Tinnitus, TMJ, Headaches, Neck Pain, Facial Pain, etc. — Possible Treatment

@Sjtof
@chronicburn
@just1morething

I just realized that my masseter muscle is also extremly tight and when I pull it, it almost makes me faint.
After I stretch and pull this muscle, my entire jaw starts to tighten up, and it triggers somewhat of a minor headache and a weird sensation behind my ear sometimes. So I guess this is a really important muscle as well. I think @Sjtof and @chronicburn pointed out this muscle before.

Im just amazed at how much tension that has built up over the years..

Just a little reminder of muscles that I have found to be of high importance..
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Sternocleidmastoid muscle (Clavicular and Sternal head)
Auricularis Anterior
Auricularis Posterior
Auricularis Superior
Masseter
Platysma
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Another video I found very helpful about the masseter and how to loosen it up:

 
@Mr. Cartman
@chronicburn

Hi,

these are basically the stretches I'm doing right now, like 2 or 3 times a day.

Neck%20Stretches_1.jpg


Then I do thisone for the SCM:



I do these sessions, when I wake up, in the middle of the day and when I go to bed. Every exercise I repeat like 5-10 times and hold it for 10 secs each time.

When I do The rotational over stretch with pressure to the right, in the first pictur, it gives me a new sound in my left ear. Besides that I notice the cervical flexion feels the best, like something is opening up. Every time is do it though it gives me these popping feeling in my left ear whenever I move my neck back up.
Also I got a lot of triggerpoints in my shoulder and neck...Especially my left shoulder hurts kinda bad. I did try some triggerpoint massages there, with putting pressure on those spots, and I noticed a change in the sound, but not really a positive one.

As of now the sound keeps litteraly changing 50 times a day. It kind off drives me crazy because I got no clue where to adapt too. Maybe these sound distortions and the painful neck contribute too that as I keep being reminded of the sound. Just gotta wait for the MRI results...

Anyways, @Mr. Cartman , what do you do with the auricularis muscles exactly? and if you got any suggestions on additional exercises or length of the exercises then they are welcome of course:) Doing it for 2 days now and I think im expecting too much of it already :p. How long did it take you before you noticed some changes?
 
@Sjtof

Thanks for such a great post! :)

Its very interesting what the man says in the SCM video, about having the shoulders in a forward bent rounded position adding strain to the back and probably the neck..
Thats just what happens when Im seated in my damn car.. Also sometimes when Im at the computer.. And I have suspected that this aint a very good position.

Im going to do all the stretches in your post, and I do most of them already.. :)

I also got the "opening up" feeling when I play with my clavicular part of the SCM.. Its weird..

Yesterday I would say I was 99.9% back to normal.. I had to get up early today, and I was going to see a new physio..
I did notice that my sleep was pretty horrible.. I didnt sleep well, and my teeth kind of hurt when I woke up, also had a screaming T with headaches.. I think it has to do with either neck position, teeth grinding or both.. I was working my masseter muscle yesterday as well, and it triggered some serious jaw pain.. So I will call a dentist tomorrow and ask for a night guard.. I also bought a special pillow that supports the neck while sleeping today.. Ill let you know if it makes a difference..

However, the new physio Im seeing did use needles to treat my trigger points.
Ive had my right shoulder done today, and the left (the bad one) done next week.. And when she inserted the needles I could feel some electrical jolts that kind of hurt a littlebit.. I have no expectations for this therapy, but I think its worth to try it out.. That being said, my right shoulder does feel a little more relaxed after the treatment and I kind of have this weird "urge" to do the same thing with the left one.. Not sure why, but maybe theres something to it..
 
@Sjtof

As far as the auricularis, im just gently stretching them with the tip of my finger and doing some massage..

I did notice some changes within a week or so.. Kinda big changes as well, but I have probably been grinding my teeth all night, and after stretching my masseter yesterday, a lot of the stuff came back.. So I think its very related..

EDIT: I also have to say that yesterday, I managed to get the hiss back to where it belongs, only when I yawn!! So I have a strong belief that theres something going on with those muscles..
 
@Sjtof
@chronicburn

I found some information regarding muscles related to the ear and what nerves they are related to, if anyone is interested :)

Stapedius is innervated by the facial nerve.
Tensor tympani and tensor veli palatini by the mandibular nerve of the trigeminal nerve.
Levator veli palatini and salpingopharyngeus by the vagus nerve.
 
@Mr. Cartman
@Sjtof
Hey guysjust a quick update, im in roma now for afew days enjoying things as much as i can, with almost no internet for a change :) ive only read quickly through all posts but the neck stretches basically sumup what my physio told me to do, good post btw sjtof :) also mr cartman yes my masseter is together with the scm the most tense and painful muscle i have, im certainthemasseter makes apull on the ear (muscles) and that is most likely the result of teeth grinding, and chewing and jawning with my slightlyinflammated jaw or its dislocated, or both. , also ive beenhaving dry needling since a week or 2 too, i must saysince last week it had some effect, often my t changes to a silent low white noise rustle, and thepulsatile t has decreased, now for atest im not stretching and not frantically caring about my posture etc since im in rome, basically living life a bitlike before t, and i must say t is loud again, not as loud as on onset, but noticeablylouder, so its probably related with the muscles indeed, also flying did not cause a spike, so i can ruleout etd as a contributing factor, so eithermy muscles are tensing up again, or the noise of the big city is doing it, but im duspecting the first, also i have mystery toothaches on one side and a lot of masseter pain on the same side.

i have the feeling that either tension has beenbuilding up for a very long time and will take very long to calm down, or some mechanism is causing the muscles to tense up all over again, because that dry needling succeeds in reducing tension a lot, but after afewdays i feel those treated muscles tensingup again, and a few days later t gets louder again (needless to say it fluctuates a lot, you know how it goes, so i mean on average), as of tomorrow im gonnastretch again, because pointhas been proven, not stretching and caring about posture definitely makes it worse for me.
@Mr. Cartman i would advice you to certainly keep doing the dry needling for 2 weeks or so, in my case the scm and masseter spasm bigtime and are sore afterwards, but after a week or so (i have a treztment twice a week, in which 8muscles are being needled every time) i surelynoticed improvement, and im kinda curious if it will help for you, proving for me that its not placebo effect :) please keep me updated:)

Sorry for the typos im typing this on my phone, and ill try tokeepyou guys updated as well! Goodnight peeps!
 
@Sjtof
@chronicburn

I found some information regarding muscles related to the ear and what nerves they are related to, if anyone is interested :)

Stapedius is innervated by the facial nerve.
Tensor tympani and tensor veli palatini by the mandibular nerve of the trigeminal nerve.
Levator veli palatini and salpingopharyngeus by the vagus nerve.

