protection Hearing Test Hearing Tested hearing threshold Jonathan Peelle Journal of Neuroscience Montgomery MRI National Institutes of Health Perelman School of Medicine PhD ScienceDaily Sensorineural Hearing Loss signs of hearing loss speech comprehension University of Pennsylvania word recognition

Sound Advice

October 6th, 2011

By: Dr. Amin Musani
Doctor of Audiology
The Hearing Clinic
119 W. Main Street
Denison, TX 75021
(903) 462-4022
www.thehearingclinic.org

I watched as the next IDPA shooter stepped up to the firing line. You could tell he had done this before. He carefully but purposefully loaded a magazine into his handgun and chambered a round. On cue, he drew and shot a perfect score in amazing time. His handgun seemed like an extension of his arm. The bullets landed exactly where he willed them to on the cardboard target. After safely holstering he stepped back, turned around and flashed a smile, which told you he was pleased with his results and all that training and endless hours of practice had finally paid off. As he made it back to the observer area I walked over and congratulated him for a job well done. Curious as to what type of handgun he was using I asked him, “What kind is it?” He replied, “It’s 2:30pm.”

It never ceases to amaze me the high number of shooters that I come in contact with that do not wear any type of hearing protection while shooting. Granted, some things in our lives we cannot control. However, noise induced hearing loss (NIHL) and Acoustic Trauma are phenomenon that we most certainly do have control over and yet many shooters ignore the very basic principle of wearing hearing protection.

When is firearm noise is too much? When do we cross that line between loud and damagingly loud? Table 1 [1] displays some of the decibel (dB) levels of various sounds found in our daily lives. A decibel is a unit of measurement and for our purposes here it is measured on a logarithmic scale and there is a 10-fold increase in noise energy for each 10 dB increase. Said another way, an increase of 10 dB doubles the loudness level.

Sounds over 140dB can cause pain, and prolonged exposure to noise over 85-90dB can result in permanent hearing loss. Gunfire may be categorized as an impulse noise, which has the characteristic of an explosive burst. Impulse noise of sufficient intensity and pressure is often a cause of acoustic trauma. Generally, studies have shown that such impulse sounds may result in the shifting, skewing, bending, swelling, bursting, tearing, fusing &/or severe mechanical damage to the inner ear cells, structures, and auditory pathways. That is, short-duration sounds of sufficient intensity (e.g., a gunshot or explosion) may result in an immediate, severe, and permanent hearing loss, which is termed acoustic trauma. The degree of hearing impairment seen after acoustic trauma varies and may range from a mild to profound hearing loss.

Figure 1 (Pickles & Heumen; 2001) compares electron microscopy of normal, healthy outer hair cells (specialized hearing cells in our inner ear) to damaged ones. Once such damage occurs, it is permanent. There is no method of regenerating these cells or “curing the damage.” Bear in mind that this is only one site where such damage can occur from noise exposure along our auditory pathway.

There is evidence to suggest that once deterioration of certain specialized hearing cells (spiral ganglion cells) has begun, there is a corresponding deterioration within the central nervous system at areas higher up in the auditory system (Kim et al., 1997; Morest et al., 1998). Thus, once damage has occurred at lower levels it is not isolated there but rather may progress upwards through the auditory pathway. This is very characteristic of impulse noise such as gunfire that causes acoustic trauma. The inner ear, then, is not the only structure at risk from such exposure.

Figure 1. Normal, healthy outer hair cells (L) vs. damaged outer hair cells (R).

Virtually all of the structures of the ear and hearing system can be damaged from gunfire noise (NIH Consensus Statement; 1990). Generally, for sound levels below 140 dB, different types of sounds produce the same hearing loss. This does not appear to be the case at levels above 140 dB, where impulse noise creates more damage than would be predicted. This may imply that impulse noise above a certain critical level results in acoustic trauma from which the ear cannot recover (NIH Consensus Statement; 1990).

