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Ear wax removal, East Devon

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Ear wax removal, East Devon

Ear wax removal East Devon, Hearing aids, hearing tests Honiton

Ear wax removal East Devon

 

Do you live in East Devon near Honiton?  In need of a hearing test or your hearing aid repaired? Or maybe you need your ear wax removed by a leading ear wax removal centre? Here at the Honiton hearing centre Colin Eaton can help with all your hearing needs.

Ear wax removal in Devon

We are experts in ear wax removal and use various techniques. Microsuction is just one way we can get out your hard impacted ear wax and the traditional water irrigation is another.  You can watch our video on Microsuction here.

 

Tinnitus therapy in Devon

DID YOU KNOW?

1 in 10 adults in the UK suffer with tinnitus.
Many of those suffering are not offered any help, and are simply told to live with it.
Tinnitus can almost always be improved for the client.

How can we help with Tinnitus?

We firstly meet with you and sit and discuss your full hearing history, work out what triggered the problem, we then talk to you about evaluating the degree of tinnitus and how it is impacting on your life, where your issues are. We normally examine the ears with our video otoscope and show you the results on our flat screen. We then carry out a puretone audiogram to assess how good your hearing is, or if there are any areas of damage (such as those caused by noise for example).

We then sit down and consult with you, armed with all the information, and work out a care plan for you, using the tools available to us as explained above.

Please call Sam or Colin for an appointment and we will fit you in as soon as possible.  We are based in Honiton East Devon but cover Exeter, Sidmouth, Seaton and beyond.

If you live in Somerset  you can always try the Keynsham hearing centre. 

Heading a football could create Balance issues

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Heading a Football May Be Linked to Increase in Balance Problems

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Hearing aids, digital hearing aids, ear wax removal, hearing aid batteries, Tinnitus therapy, Tinnitus issues,

Honiton hearing centre-Devon.
Ear wax removal Devon

Soccer players who head the ball more often may be more likely to have balance problems than players who do not head the ball as often, according to a preliminary study released today that will be presented at the American Academy of Neurology’s (AAN) Sports’ Concussion Conference in Indianapolis July 20 to 22, 2018, the AAN announced on its website.

“Soccer headers are repetitive subconcussive head impacts that may be associated with problems with thinking and memory skills and structural changes in the white matter of the brain,” said study author John Jeka, PhD, of the University of Delaware in Newark, Del. “But the effect of headers on balance control has not been studied.”

For the study, 20 soccer players recruited from the community in Newark took a balance test where they walked along a foam walkway with their eyes closed under two conditions: with galvanic vestibular stimulation (GVS) and without GVS. For GVS, electrodes placed behind each ear stimulate the nerves that send messages from the balance system in the inner ear to the brain. So the stimulator can make you feel like you are moving when you are not. In this case, it made participants feel like they were falling sideways.

The soccer players, who had an average age of 22, also completed questionnaires about how many times they had headed the ball during the past year. The number of headers over a year for each participant ranged from 16 to 2,100, with an average of 451 headers. Those numbers were calculated by asking participants for the average number of headers during a practice and game, the average number of practices and games per week, and the average number of months per year that the player participated.

The study found that the players with the largest number of headers had the largest balance responses to GVS in both foot placement and hip adduction during the walking test, which indicated that they had vestibular processing and balance recovery problems. Researchers found for every 500 headers, foot placement response increased about 9 millimeters and hip adduction response increased about 0.2 degrees.

“Soccer players must have good balance to play the game well, yet our research suggests that headers may be undermining balance, which is key to all movement, and yet another problem now linked to headers,” said study author Fernando V. Santos, PT, of the University of Delaware. “It is important that additional research be done to look more closely at this possible link with balance and to confirm our findings in larger groups of people.”

A limitation of the study was that participants relied on memory when reporting how many times they headed the ball. The study was supported by the National Institutes of Health (NIH).

Learn more about concussion at www.BrainandLife.org, the American Academy of Neurology’s free patient and caregiver magazine and website focused on the intersection of neurologic disease and brain health. Follow Brain & Life on FacebookTwitter, and Instagram.

To learn more about the AAN’s Sports Concussion Guideline and access resources, visit https://www.aan.com/concussion.

Original Paper: Santos FV, Caccese JB, Gongora M, et al. Greater exposure to repetitive subconcussive head impacts is associated with vestibular dysfunction and balance impairments during walking. Paper presented at: 2018 AAN Sports Concussion Conference; Indianapolis, IN. https://www.aan.com/PressRoom/Home/GetDigitalAsset/12757

Source: AAN

Image: © Macleoddesigns Dreamstime.com

Tinnitus therapy Devon

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An international study from 2012 found that 15% of the global population experience permanent tinnitus but many more are affected by temporary tinnitus. A Danish study, also from 2012, with 14,000 participants found that 27% of those in the study experienced either temporary or permanent tinnitus. In other words, more than one quarter of the Danish population are affected tinnitus.