Well that is very interesting! Could explain that jaw and massteter muscles irritate the mandibular nerve, and that triggers the pulsatile t, im gonna try and monitor what triggers the occasional puls t, and probably the fluctuating t spikes. Thanks for the info!
 
Well that is very interesting! Could explain that jaw and massteter muscles irritate the mandibular nerve, and that triggers the pulsatile t, im gonna try and monitor what triggers the occasional puls t, and probably the fluctuating t spikes. Thanks for the info!

Great to hear from you again :) And its great to hear that you have such a good time in Roma! :)

Yeah, I have read that the mandibular joint and muscles have the capacity to irritate the trigeminal nerve, so I guess it could play a big part. But Im pretty sure that we have the same thing, so what works for you might work for me as well..
I will continue the needle treatment and see what happens.. At least this horrible tension has to go, either way..
And its nice to hear that it seems like the needle treatments are loosening up your jaw muscles :)

Ill keep you updated as well!

Have a good time! :) :)
 
I Think you guys are obsessive with massage and stretching, trigger Points and so on.:censored:

I had severe jaw and neck problems for two months. I even ended up in the emergency room because my stomach couldn´t take that i was unable to chew the food properly due to my jaw problems. I also had pretty bad headaches and a lot of facial pain and tenison as well. I visited a Chiro weekly and a fysio therapist quite often. They both stretched and pressed trigger Points, can´t say they changed anything for me. I Went to my dentist and she provided me with a hard mouth guard and told me just to rest my jaw and neck. Now after a month i am almost back in the shape i was before. I haven´t done one stretch or one trigger Point massage during that time. No meds either, just long distance running.
I also cut out all the things that i found out make me grinding and clenching teeth, i my case it is sleeping pills or alcohol. If i take a couple of whisky i will Wake up with hissing the next morning, i have tried it several times and always the same result.

Just my humble opinion:angelic:
 
@Nick the Swede

Great to hear man. Like I said before every person is different. Im only investigating this because i got my T after doing bench presses. Dont think its weird if you suspect that your neck has something to do with it then. Besides that the modulations i can do when pressing/stretching everything in my neck is just weird. Waking up gives me a different sound every single morning. How loud it may be before I go to sleep. When i wake up its 99% of the time way lower in volume., except if I somehow slept on my side. So ye I agree that sometimes doing nothing is the key to succes. Time will tell i guess.
 
Thank you! Of course that everone is different, what works for me is not sure working for another.
Mine acts the same way as yours, always at it´s lowest when waking up. My T was sound induceed from the beginning but anxiety about T made all my jaw and neck problems. Before onset of T i was lifting weights 5-6 times a week, but since the jaw problems started i have stopped all that kind of exercise. Very tricky to do any kind of hard lifting without involving the neck or the jaw, i always clench when lifting. Planning to start over again now when feeling better.
 
Thank you! Of course that everone is different, what works for me is not sure working for another.
Mine acts the same way as yours, always at it´s lowest when waking up. My T was sound induceed from the beginning but anxiety about T made all my jaw and neck problems. Before onset of T i was lifting weights 5-6 times a week, but since the jaw problems started i have stopped all that kind of exercise. Very tricky to do any kind of hard lifting without involving the neck or the jaw, i always clench when lifting. Planning to start over again now when feeling better.

Alright, just one sentence I don't get. Your T was noise induced? Did your T get worse after doing bench presses or did they think it was noise induced or what exactly do you mean? Plus, Is it now gone or is it way less?

Thank you
 
Alrite nice to hear! Well don't think mine is noise induced, i mean I haven't gone out let's say a year or so I guess. Only thing i did have was these shitty earplugs and a beats headphone but I didn't use them that often and never put the volume higher than halfway. The change in the sound itself is also so weird throughout time. Anyways getting my mouth guard tomorrow, will wait for my MRI results and just gotta wait I guess.. Stretching is also not that effective so far. Only makes my shoulder which pops 100times a day more painfull.
 
@chronicburn
@Sjtof
@Sound Wave
@just1morething

This is one of the most comprehensive articles about Tinnitus I have come across, and I want to share it with you guys.
I have bolded out a few lines that I found particular interesting, at least in my case.

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( Source: http://www.randombio.com/tinnitus.html )
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Tinnitus: Causes and Treatment
Outer Limits The high-pitched sound at the beginning of the TV show Outer Limits is very similar to the sounds heard by many tinnitus sufferers.

In the United States, about 10-15% of the population suffer from tinnitus, known colloquially as "ringing in the ears." Tinnitus is not just unwanted noise; it is extremely unpleasant and often interferes with enjoyment of music. It can make verbal communication impossible and can cause depression.

Conventional medical thinking used to be that tinnitus arises from injury to cells in the inner ear or the vestibulocochlear nerve (also known as the acoustic nerve, auditory nerve, or cranial nerve VIII), and is therefore difficult or impossible to treat. However, it is now recognized that this is not always the case. Researchers now realize that rewiring of an area in the brainstem called the dorsal cochlear nucleus plays an important role in tinnitus. This new understanding of its causes may result in new treatments for many patients. Indeed, recent results based on this theory are already leading to effective forms of treatment in some patients.

However, many physicians are unaware of the causes of tinnitus and the problems endured by tinnitus sufferers, and they will often tell the patient that the problem is imaginary or unimportant. This often causes the patient to abandon attempts to get treatment. This is unfortunate, because recent research suggests that tinnitus is easier to cure when treatment is given early. In this article, I will discuss what is known about tinnitus and what tinnitus sufferers can do about their affliction. The information on this page is not medical advice, but is presented for informational purposes.
Types of tinnitus

One way tinnitus can be classified is by the type of sound. By this criterion, there are three main types of tinnitus:

Continuous ringing
In this type of tinnitus, the patient hears a continuous, high-pitched ringing or hissing sound that is unaffected by body movement. Often, tinnitus is accompanied by a partial loss of hearing. Usually, only higher frequencies are lost.

Researchers believe it is no coincidence that tinnitus sufferers most often report hearing high-pitched sounds. High frequencies (around 4kHz) are usually the first to be lost after noise trauma (which is a major cause of sensorineural hearing loss), as well as in presbycusis (age-dependent hearing loss). As many as 80% of tinnitus sufferers also have some form of hearing impairment. It is believed that the nervous system adapts to this loss of acoustic stimuli by creating artificial phantom sounds. This is analogous to phantom limb syndrome, where constant pain is felt in a limb after it has been amputated. Thus, patients with a history of exposure to loud noise are most likely to report hearing high pitched ringing sounds.

The pitch of tinnitus often coincides with the frequency region in which the audiogram starts to show a steep decline. This suggests that tinnitus might result from an "edge effect" caused by the brain's attempts to equalize different parts of the acoustic spectrum [16].