Exposure to noise between 90 and 140 dBA (dBA denotes a decibel measure made with a filter that adjusts for human auditory sensitivity) damages the inner ear metabolically rather than mechanically and causes injury depending on the level and duration of exposure. Noise-induced hearing loss, in contrast to acoustic trauma, develops slowly over years, and is caused by any regular and consistent exposure exceeding a daily average of 85-90 dBA (Clark & Bohne; 1999). Acoustic trauma may occur from just one unprotected exposure to gunfire noise.

For sounds between 75 – 90 dBA, the ear has a natural protective mechanism to reduce its sensitivity to low frequency impact sounds through what is termed the middle ear reflex. Generally speaking, muscles in our middle ear contract and stiffen three tiny bones (the smallest bones in the human body called ossicles; see Figure 2) that relay sound to the inner ear. However, a delay of 300 to 500 milliseconds is required to set this protection fully in operation. Most naturally occurring impact sounds can easily be dealt with by the middle ear, but many man-made sounds, such as explosions from guns, as well as certain industrial noises, occur so quickly that our middle ear protective mechanism cannot respond quickly enough. The hearing loss caused by such sounds is permanent acoustic trauma (Truax; 1999).

Peak sound levels from rifles and shotguns can range from 132 dB SPL (sound pressure level is another unit of measurement) for small-caliber rifles to more than 172 dB SPL for high-powered firearms. Americans collectively own more than 230 million guns, and more than half of men in the American industrial workforce occasionally use guns. The National Rifle Association estimates that 60 to 65 million Americans collectively own more than 230 million guns. Because guns are so prevalent in our culture, shooting firearms is the most important source of excessive noise outside the workplace. The severity of injury produced by impulsive noise exposure and the prevalence of shooting by Americans makes gun noise America’s most serious non-occupational noise hazard. The acoustic energy in a single report from a high-powered rifle or shotgun is equivalent to almost 40 hours of continuous exposure at 90 dBA. In other words, 1 bullet equals 1 week of hazardous occupational noise exposure. An avid target shooter can be exposed to an entire year’s worth of hazardous occupational noise in just a few minutes (Clark & Bohne, 1999; NRA, 1999).

What about firearms themselves? Is a .22LR any better on your ears than a .45ACP? Table 2 [2] compares the dB levels of various cartridges.

Recall that sounds over 85-90 dB can lead to permanent hearing damage without hearing protection. As can be seen from Table 2, even firing a .22LR (134 dB) has the potential of causing permanent, irreversible, inner ear damage.

There are various kind of hearing loss. Conductive hearing loss refers to physical damage, infection or fluid build up in the middle ear cavity (Figure 2). If the gunblast is of sufficient intensity a conductive loss may be seen and accompanied by such symptoms as eardrum rupture or middle ear bone damage.

Conductive losses are typically open to medical treatment from a physician who specializes in diseases of the ear (Otologist or Otolaryngologist). Sensorineural hearing loss refers to damage within the inner ear. This is usually, incorrectly, referred to as “nerve type deafness” which really only occurs in about 1% of the American population (Mueller and Hall, 1998). Sensorineural hearing loss is the most common type of hearing loss in America, and noise induced hearing loss or acoustic trauma from firearms is typically sensorineural. It is permanent, irreversible and with proper hearing protection, can be avoided or minimized.

Probably the most common excuse I have heard from shooters is that “my ears have toughened up from shooting and I don’t have to wear hearing protection.” Well, I’m sorry to say that this is not possible. What is more likely is that you have sustained sensorineural hearing loss and some sounds just don’t seem as loud any longer (along with speech). However, it is still critical to wear hearing protection as the hearing you do have left can still be harmed from unprotected firearm exposure. As researchers and educators have noted, “Ears don’t get tough, they get deaf.” (Mueller & Hall, 1998).