But despite a lot of research on the topic, there is still a lot to learn about tinnitus. According to Chief Physician Ture Andersen at Odense University Hospital in Denmark, tinnitus is often a symptom of damage to the inner ear. Tinnitus is not a disease, but can be a symptom of a disease or an impaired auditory system. It is defined as the perception of noise or ringing in the ears when no external sound is actually present. The sounds are most commonly described as ringing, whistling, wheezing, buzzing or humming, but can be described in many other ways. A large Swedish study showed that excessive noise at work and in other environments results in fatigue, headaches and ultimately impaired hearing or tinnitus. Another study, from France, shows that only one in 123 people with tinnitus do not have a hearing impairment.

 

Eva’s history

Eva Jensen, who lives in Greve, Denmark, fits in well to these statistics. With a moderate to severe hearing loss, Eva can’t hear much without her hearing aids and she experiences tinnitus.
“What does your tinnitus sound like?” I asked Eva. She explained that it is a constant buzzing sound, which lies somewhere in the middle of the pitch spectrum. “I think it developed at my work where there was a lot of noise,” says Eva. In 2006 she stopped working as an Educational Assistant in a nursery because of a back injury and since then she has suffered from constant back pain.
“It was only when I stopped working that I started thinking about my tinnitus. My husband was still working so I was at home alone where it was completely quiet and I became more aware of the ringing in my ears.” She experiences it all day, especially when she takes off her hearing aids in the evening. “Since my injury I have the TV on constantly – it helps me think of something other than my back pain,” says Eva.

Eva’s experience with Relief app

“It’s really great to be able to use the app when my tinnitus is driving me crazy. If you are strongly affected by tinnitus, I would definitely recommend this app. There are so many possibilities with creating your own soundscapes, you can always find a sound that’s comfortable. There is no doubt that I’m going to keep it on my phone, so I can get help when my tinnitus it really bothering me,” says Eva with a smile.

ReSound Relief

The idea of helping people focus on something other than the pain, or in this case tinnitus, is the basic concept of a new app made by the hearing aid manufacturer GN Hearing. The free app is called ReSound Relief and offers a combination of audio therapy and relaxation exercises. My editorial team and I tested the app, which offers some new and unique features compared to other apps we have tried. One very smart feature of the app is that it allows you to create your own soundscapes.

Relief allows you to combine a variety of familiar sounds such as birdsong or bubbling water with music and other therapeutic nature sounds. The ability to combine sounds, offers an almost endless amount of possibilities. This sound mixing feature allows you to mix five different sounds and you can individually adjust the volume of each sound.

After downloading the app, you can listen to music on your smartphone as usual, and if you use wireless hearing aids or headphones, you can stream directly through them. The ReSound Relief app also contains a feature called MyRelief that keeps a record of how you use the app and which sounds you have used the most. It creates a personalized plan and allows you to track your progress, much like an exercise app. “When we were developing the concept of this app, we analyzed the market for other tinnitus apps and found that mostof them just use sounds as a distraction. Very few actually guide the user through the tinnitus management process. Tinnitus management for many is more than just playing a sound.

The idea of MyRelief is that you can use it as part of the treatment provided by a Hearing Care Professional. Because MyRelief keeps a record of your use, it provides useful information that a Hearing Care professional can use as part of tinnitus counseling” says Michael Piskosz, Senior Audiologist at GN Hearing.

Article taken from a press release by GnResound May 2018

Tinnitus, therapy, hearing aids, ear wax removal, hearing aid batteries

Tinnitus therapy in Devon. The Honiton hearing centre.

For more information on Tinnitus read our Tinnitus page here.

Hearing health @ Honiton Hearing

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Honiton Hearing News:

We search around the world to keep you up to date on the latest hearing related articles. Today we have found an interesting article regarding an unusual subject.  If you suffer from any hearing related issues such as earwax build up or you are looking to get a hearing test we treat many customers from around the Devon and Honiton area.

Earwax removal, Microsuction and the very latest digital hearing aids are available.

 

Though public transportation is thought to be better for the environment in that it reduces greenhouse gas emissions, saves energy, and improves air quality, according to the Federal Transit Administration, there may be a negative effect on your personal health.

According to a recent Canadian study, commuters traveling during peak hours were exposed to maximum noise levels. A summary of the study’s results, published on the Hear-it AISBL—a nonprofit organization that provides information on hearing loss—website, show the results of the study, which was published in the Journal of Otolaryngology—Head & Neck Surgery. In this article, we’ll share the highlights, edited and adapted from the Hear-it website.

COMMUTING STYLES

Researchers looked at two different commuting situations among Toronto residents: people waiting for a streetcar/bus as compared to people walking/biking to a subway. Bikers were exposed to louder noise than those walking or driving a vehicle. Noise levels were higher for those waiting on a subway platform as compared to those in the subway car. And, finally, research showed that those waiting at bus stops were exposed to the loudest noise of all.