There is some relationship between pitch and cause of tinnitus. In the ear, higher-pitched sounds are detected in the outermost portion of the cochlea. Thus, the frequency may depend on the exact part of the inner ear where the original injury occurred. Tinnitus caused by sensorineural hearing loss is usually high pitched. The tinnitus that occurs in Ménière's disease, a disease of the inner ear, is typically of a much lower pitch.

Sound Frequencies in Tinnitus
Cause Median frequency, Hz Frequency range
Sensorineural hearing loss or Otosclerosis 3900 545-7500
Conductive hearing loss 490 90-1450
Meniere's Disease 320 90-900
Source: [15]

Ringing affected by body position
When the ringing sound is made better or worse by changes in body or neck position, it is called somatic tinnitus. This is the most common type of tinnitus.

Non-ringing

When the sound is not a ringing, but a rushing, clicking, thumping, or other atonal sound, it usually represents some mechanical process in or near the ear. Often these sounds can be heard by another person using a stethoscope, and therefore they are called "objective" tinnitus. A common example is a pulsatile bruit caused by turbulent flow through blood vessels in the neck.

Clicking sounds are often associated with temporomandibular joint (TMJ) syndrome. Clicking sounds can also be caused by intermittent contraction of various muscles in the middle ear, including the tensor tympani or stapedius muscles. This condition is called middle ear myoclonus. Although thought to be rare, it may actually just be widely undiagnosed. A related condition is palatal myoclonus. A physician may prescribe muscle relaxants such as orphenadrine, or in severe cases, may inject botulinum toxin to stop the muscle from contracting.

Another way to classify tinnitus is between bilateral and unilateral tinnitus. Treatment is different for each type. For example, microvascular decompression (see below) is usually ineffective against bilateral tinnitus.
Causes of tinnitus

In general, tinnitus usually starts with some injury to the ear--either a noise trauma, a blow to the head, or some disease-induced injury. According to the current theory, a part of the brainstem called the dorsal cochlear nucleus tries to adapt to the injury, but in so doing creates phantom sounds. Some of the causes of tinnitus can be very serious, and indicative of some underlying pathology, while the majority of cases are much less serious.
Pathological causes

Pathological causes of tinnitus include head injury; disorders affecting the CNS such as stroke, meningitis, and encephalitis; cardiovascular disorders such intracranial hypertension, aneurysm, aortic stenosis, or carotid artery stenosis; ear infections, cancer, and surgery-induced injury.

Tinnitus is always present in a type of cancer known as vestibular Schwannoma, and is usually present in acoustic neuroma. Tinnitus, along with vestibular (balance) problems, is always present in Ménière's disease, a serious disorder of the fluid balance mechanism of the inner ear. Other possible causes are vascular tumors or large arteriovenous malformations.

Lermoyez syndrome is an acute condition similar to Ménière's disease characterized by tinnitus, hearing fluctuations, and vertigo. Unlike Ménière's disease, it is not considered to be progressive but strikes at a younger age. Like Ménière's disease, Lermoyez syndrome is caused by increased hydraulic pressure in the inner ear (endolymphatic hydrops). The patient experiences an elevation of low-frequency hearing threshold that progressively worsens for a few days to months preceding an acute attack. After the attack, which lasts for several hours, hearing improves.

Injury to the auditory nerve (8th cranial nerve) produced by certain types of surgery produces gaze-induced tinnitus, in which the intensity of the sound changes when the patient changes the angle of their gaze.

Hyperthyroidism, as in conditions like Graves' disease, is another possible cause of tinnitus. The opposite condition, hypothyroidism, frequently causes tinnitus as well as hearing loss. Thyroid patients need to have their thyroid hormone levels monitored periodically to avoid losing their hearing.

Tinnitus is sometimes present in Wilson's disease, an inherited condition in which copper accumulates in the liver.

Another cause of hearing loss and tinnitus is Paget's disease of bone, which is a disorder caused by increased bone turnover and enlarged areas at discrete areas of the skeleton. Paget's disease has a genetic (familial) component and occurs more frequently in older people. In one study, 61% of patients with Paget's disease reported tinnitus, compared to 36% of healthy patients in the same age group [23]. Paget's disease is not as rare as many people think.
Non-pathological causes

A variety of non-pathological problems can also cause tinnitus. Although the initiating factor can vary, the process usually starts with some initial injury in or around the ear, which may or may not by itself produce tinnitus. Later, the brainstem becomes involved, and tinnitus is produced. Even though the sound and physical sensations appear to be emanating from the ear, researchers believe that the nerve impulses are generated not in the ear itself, but in the dorsal cochlear nucleus (DCN), which is the relay point in the brainstem for acoustic signals. Different types of tinnitus feel and sound distinctively different to the patient. A patient may even experience one type of tinnitus in one ear and another type in the other ear simultaneously. Some of the non-pathological causes of tinnitus are:

Noise-induced hearing loss

Some researchers believe that noise-induced hearing loss and acoustic trauma are the most common cause of tinnitus in adults [45, 46]. The association between hearing loss and tinnitus is so well-established that anything that causes hearing loss is automatically assumed to cause tinnitus.

Noise-induced hearing loss can be unilateral or bilateral, depending on the source of the noise, and is often accompanied by hyperacusis, which is a lowered tolerance to elevated levels of sound. For example, louder sounds may sound harsh, unpleasant, or screeching. Mild acute noise-induced hearing loss is also accompanied by a feeling of ear fullness. High levels of noise (acoustic trauma) not only kills hair cells in the cochlea, but also kills neurons in the acoustic nerve and the dorsal cochlear nucleus. According to one theory, the automatic repair process in these nerves is the main cause of chronic tinnitus (see Neural Pathways below).

Although conventional audiology tests are still very important in diagnosing noise-induced hearing loss, the otoacoustic emissions test is now considered the definitive test for noise-induced hearing loss. It is particularly valuable for testing the hearing of infants [3].
Toxic substances

Salicylate, aspirin, ibuprofen and other NSAIDs, wintergreen, antibiotics, cisplatin, quinine, cobalt, sumatriptan, furosemide, hydroxychloroquine, ethacrynic acid, bumetanide, amphotericin B, heavy metals such as mercury, antidepressants such as Wellbutrin (Zyban), and possibly caffeine can cause tinnitus. The inclusion of caffeine in this list is controversial. Salicylates may act by uncoupling oxidative phosphorylation, interfering with the production of ATP. Hair cells are particularly sensitive to low ATP levels. Microcystins, which are hepatotoxins from blue-green algae, have also produced neurological symptoms that include tinnitus [31]. This site has a list of other drugs that can produce tinnitus.