Typically, noise induced hearing loss and acoustic trauma affect the high frequencies first. Our ears respond to sounds across a wide range of frequencies, from about 20 to 20 000 Hertz (Hz). Speech frequencies are roughly located between 250-8000 Hz. Low frequencies are used to “hear people” while the highs are what we use to understand what they say. To put it another way, the power of speech (vowels) is located in the low frequency range while the clarity of speech (consonants such as s, k, th, sh, f, th) is located in the highs. High frequency consonants are necessary to maximize speech intelligibility. Noise damage from firearms affects these high frequencies first due to, some believe, anatomical reasons (Mueller & Hall, 1999). Figure 3 [4] depicts an audiogram (record of one’s hearing) of a sensorineural hearing loss typical of shooters.

As such, many people complain that “I hear people, but sometimes I don’t understand what they said.” Women’s and children’s voices, typically in the high frequency range, are usually the most difficult to understand when one has such a high frequency hearing loss. Add to all this that our hearing gets worse just from the normal aging process and you quickly realize just how important hearing protection really is.

Other factors also determine how susceptible one is to firearm noise exposure. For examples, blue-eyed individuals may be more susceptible than people with greater melanin content in their eyes. Some studies have shown that males are more susceptible to noise induced hearing loss (NIHL) than females. Newborns and older individuals also seem to be more likely to develop hearing loss from NIHL. Finally, some studies have also shown that smoking increases one’s chances of acquiring hearing loss from noise. This may be due to the carbon monoxide in the smoke (Henderson, Subromaniam, & Boettcher; 1993).

I’ve also noticed that some shooters will wear their hearing protection, but only while shooting. When observing from just a few yards away, they do not wear their hearing protection. This is simply not good hearing conservation practice and is against competition rule #7 of your IDPA manual. In fact, if one was to comply with this rule, anyone within 50 yards of the firing line must wear not only hearing protection, but eye protection also. Some handguns at IDPA produce a very discernible boom that can still damage your ears (see Table 2), even if you are not shooting and are only a few feet to yards away. Of course, this will vary with the type of firearm, cartridge, and distance from the shooter, but Table 2 clearly shows that even a report from a .22 can damage your ears. Though not relevant to IDPA purposes, the use of muzzle brakes and ports dramatically increases the level of noise exposure from firearms.

In the consideration of sounds that can damage hearing, one point is clear: it is the acoustic energy of the sound reaching the ear, not its source, which is important. That is, it does not matter if the hazardous sound is generated by a machine in the workplace, by a loudspeaker at a rock concert, by a lawnmower or a firearm during an IDPA event. Significant amounts of acoustic energy reaching the ear may create damage–at work, at school, at home, or during leisure activities. Although there has been a tendency to concentrate on the more significant occupational and transportation noise, the same rules apply to all potential noise hazards, including and especially firearms (Clark and Bohne; 1999).

Sound advice dictates that when at the gun range, by all possible means, take appropriate measures to practice safe gun handling. Wearing hearing protection (along with eye protection) falls into this category, whether you are the shooter or an observer. Think of it this way: hearing aids could cost you anywhere from $600 to $8000 per pair! Protect your hearing and you could spend that on more important things…like firearms, ammunition, training & IDPA.

References

American Academy of Audiology. http://www.audiology.org/consumer/guides/aural.php
Clark, W.W. & B.A. Bohne (1999). Effects of noise on hearing. Medical Student Journal of American Medical Association. May 5th, Vol. 281: 17.
E.A.R., Inc. (2001). http://www.earinc.com/howhearingworks.html
Henderson, D., Subromaniam, M., & Boettcher, F. (1993). Individual susceptibility to noise-induced hearing loss. Ear and Hearing, 14(3): 152-156.
Kim, J., Morest, D.K., and Bohne, B.A. (1997). Degeneration of axons in the brain stem of the chinchilla after auditory overstimulation Hear Res, 103:169-191.
Kramer, W. Gunfire and Hearing Protection. Ball State University, Muncie, Indiana.
Mestel, R. (2000). Los Angeles Times. Original print date February 28, 2000. http://www.audiology.org/consumer/guides/aural.php
Morest, D.K., Kim, J., Potashner, S.J., and Bohne, B.A. (1998). Long-term degeneration in the cochlear nerve and cochlear nucleus of the adult chinchilla following acoustic overstimulation. Micro Res Tech 41:205-216.
Mueller, H.G. & Hall, J.W. (1998). Audiologists’ Desk Reference. Vol. I Singular Publishing: San Diego
Mueller, H.G. & Hall, J.W. (1998). Audiologists’ Desk Reference. Vol. II. Singular Publishing: San Diego.
National Rifle Association (1999). Fact Card. http://www.nraila.org/research/99fctcrd.htm.
NIH: National Institute of Health Consensus Statement Noise and Hearing Loss. Online 1990 Jan 22-24;8(1): 1-24. http://text.nlm.nih.gov/nih/cdc/www/76txt.html
Pickles, J., & Heumen, W. (2001). Hearing Unit. Vision Touch and Hearing Research Centre, University of Queensland. http://www.vthrc.uq.edu.au/hearing/hearing_home.html
Truax, B. (1999). Handbook of Acoustic Ecology (2nd Edition). Cambridge Street Publishing.