PEAK NOISE

Though commuters often only experienced short and intense bursts of impulse noise exceeding the 114 dBA limit recommended by the EPA, researchers concluded this can be just as harmful as prolonged noise exposure. Up to 20% of the peak mean noise measurementsexceeded 114 dBA, and up to 85% of measurements at bus stops were higher than 120 dBA, according to the study. Researchers were concerned that prolonged exposure could lead to noise-induced hearing loss.

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Tinnitus therapy, Honiton, Devon

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Brainwave Abnormality Could Be Common to Parkinson’s Disease, Tinnitus, Depression

Tinnitus, news update:

Earwax removal, hearing aids and hearing tests in Honiton, Devon.

 

The Honiton hearing centre in Devon offers Tinnitus therapy

A brainwave abnormality could be a common link between Parkinson’s disease, neuropathic pain, tinnitus, and depression—a link that authors of a new study suggest could lead to treatment for all four conditions.

Dr Sven Vanneste, an associate professor in the School of Behavioral and Brain Sciences at The University of Texas at Dallas, is one of three authors of a paper in the journal Nature Communications regarding thalamocortical dysrhythmia (TCD), a theory that ties a disruption of brainwave activity to the symptoms of a wide range of neurological disorders, The University of Texas announced.

Dr Sven Vanneste, associate professor in the School of Behavioral and Brain Sciences.

Dr Sven Vanneste, associate professor in the School of Behavioral and Brain Sciences.

Vanneste and his colleagues—Dr Jae-Jin Song of South Korea’s Seoul National University and Dr Dirk De Ridder of New Zealand’s University of Otago—analyzed electroencephalograph (EEG) and functional brain mapping data from more than 500 people to create what Vanneste believes is the largest experimental evaluation of TCD, which was first proposed in a paper published in 1996.

“We fed all the data into the computer model, which picked up the brain signals that TCD says would predict if someone has a particular disorder,” Vanneste said. “Not only did the program provide the results TCD predicted, we also added a spatial feature to it. Depending on the disease, different areas of the brain become involved.”

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The strength of our paper is that we have a large enough data sample to show that TCD could be an explanation for several neurological diseases.

Brainwaves are the rapid-fire rhythmic fluctuations of electric voltage between parts of the brain. The defining characteristics of TCD begin with a drop in brainwave frequency—from alpha waves to theta waves when the subject is at rest—in the thalamus, one of two regions of the brain that relays sensory impulses to the cerebral cortex, which then processes those impulses as touch, pain, or temperature.

A key property of alpha waves is to induce thalamic lateral inhibition, which means that specific neurons can quiet the activity of adjacent neurons. Slower theta waves lack this muting effect, leaving neighboring cells able to be more active. This activity level creates the characteristic abnormal rhythm of TCD.

“Because you have less input, the area surrounding these neurons becomes a halo of gamma hyperactivity that projects to the cortex, which is what we pick up in the brain mapping,” Vanneste said.

While the signature alpha reduction to theta is present in each disorder examined in the study—Parkinson’s, pain, tinnitus, and depression—the location of the anomaly indicates which disorder is occurring.

“If it’s in the auditory cortex, it’s going to be tinnitus; if it’s in the somatosensory cortex, it will be pain,” Vanneste explained. “If it’s in the motor cortex, it could be Parkinson’s; if it’s in deeper layers, it could be depression. In each case, the data show the exact same wavelength variation—that’s what these pathologies have in common. You always see the same pattern.”

EEG data from 541 subjects was used. About half were healthy control subjects, while the remainder were patients with tinnitus, chronic pain, Parkinson’s disease, or major depression. The scale and diversity of this study’s data set are what set it apart from prior research efforts.

“Over the past 20 years, there have been pain researchers observing a pattern for pain, or tinnitus researchers doing the same for tinnitus,” Vanneste said. “But no one combined the different disorders to say, ‘What’s the difference between these diseases in terms of brainwaves, and what do they have in common?’ The strength of our paper is that we have a large enough data sample to show that TCD could be an explanation for several neurological diseases.”

With these results in hand, the next step could be a treatment study based on vagus nerve stimulation—a therapy being pioneered by Vanneste and his colleagues at the Texas Biomedical Device Center at UT Dallas. A different follow-up study will examine a new range of psychiatric diseases to see if they could also be tied to TCD. Tinnitus, is thought to be connected.

For now, Vanneste is glad to see this decades-old idea coming into focus and suggest that Tinnitus is getting better understood,.

“More and more people agree that something like thalamocortical dysrhythmia exists,” he said. “From here, we hope to stimulate specific brain areas involved in these diseases at alpha frequencies to normalize the brainwaves again. We have a rationale that we believe will make this type of tinnitus therapy work.”

The research was funded by the National Research Foundation of Korea(NRF) and the Seoul National University Bundang Hospital.

Original Paper: Vanneste S, Song J-J, De Ridder D. Thalamocortical dysrhythmia detected by machine learning. Nature Communications. 2018;9(1103)

Source: Nature Communications, University of Texas at Dallas, Tinnitus.

Image: University of Texas at Dallas

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