Paradoxically, there are a few reports that indomethacin and other NSAIDs that act as COX-1/lipoxygenase inhibitors also seem to partially protect the ear against noise trauma, at least in mice [40]. Some compounds that mimic glutathione have a similar effect, suggesting that oxidative stress may play a role in noise-induced hearing loss.

Overdoses of hydrocodone, which is usually given with acetaminophen, can cause progressive sensorineural hearing loss leading to deafness, especially in patients with compromised liver function such as from hepatitis C [43]. Patients on hydrocodone/acetaminophen should avoid taking additional over-the-counter pain medication.

Drug-induced tinnitus from triptans and NSAIDs is most often a hissing sound, but ototoxic drugs can also produce a ringing or roaring sound. Drugs can also cause hearing loss, hyperacusis, and "dizziness" that can be mistaken for labyrinthitis. Patients who experience tinnitus after taking a prescription drug are well-advised to ask their doctor whether an alternative is available. Continuing to take an ototoxic drug can result in permanent hearing loss.
Aging

Aging causes loss of cells that secrete the inhibitory neurotransmitter glycine. Glycine carries the "off" or inhibitory signal from one neuron to another. When glycine-carrying nerve fibers are lost from old age or other factors, the off signal is also lost and certain other neurons begin to fire spontaneously, producing tinnitus. The characteristics of hearing loss caused by aging and by noise trauma are similar.
Temporomandibular joint (TMJ) syndrome

Although TMJ syndrome is usually associated with clicking and popping noises, the ringing form of tinnitus is also a common occurrence. Whiplash can also cause tinnitus. About 10% of whiplash victims develop some ear problem such as tinnitus, deafness, or vertigo [25]. This might be secondary to TMJ involvement as some have proposed [26,27], or it could be the result of nerve injury or compression.

TMJ syndrome is almost always accompanied by pain or limitation of jaw movement. It's caused by grinding or clenching the teeth by excessive gum chewing, arthritis, or teeth malocclusion. Usually there is a clicking sound when the jaw is opened or closed. It is not unusual for TMJ syndrome to cause muscle spasms that produce tinnitus. Most of the muscle sensory nerves pass close to the nerves that relay sound from your acoustic nerve, so it would not be surprising that pressure on the muscles on the head can trigger tinnitus. It is also very common for movement or pressure on the TMJ to trigger tinnitus. Most experts say that successful treatment of TMJ syndrome will eliminate the tinnitus. However, this does not always happen and even if it does, it may take as long as two years.

According to R.A. Levine, TMJ syndrome is commonly associated with somatic tinnitus. It is generally believed that the ringing noise is caused by the contraction of the jaw muscles and not by the joint itself. If so, the most important thing would be to avoid grinding and clenching the teeth and practice relaxing the affected muscles.

There are several other theories about how TMJ produces tinnitus, including blockage of the Eustachian tube, clonus of the tensor tympani muscle, problems caused by an extra ligament left over from childhood, or impairment of middle ear conduction. The conduction theory is favored by Chole and Parker, and would make sense in cases where TMD is causing a measurable hearing impairment.
Neck injury and electrocution

Direct blunt neck trauma can cause hearing impairment that resembles noise-induced hearing loss. About 55% of one group of patients who complained of hearing loss after neck trauma also reported tinnitus [28]. There are also reports of hearing loss and tinnitus after high-voltage electric shock and in patients who were struck by lightning. These cases are rare and are poorly understood.
Middle ear-related causes

Although obstruction of the ear canal by wax (cerumen) is an obvious possible cause of tinnitus, some researchers believe that even small amounts of ear wax may contribute to tinnitus. Conductive deafness caused by perforation of the eardrum is another obvious (and easy to diagnose) factor.
Dental problems

Dental problems are another possible cause of tinnitus. Tooth abscesses or impacted wisdom teeth can cause tinnitus [34]. In such cases, further dental work will sometimes cure the problem. Other times, the tinnitus gradually becomes fainter over a period of months [35]. One way dental problems can cause tinnitus is by the prolonged neck bending that occurs during dental surgery. Another way is by aggravation of pre-existing TMD. Injury of the nerves during extraction of a wisdom tooth has also been known to cause tinnitus. Another possibility might be inflammation spreading from an infected tooth. There have been cases of bilateral sensorineural hearing loss (which usually causes tinnitus) following dental surgery [36, 37].
Muscle spasm

Some researchers believe that muscle spasm in head or neck is the most common cause of tinnitus, accounting for as many as 80% of patients [8, 47]. When the noise is made better or worse by changes in bodily posture, or arm or neck movements, the patient has "somatic tinnitus." Somatic tinnitus is usually unilateral. In its earliest stages, it may be caused by hearing trauma, an injury, or a muscle contraction (such as by grinding one's teeth) that compresses some part of the auditory system. Later, cross-talk occurs between the signals the muscles send to the brain and the signals from the ear. For these patients, relaxation therapy and biofeedback, which help the patient establish voluntary control over the muscle, can be helpful. Once alerted to the possibility that stretching and muscle relaxing exercises may be able to alleviate their tinnitus, patients may be able to devise an effective treatment on their own. In extreme cases, botulinum toxin to temporarily paralyze the muscle, or even surgery, can be performed (see Treatment below).

For some patients, anything that causes torsion of the neck, such as having bad posture, using a pillow at night, or bending the neck to look through a microscope, even for a few seconds, causes a muscle spasm that invariably produces tinnitus. This muscle spasm and the resulting tinnitus may not occur immediately, but can start several hours after the neck is twisted, making the cause difficult to identify.


Many leading researchers on somatic tinnitus, such as Robert A. Levine [2], believe that somatic tinnitus resulting from muscle spasms is not produced by compression of nerves or blood vessels in the ear as one might suspect, but rather from the convergence in the dorsal cochlear nucleus of sensory signals from muscle spindles in the head and neck with sound signals from the cochlea. This may explain how somatic tinnitus can even occur in deaf people [4]. The characteristics of somatic tinnitus are [5]:
The muscle and tinnitus are ipsilateral (same side).
There are no vestibular or neurological abnormalities.
Tone and speech audiometry is always symmetric and within normal limits.

Therefore, the first step in identifying the cause of tinnitus is to get a hearing test. If hearing is normal, and pathological causes can be ruled out, it points to a possible muscle, dental, or TMJ problem.

The sternocleidomastoid muscle appears to be the culprit in most cases. Palpation of this muscle, which is the large muscle under the ear on both sides of the neck that acts to rotate the head, aggravates tinnitus in many patients. Other muscles that are commonly involved include the masseter, splenius capitis, and even the middle and upper trapezius and temporalis muscles. The lateral pterygoid muscle may also serve as a trigger point. The current thinking is that these effects are mediated by their excitatory connections to the DCN. Palpation or pressure at other points on these same muscles can sometimes reduce tinnitus.