Dr. Amin Musani is a Clinical Audiologist practicing in Denison, TX. Any comments or questions may be directed to DrAminMusani@cableone.net or The Hearing Clinic 119 W. Main St. Denison, Texas, USA 75021, Phone: (903) 463-9900, FAX: (903) 463-9911.

[1] Mueller and Hall (1998).

[2] William Kramer, Ph.D.

[3] Mestel, 2000.

[4] E.A.R. Inc.

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Posted in Audiologist, Clinical Audiologist, Decibles, Decreased Hearing, Ear Protection, Hearing Aid, Hearing Care, Hearing Damage, Hearing Loss, Noise Exposure, Noise Hazards, Noise levels, Noise-induced, Protecting Ears, Texas

Tags: Acoustic Trauma Audiologist decibles Denison Hearing Aids hearing care Hearing Loss Hearing protection Hearing Protection Devices noise exposure noise hazards Noise Induced Hearing Loss noise levels smoking Texas

Stop Transactional Hearing Care!

September 21st, 2011

By: Dr. Helen Hallenbeck
Board Certfied Audiologist
Vibrant Hearing
601 South Orange Street
Missoula, MT 59801
(406) 549-1951
www.myvibrantsound.com

A gentleman called yesterday and wondered if one of our audiologists would please make an impression of his ear. He found a hearing aid and wanted to “whittle on it” to make it fit his ear better. My first reaction (after “YUCK!”) was Why in the world would anyone want to wear a hearing aid that was customized for another person’s ear and hearing loss?!?!

Was it a fundamental lack of understanding of the complexities of hearing loss and the insidious impact that loss has on relationships, communication patterns and lifestyle? Was it financial limitations? It takes an average of 7 years from the moment a person realizes they have a hearing loss until that person decides to get help. Throughout that period of emerging awareness, the person with a hearing loss is bombarded with mixed marketing messages. “Our Amazing Hearing Aids get rid of ALL unwanted background noise!” “Our Amazing Hearing Aids are INVISIBLE!” Our Amazing Hearing Aids will let you hear ONLY what you want to hear!”. In addition to the inexcusable exaggeration of the capabilities of any hearing technology, the hearing aid companies lure people in with FREE! everything.

Is it any wonder, when a person is finally ready to make the deeply personal and incredibly important investment, that they fundamentally misunderstand what it is they are investing in and who it is they are investing with? The gentleman’s request for an ear impression so he could make his own hearing aid should not come as a surprise. The hearing industry has painted themselves into a corner with salesmanship and bottom-dollar marketing. As a result the industry has devalued it’s very existence.

The truth is, hearing loss is complicated, frustrating and has a profound negative impact on the lives of the people that are affected. It is time the industry began to address the PERSON with the hearing loss. Today’s hearing technology is truly amazing and an appropriate solution can be found to fit within virtually any budget. But unless that technology has been chosen specifically for the individual, with all of his needs, desires, concerns, question and fears having been accounted for and carefully considered, then the technology has been wasted.