The sources of the muscle sensory signals are proprioceptive (location) and cutaneous (touch) projections. Nociceptive (pain) signals are not involved in tinnitus [6].
Middle ear infection

A recent Polish study found that over two thirds of the cases of tinnitus in patients below the age of 35 are caused by infection [18]. Infections of the middle ear, which are common in children, are called otitis media. This can be a viral or bacterial infection. The symptoms are otalgia (earache) and temporary sensorineural hearing loss. These patients should avoid swimming activities.

Untreated syphilis can also cause tinnitus and fluctuating hearing loss. About 50% of these otosyphilis patients also experience vertigo (dizziness), which indicates inner ear involvement. Treatment with penicillin and steroids restores hearing only about 25% of the time.

A rare condition known as Ramsay Hunt syndrome can also cause tinnitus. This disease is caused by the varicella zoster virus (VZV), which causes chickenpox and shingles. VZV remains dormant in the nervous system after a patient recovers from chickenpox. Sometimes VZV becomes reactivated and produces a skin rash, which is called herpes zoster. When the virus affects the 8th cranial nerve and the geniculate ganglion of the facial nerve, it causes Ramsay Hunt, which is characterized by severe pain behind the ear, tinnitus, facial nerve palsy (sudden paralysis of the face muscles on one side), and a rash on the ear or in the mouth. Ramsay Hunt is similar to Bell's palsy, which is caused by herpes simplex virus. Any paralysis in the face is potentially serious and should be treated as a medical emergency.

Activities such as scuba diving and water skiing can cause traumatic injuries to the ear including eardrum perforation, which causes hearing loss, earache, tinnitus, and vertigo. Sinus infections and migraines are also occasionally associated with tinnitus.

Eustachian tube inflammation can also produce tinnitus, which would usually be accompanied by an earache (otitis) and a sensation of fullness in the ears. This is easily diagnosed by visual examination of the middle ear.
Over-hydration and dehydration

Hemodialysis patients who become over-hydrated can experience tinnitus along with muscular cramps and other symptoms [30]. Some tinnitus patients report that their symptoms are exacerbated by drinking excess water.

These causes are not mutually exclusive. Thus, a patient's tinnitus could result from noise-induced hearing loss and an ear infection, or any other combination of causes.
Tinnitus and headache

Many patients with tinnitus also report frequent headaches. Although there are not many articles in the research literature linking tinnitus with either ordinary headaches or migraines, one can imagine several ways the two disorders could be linked.

Head injuries and muscle spasms resulting from stress can cause both tension headaches and somatic tinnitus.
Aspirin and other NSAIDs taken for headache can cause toxic tinnitus. Triptans such as sumatriptan (Imitrex) cause tinnitus and occasionally hearing loss.
Migraines are sometimes associated with tinnitus and vertigo. This more often occurs during the aura phase that precedes the migraine than during the migraine attack itself. The association between tinnitus and migraine aura is probably underreported, because patients are understandably more focused on the intense pain than on the ringing sound. In a recent study, 45% of patients with basilar-type migraine experienced tinnitus during the aura phase [20].
Intracranial hypotension, which is caused by a leak in the cerebrospinal fluid, causes tinnitus, hearing loss, neck stiffness, vomiting, vertigo and severe headaches that occur suddenly after standing or sitting (orthostatic headache). The symptoms sometimes resemble Ménière syndrome, but intracranial hypotension can also cause "brain sagging" that causes somnolescence, impaired attention, and even coma [19]. This syndrome can also mimic frontotemporal dementia. It is usually caused by lumbar puncture, brain surgery (for instance, to remove a subdural hematoma), or by a fall, or it can occur spontaneously. Intracranial hypotension of unknown etiology is called spontaneous intracranial hypotension or SIH.
Superficial siderosis A rare condition known as superficial siderosis, or iron in the outer layers of the brain caused by bleeding, causes ataxia and sensorineural hearing impairment which can manifest as tinnitus.
Subarachnoid hemorrhage Some popular books claim that subarachnoid hemorrhage causes tinnitus. While this may be true, it is not a common cause of tinnitus. Any brain hemorrhage is a medical emergency, and in such cases ringing in the ears may be the least of the patient's problems. The classic symptom of a subarachnoid hemorrhage is a sudden violent headache, usually described as the worst headache of the patient's life.
Aneurysms Brain aneurysms can also cause hearing loss and tinnitus [21]. Tinnitus resulting from an aneurysm is typically pulsatile with a "swishing" or roaring sound that coincides with the heartbeat [22]. If you experience this type of tinnitus, especially if it begins suddenly after a cough, sneeze, or head or neck trauma, or you have other symptoms such as dizziness, weakness, pain, or ptosis (drooping eyelids), you should have it checked, because it could be a sign of a weakened blood vessel wall that could hemorrhage without any warning, possibly causing a stroke. It could also be a sign of partial occlusion (stenosis) of the carotid artery, or it could be caused by a harmless malformation of the arteries. Your physician will perform angiography, ultrasound, or MRA to evaluate it.

In one study, 68% of the patients with pulsatile tinnitus were found to have some underlying pathology, the most common being a dural arteriovenous fistula or a carotid-cavernous sinus fistula [24]. However, in another study, so-called "benign" intracranial hypertension was the most frequent cause.

Neural pathways involved in tinnitus
Neural pathways involved in tinnitus Neural pathways involved in tinnitus. All pathways and nuclei are bilaterally symmetric.

Although a variety of factors can cause tinnitus, they all use different parts of the same neural pathways. Therefore, it is important to understand the basic neuroanatomy of the auditory system to understand the various treatments that have been proposed.

Ventral cochlear nucleus
The ventral cochlear nucleus (VCN) is a relay point in the brainstem that receives data from muscle stretch sensors in the face, head, and neck. Sensors in muscles of the neck, trunk, and arms send signals to the VCN by way of the dorsal root ganglia and the trigeminal ganglion. These sensors tell the brain how strongly the muscle is contracted, and tell it the position of the body part affected by the muscle. The ventral and dorsal cochlear nuclei relay signals to each other and to the brain.

Inferior colliculus
The inferior colliculus is an important relay point in the midbrain. It receives data from lower brainstem nuclei such as the ventral and dorsal cochlear nuclei, and relays this information to the brain. Neurons in the inferior colliculus fire more rapidly when tinnitus is occurring. Signals from the tongue muscle and temporomandibular joint send signals to the dorsal cochlear nucleus by way of the inferior colliculus. This may explain why temporomandibular joint syndrome frequently causes tinnitus.

Dorsal cochlear nucleus
The dorsal cochlear nucleus (DCN) is the most important brainstem region for relaying auditory signals to the brain. It is also the region where researchers believe the phantom sounds heard by tinnitus sufferers are generated. As shown in the figure, the dorsal cochlear nucleus receives auditory signals from the hair cells in the cochlea, where sound is detected, as well as signals related to eye movements, mediated by the vestibular system. It also receives a variety of signals from muscle position sensors in the face, neck, head, trunk, arms, tongue, and temporomandibular joint, which are relayed to it via dorsal root ganglia and other nerve centers. The DCN acts as a relay and forwards all these signals to the appropriate place in the auditory cortex and elsewhere in the brain. As the signals travel from the DCN to the brain, left and right are switched. Therefore, sound entering the right ear and muscle signals on the right side of the head are processed in the left side of the brain, and vice versa. The feature to remember is that sensory data from muscles and acoustic data from the ears are both relayed to the brain at very nearly the same point in the brainstem.

Inhibitory signals
Auditory signals from the cochlea travel to the cochlear nerve, which combines with the vestibular nerve to form the vestibulocochlear nerve (acoustic nerve, cranial nerve VIII) on their way to the cochlear nuclei, which process them and relay them to the brain. However, these signals are not just 1's and 0's like in a computer. The DCN and VCN process both "on" (excitatory) and "off" (inhibitory) signals. The inhibitory signals perform a vital function: they prevent other neurons from getting stuck in a continuous "on" position. If the inhibitory signals are blocked due to injury or some other factor, the cochlear nuclei may "decide" that a sound is present when it is not. The patient would then hear a ringing or hissing sound.

These inhibitory signals are carried by the neurotransmitter glycine. This means that specific neurons, called glycine interneurons, transmit "off" signals to other neurons, which contain receptors for glycine. If a glycine neuron is injured and dies, the cells it is connected to must adapt to the loss. Each neuron "grieves" in its own way. Some neurons adapt by decreasing the number of glycine receptors, while other adapt by increasing the number of receptors. Thus, the entire network is affected and may start sending false signals. Some researchers believe that inhibitory synapses are more fragile than excitatory synapses. If so, that could explain why even small injuries to the head can cause lifelong tinnitus.

Because the cochlear nuclei are so important in tinnitus, it is sometimes said that tinnitus is primarily a brain phenomenon. Proof of this is that tinnitus can still occur after the auditory nerve has been cut. About 50% of these patients, who are now completely deaf, still experience tinnitus. Thus, even those people so tormented by tinnitus that they would prefer permanent deafness cannot always obtain relief.

However, calling tinnitus a "brain disorder" would be misleading. Tinnitus does not begin in the auditory cortex [7], although some researchers believe that tonotopic remapping (functional rewiring of the cortex) can occur on the auditory cortex. In this sense, tinnitus has some similarities to phantom limb syndrome. Tinnitus is not, however, a brain disease, and it is most definitely not a symptom of a psychiatric disorder or hysteria. In the absence of normal stimuli, the DCN undergoes synaptic plasticity, a form of neuronal reorganization similar to learning that, according to the current theory, results in tinnitus.

Synaptic plasticity
Trauma from loud noises not only injures the hair cells in the cochlea; it also causes neurodegeneration, or death of nerve cells, in the auditory nerve and brainstem. Researchers have found that in rodents, noise trauma causes neurodegeneration in the dorsal cochlear nucleus that continues to progress for up to two weeks, as well as neurodegeneration in the auditory nerve and ventral cochlear nucleus that can continue to progress for up to eight months after sound exposure. The exact length of time that neurodegeneration continues in humans is not known, but is probably similar. This neurodegeneration in turn triggers an automatic repair process that includes sprouting and regrowth of new axons and nerve terminals. Although they try to reconnect in exactly the same way as before, the new nerve terminals are not always able to do so; some rewiring, called synaptic plasticity, occurs.

As the neurons repair and regrow, two things can happen. First, since there are fewer inhibitory glycine neurons, the neurons may begin sending continuous signals to the brain. Secondly, signals from other, non-acoustic sources, such as the temporomandibular joint or muscle sensors in the head and neck, may get mixed with sound signals in such a way that movement of these muscles can trigger the generation of phantom sounds.

In some ways, this is bad news. We cannot administer drugs that interfere with synaptic plasticity, because it is essential for both learning and repair within the nervous system. Synaptic plasticity is an essential part of how we remember things. On the other hand, it is good news: it means these synapses may, in principle, be able to "learn" not to generate false signals. Researchers have found that this is indeed possible. White noise therapy (see below) can "teach" these neurons not to produce the false signals. If white noise is given in time, and for a long enough period, tinnitus can be prevented (see Sound therapy below).
Anxiety

Physicians used to believe that tinnitus results from anxiety or stress. We now know that this is false. Animal studies have conclusively shown that anxiety does not cause tinnitus. However, tinnitus often provokes anxiety and creates stress, because patients fear they may be losing their hearing or may have a serious underlying problem. Anxiety may exacerbate the tinnitus and the distress felt by patients. Patients with a "perfectionistic" personality type may be more likely to seek treatment, leading to the inaccurate perception among physicians that tinnitus has a psychological component. Tinnitus is also not a conditioned reflex, but different patients may be more or less disturbed by the same amount of tinnitus.
Treatment

Once mechanical problems such as impacted wax are eliminated as possible causes, a hearing test should be given to determine whether you have noise-induced hearing loss. Most treatments are still in the experimental stage. The most promising areas of research at the moment are sound therapy, neck exercises, and acupuncture. Some progress is also being made using drugs to inhibit the neuronal pathways.

If the tinnitus is intermittent, this is generally a good sign, because it is proof that the auditory system is capable of functioning normally. Finding the trigger is then a matter of deduction from what is different in the minutes and hours before the tinnitus starts. However, even continuous tinnitus resulting from trauma or partial hearing loss is not necessarily untreatable, because it could be mixed with a treatable component.
Drugs

There are currently no drugs approved for treatment of tinnitus. The drugs listed below are in various stages of experimental testing.

Lidocaine The earliest treatment ever discovered was lidocaine (Xylocaine), which effectively suppresses tinnitus. Lidocaine is a local anesthetic which acts by blocking voltage-gated sodium channels in neurons, preventing neuronal transmission. Since it is only short-acting (hours) and must be injected by a physician, it is not considered to be useful as a treatment. High doses of lidocaine can also cause tinnitus. Intradermal lidocaine is a possibility, but it has not been studied thoroughly.

Glycine receptor agonists For tinnitus that is caused by overexcitation of the cochlear nucleus, it may be possible to develop glycine receptor agonists. These drugs would mimic the natural neurotransmitter glycine, and re-balance the excitation / inhibition pathways. Thus, the future for tinnitus sufferers is not as gloomy as is commonly believed. Research into glycine receptor agonists is underway.