Let us each work to make rigorous diagnostics, counseling, education, prevention and rehabilitation the expectation of the consumer. Let’s stop the transactional process of hearing care that so dominates this industry and start humanizing what is truly a disability.

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Posted in Hearing Aid, Hearing Aids, Hearing Care, Hearing Loss, hearing needs, Hearing Problem, Helen Hallenbeck, Missoula, Uncategorized, Vibrant Hearing

Tags: amazing hearing aids Audiologist ear eliminating background noise hearing aid hearing aid companies hearing industry Hearing Loss Helen Hallenbeck invisible hearing aids Missoula Vibrant Hearing

Sharpen Your Listening Skills

August 3rd, 2011

By: Suzanne Yoder, Au.D.
Doctor of Audiology
HearWell Center
2400 Ardmore Blvd., Suite 401
Pittsburgh, PA 15221
(412) 271-3002
Follow HearWell Center | Facebook | Twitter
www.hearwellcenter.com

Auditory training is a term you will probably only hear in an audiology office or perhaps a school. But it is important for people with hearing loss to know that they can train their brain to hear and listen. Our brain is always searching for sounds whether or not we focus on the sounds and this is called “hearing”. Attending to and focusing on a sound, causing more parts of the brain to react is called “listening.” People who have hearing loss often stop working at listening because it is too difficult and causes fatigue or frustration. Unfortunately this leads to more communication problems due to the combined effect of hearing loss and diminished listening skills. Though anyone can benefit from the practice of using and strengthening listening skills it is more important for those who are hard of hearing.

When it comes to hearing loss and hearing aids, most hearing aid users look to the device to make communication better and though hearing aids can improve hearing, they cannot improve listening. Instead, hearing aid users should strive to be “patients of hearing health care” and look for solutions to improve hearing and listening. This can be accomplished by using any and all devices needed to support hearing as well as therapy and exercises for listening. The highest level of satisfaction with hearing aids comes from following the audiological recommendations in full and accepting that learning to hear and listen again is a process that requires motivation and time. Research in audiology reveals over and over again that hearing care is not a simple thing. The audiology degree is a testament to this fact. For example, an audiology student will spend 8 years in college, earn two or more higher education degrees and perform thousands of clinical hours with patients. Still many people price check for hearing aids believing they are making a technology purchase instead of looking at the professional behind the technology and the service that comes with learning to hear and listen.

AUTHOR’S NOTE
I’ve been on both “sides of the fence” so to speak. I am a hard of hearing consumer and user of hearing aids. I grew up with hearing loss in both ears and have used hearing aids in both ears as long as I can remember. I am also a doctor of audiology and the owner of HearWell Center in Forest Hills (independently owned private practice). Educating patients is very important to me and I invite you to visit our website for more information.

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Tags: Audiological audiology Auditory Training Communications Problems Hard of Hearing Hear and Listen hearing aid users Hearing Aids hearing care hearing healthcare Hearing Loss Listening Skills

Hearing with Only One Ear (Unilateral Hearing Loss)

July 27th, 2011

By: Joan D’Alessandro, Au.D.
Doctor of Audiology
Advanced Hearing & Balance Care
30 South Valley Rd., Ste. 208
Paoli, PA 19301
(610) 296-5857
www.hearingcare4u.com

Hearing loss in one ear can result from several disorders or injuries:

Bacterial infections
Head injury
Vascular (blood supply) problem
Meniere’s disease
Viral infection (herpes)
Acoustic or 8^th nerve tumor
Acoustic trauma (sudden loud noise to one ear)

Patients who suffer a severe to profound hearing loss in one ear report no comprehension difficulty in quiet, one-one-one conversations. However, understanding conversation in less than ideal listening situations is severely compromised. These include noisy areas such as restaurants, group conversations and reverberant areas such as churches, gyms, and indoor swimming pools.

Why are these areas so challenging for those with unilateral deafness? Your ears individually and collectively gather acoustic information and relay those signals to the auditory reception centers in your brain. With only one ear collecting information, the auditory centers are starved for the complete acoustic picture normally provided by two ears. When this information is lacking, a number of things happen that impair your ability to organize and make sense of speech.