An interesting fact is that the poisonous alkaloid strychnine is a glycine receptor antagonist, and acts by blocking the glycine receptor; thus, glycine receptor agonists might also be beneficial as a treatment for strychnine poisoning.

GABA-A receptor agonists GABA is another inhibitory neurotransmitter, similar to glycine. A class of drugs called benzodiazepines already exists. These drugs are GABA-A receptor agonists, and might be expected to work on tinnitus by activating the inhibitory limb of the neural network. Some researchers have reported moderate success in treating tinnitus with GABA agonists such as baclofen, clonazepam, and diazepam. However, these drugs are also tranquilizers, and cause undesirable CNS side effects. If the current theory about tinnitus being generated in the brainstem is correct, topical application of these drugs is not likely to work, because the drug would be unable to reach the brainstem. Thus, a systemic drug that is targeted to the brainstem is needed.

There is one report that a high dose of taurine, a partial agonist of glycine and GABA receptors, attenutates tinnitus in rats by decreasing noise in the auditory pathway [38].

Midazolam One report out of Germany reported partial protection by midazolam, another benzodiazepine with GABA(A) modulating properties that is used as a sedative and anticonvulsant. Midazolam was given to rats experiencing salicylate-induced tinnitus [39], which is a commonly used experimental model for tinnitus. Benzodiazepines can cause anterograde amnesia and long-lasting memory problems.

Anticonvulsants Because of the parallels between tinnitus and epilepsy (both of which result from overexcitation of neurons), low doses of anticonvulsants such as gabapentin and carbamazepine have been tried, but with little success so far. Although gabapentin acts on the GABA pathway, it is not a direct GABA agonist; it is believed to work by activating glutamic acid decarboxylase, the enzyme that converts glutamate to GABA. It therefore acts by causing the cell to produce more of the inhibitory neurotransmitter GABA.

Acamprosate Acamprosate, a drug used to treat alcoholism, acts as a glutamate antagonist and GABA agonist. It acts by increasing the number of GABA reuptake sites and increasing GABA transmission. One Brazilian group reported a modest but statistically significant benefit using acamprosate to treat tinnitus.

NMDA antagonists A class of drugs known as NMDA receptor antagonists has been shown to block salicylate-induced tinnitus in animals. These drugs interfere with the excitatory neurotransmitter glutamate. However, salicylate may produce tinnitus by a different mechanism than normal tinnitus, so NMDA antagonists may not be effective in patients. Since glutamate is the predominant neurotransmitter in the brain, these drugs would also act as general tranquilizers or anesthetics. Also, some NMDA antagonists are potent neurotoxins. NMDA antagonists such as caroverine have had moderate success, but unfortunately this class of drugs has very significant side effects, such as psychosis. The anti-Alzheimer drug memantine, and neramexane, which are both NMDA receptor antagonists, are currently being tested.

Neuromuscular-blocking drugs The only neuromuscular blocking drug currently used for tinnitus is botulinum toxin, which has been used to paralyze specific muscles. Other drugs, such as dantrolene, a muscle relaxant used to treat muscle spasticity, and drugs similar to tubocurarine, a powerful quaternary ammonium muscle relaxant, have not been tested. Some antihistamines, such as orphenadrine, which is used to treat muscle spasms, might also be useful. However, there are few reports of these drugs being tested. Injection of botulinum toxin into a muscle will paralyze it for 4-6 months; therefore, injecting it into one of the large muscles needed for chewing or supporting the head would be a very bad idea.

Antidepressants Tricyclic antidepressants such as nortriptyline and serotonin reuptake inhibitors such as paroxetine and sertraline have been reported to reduce tinnitus. These drugs may work because of similarities between tinnitus and neuropathic pain. However, clinical studies have shown conflicting results, with tinnitus sometimes being reduced in depressed patients but not non-depressed patients.

Hyperbaric oxygen The outer hair cells in the organ of Corti facilitate the sensory response of the inner hair cells. The inner hair cells, which are connected to nerve fibers, are the primary sensors for sound. Inner and outer hair cells have no direct blood supply. When a loud sound is heard, they become very active and can deplete their limited supplies of oxygen and their energy molecule, ATP. Thus, it has been hypothesized that hyperbaric oxygen could be beneficial in cases of noise-induced hearing loss and acoustic trauma if it is administered soon enough. However, so far the research has been inconclusive. Beneficial results are sometimes seen if it is administered within the first few months [44]. A similar theory has been proposed for magnesium (see below). If these theories are correct, they would predict that oxygen and magnesium would be most effective within a few hours of a noise trauma, and become much less effective as time goes on.

Several chapters on drug treatments can be found in reference [12].
Sound therapy

White noise The theory that tinnitus is created by the loss of inhibitory stimuli has resulted in the most promising new therapy for tinnitus so far: white noise therapy. White noise, such as that produced by a radio tuned to an empty frequency or a sound generator like a Marsona, has two effects: first, it masks the ringing sound; and second, it helps to stimulate the inhibitory pathways by producing a continuous background of sound. The extent to which these pathways can be rewired is still not entirely clear, but it is clear that white noise creates additional excitatory and inhibitory stimuli that appear to be able to influence the synaptic regrowth in the DCN, and prevent tinnitus from starting. (They are also great for preventing insanity caused by having a neighbor who is overly fond of rock music.)

According to the theory described above, noise-induced hearing loss produces tinnitus because it is, in effect, creating silence. Indeed, most normal people will experience tinnitus when placed in an anechoic chamber. Therefore, one could logically expect background noise to prevent it. However, this is difficult to prove, because noise also masks tinnitus.

Nevertheless, it is true--at least in animals. Noreña and Eggermont have found that if white or blue noise (5kHz-20kHz) is presented immediately after noise trauma and maintained over a period of several weeks, the neuronal changes that cause tinnitus and hearing loss are abolished [9, 10]. This remarkable finding shows that it may be possible to prevent noise-induced tinnitus even in cases of acoustic trauma.

It goes without saying that white noise, or any other noise, above 85 decibels will cause hearing loss, especially if maintained for long periods of time. Moreover, there is some suggestion that white noise could be harmful for infants. Also, it stands to reason that sound therapy, or any other therapy, will not work unless whatever caused the tinnitus in the first place is stopped.