Head Shadow Effect

When a sound occurs toward the deaf ear, the arrival of that sound at the hearing ear is partially blocked by your head, commonly known as the head shadow effect. The sounds most easily blocked are the higher pitches which are absolutely necessary for accurate perception of the voiceless consonant sounds of speech, the s,c,f,t,p,ch and sh sounds. These consonants allow us to tell the difference between words like teach versus feast and distillery versus facility. This word discrimination ability is compromised by hearing with only one ear because of the head shadow effect.

Localization Ability

Your brain needs well-balanced sound information from both ears for you to be able to easily pick out the direction from which a sound originates. Both a sound’s time of arrival (it arrives a few milliseconds faster at the ear closest to the sound) and its intensity or loudness (louder for the ear closest to the sound) are cues that your brain uses to locate the source of a sound. When you have only one ear, all sounds seem to be coming from the side of the good ear, even when originating from the bad ear side. So someone with hearing in only one ear lacks the instantaneous locating cues of time and intensity. If someone calls your name outdoors, you have to turn your head around to locate the source and it may take several repetitions to accurately pinpoint the source.

Sound Summation and Noise Squelch

To your brain, one ear + one ear = three! A sound which is barely audible at 20 feet away with only one ear, is easily audible at 30 feet when two ears are listening. This is called the binaural summation effect and is the result of the two hearing nerves crossing many hundreds of times before the information reaches the cortex. This crossing or decussation results in the enhancement of sound, so softer sounds become audible.

In addition, this neural sharing contributes to an advantage, known as binaural squelch, when listening in background noise. This ‘squelch’ provides 3 decibels more signal than noise, also known as the signal –to- noise ratio or SNR. Even though three decibels may not seem like much, the decibel is a logarithmic function much like the Richter scale for earthquake measurement. For every 3 decibels, sound power actually doubles. So three decibels extra is a significant amount and allows for easier understanding in noisy situations.

Solutions for Those with Only One Hearing Ear

The traditional hearing aid solution for unilateral hearing loss has been the use of a CROS hearing aid. The acronym stands for Contralateral Routing of Sound and employs a unit on the dead ear which contains a microphone to pick up sounds arriving on that dead side. Those sounds are then transmitted wirelessly to a receiver unit on the good side. The sounds from the dead side are then routed into the good ear.

This CROS type aid prevents the head shadow effect but does nothing for localization ability and does not provide binaural summation or squelch.

If the hearing loss is in the severe category, a traditional hearing aid either in a behind-the-ear(BTE) or in-the-ear style can be fit. As with all hearing aids fittings there is an accommodation period during which the patient learns to use the acoustic information from the damaged ear. The sooner the fitting is done, the more likely the patient will be a successful hearing aid user.

A fairly recent surgical solution for single-sided deafness (SSD) is the implantation of a BAHA or Bone-Anchored Hearing Aid. This surgical implant uses bone conduction to send sounds from the bad ear side to the good ear via an implant with a microprocessor that adheres to a magnet under your scalp. The processor is detachable for showering, etc., and is easily hidden underneath your hair. Again, the BAHA does not accomplish true binaural hearing but does lessen the head shadow effect and some recipients do notice improved localization ability after use of the BAHA for some time.

Our brains are wired to receive information from both ears. Loss of hearing in one ear is a significant handicap with which many people cope through the use of CROS type hearing aids, BAHA implant and positioning themselves to maximize the best sound reception to the hearing ear.

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Posted in Advanced Hearing & Balance Care, Audible, Binaural, Binaural Hearing, Deaf Ears, Decibles, Ears, Hearing Aid Compatible, Hearing Aid Styles, Hearing Aid Technology, Hearing Aids, Hearing Ear, Hearing Loss, Joan D'Alessandro, Listening Situations, Listening Tips, Paoli, Pennsylvania, Uncategorized, Unilateral Deafness