The theory would predict that for a maximal effect, a sound generator would have to be running continuously, not just when the patient's ears are ringing. Also, the closer the frequency of the generated sound to the frequency of the tinnitus, the more effective it should be.
Stimulation of muscle stretch receptors

Certain neck exercises have also been highly effective at eliminating tinnitus in some cases of somatic tinnitus. Specific exercises are sometimes recommended to stretch the sternocleidomastoid muscle. For example, the patient may be instructed to lower the shoulders, tilt the head up, then pull in the jaw to relax the muscle. This is an easy and safe therapy if done within reason. Another exercise that sometimes works is to rotate the head in the direction away from the ear that is ringing while simultaneously pulling the lips in the same direction. The theory predicts that relaxing the muscle will reduce the stretch receptor signal and thereby reduce the excitatory stimulation to the dorsal cochlear nucleus that creates the tinnitus. If the correct muscle is stretched, the tinnitus will often disappear within a few seconds. If the patient is unable to stretch the correct muscle, but makes an effort to relax the muscles around the ear, it may take longer for the noise to disappear. Neck exercises need to be tailored to the individual. They are less likely to work if the tinnitus is caused by some factor other than muscle spasm.
Surgery and electrical stimulation

Microvascular decompression A surgical technique called microvascular decompression, which is an effective treatment for trigeminal neuralgia, is sometimes beneficial for tinnitus as well. What happens is that a blood vessel, usually an artery, compresses the cochlear nerve, causing tinnitus and vertigo. If this is fixed within about four years, recovery is sometimes possible [48]. More drastic treatments include cochlear implants that replace the missing neuronal stimulation with artificial electrical signals. Surgery of the ear or brain is extremely dangerous, and is considered a treatment of last resort.

Meniere's disease For Ménière's disease, an experimental treatment involves intratympanic injections of drugs such as gentamicin or steroids. In this procedure, the eardrum is anesthetized and the drug is injected through the eardrum. Since this procedure perforates the eardrum, it is difficult to evaluate its effectiveness for tinnitus. Because of the extreme invasiveness of this procedure, patients are understandably reluctant to undergo it. Patients might also falsely report improvement in order to avoid a second treatment.

Cochlear implants Because hearing loss produces tinnitus, anything that even partially restores hearing will often reduce the tinnitus. Many studies have shown that, if a cochlear implant restores some hearing, it usually reduces the tinnitus. However, because a cochlear implant completely and permanently destroys all remaining normal hearing, only patients with profound hearing loss are candidates for a cochlear implant. A neurologist should be the one to do a referral.

In a recent study, all the patients with tinnitus reported a partial (61%) or complete (39%) elimination of their tinnitus after receiving a cochlear implant. A cochlear implant produced tinnitus in 12% of the patients who did not have it before the operation [17].

Hearing aids A hearing aid may have the same effect, and would be much safer than an implant. There are special hearing aids that contain sound generators which stimulate the auditory pathway. In some patients, the combination of restored hearing and sound therapy can cause the neural pathways to reorganize in such a way that the generation of tinnitus is reduced. Unfortunately, as with implants, if hearing cannot be restored, sound therapy is unlikely to work.

Electrical brain stimulation Some researchers believe that another treatment called deep brain stimulation might be able to treat tinnitus. Magnetic stimulation, which is a non-invasive procedure, is used to find the precise location where tinnitus is being perceived on the auditory cortex. Then a permanent electrode is inserted at this location to prevent the patient from hearing the noise. This treatment will not restore hearing. It is still in the experimental stages and is not available for patients yet.

Another new technique involves electrical stimulation of the auditory cortex. This is based on a new theory that in tinnitus, there are too many neurons on the auditory cortex that respond to a particular sound frequency. It has been shown that direct electrical stimulation of the auditory cortex can block tinnitus and partially restore hearing thresholds [42]. The technique is still highly experimental and there is still a large variability in the results.

To get around the risks of stimulating the brain directly, one group of researchers stimulated the vagus nerve in rats with tinnitus and paired it with a loud sound stimulus [41]. Only the left vagus nerve was used to minimize cardiac complications. Repeating the pairing up to 6,000 times alters the frequency map of sound represented on the auditory cortex, degrading the frequency tuning of the individual brain neurons and normalizing the brain's response to sound. The researchers found that this procedure, which requires surgery, reduced tinnitus in rats for at least three weeks. Although it was impossible to be certain the rats were really experiencing tinnitus, gap detection tests of their hearing showed changes consistent with a long-lasting reduction of tinnitus.

Transcutaneous electrical nerve stimulation A related treatment is transcutaneous electrical nerve stimulation (TENS), a treatment sometimes used for chronic pain. The theory is that electrical stimulation will activate the dorsal cochlear nucleus, increasing its ability to inhibit somatic tinnitus. In a recent study [32], 43 out of 240 patients (17.9%) with somatic tinnitus reported an improvement. In another study in Spain involving 26 patients, 23% reported partial improvement and 23% reported complete improvement [33]. Although these results were statistically significant, some have suggested that they could result from a placebo effect. There is still doubt over the efficacy of TENS for tinnitus.

This treatment should not be confused with electrical stimulation of the ear, which was proposed as a treatment back in the 1980s. If this treatment worked at all, it was likely due to its effects on the muscle or by changing blood circulation.
Alternative medicines and nutritional supplements

Alternative medicine treatments, including ginkgo biloba, zinc, magnesium, and magnets, in general are believed by the medical establishment to have little benefit, but saying even this is controversial, because little solid research has been done on many of these treatments. However, there is no doubt that good general nutrition is important for recovery from any type of injury, including injury that produces tinnitus.

Magnesium is a very promising new treatment for noise-induced hearing loss [13, 14], which often causes tinnitus, but in such cases therapy must start within a few hours of the noise trauma to be effective.

Ginkgo biloba is supposed to act as a vasodilator, and may improve blood circulation in regions near the cochlea that have been stressed by noise trauma, but so far there has been more enthusiasm than rigorous science in the field.

Dihuang 地黄 (Rehmannia glutinosa) is a Chinese herb traditionally used for tinnitus and to protect against noise-induced hearing loss. Some evidence suggests it may induce GDNF (glial cell line-derived neurotrophic factor) or act as an antioxidant. It has not been rigorously tested.

Vinpocetine (Cavinton) Vinpocetine is an anti-inflammatory agent that inhibits the enzyme IKK. A recent report suggests it may be useful in treating chronic obstructive pulmonary disease. One Polish group in 1997 [29] reported improvement in hearing and tinnitus caused by acoustic trauma if given within the first week, when inflammation was presumably at a maximum. However, there have been no reports since then. There are anecdotal reports that it may also act as a vasodilator.

Zinc There is wide variability in the reported results with zinc. Some studies on the benefits of zinc have been hampered by researchers giving metallic elemental zinc instead of the active form, which is Zn2+. There is also wide variation in epidemiological results on the prevalence of zinc deficiency, with estimates ranging from 2 to 69% of the population. As we scientists say, more research is needed.

Acupuncture has produced dramatic success in cases of somatic tinnitus that were not accompanied by hearing loss [11]. Other researchers have had less positive results. Because many Westerners seriously underestimate the complexity of acupuncture and the amount of skill necessary to make it work, it is necessary to find an acupuncturist experienced in tinnitus treatment.

Magnets appear to be useless, but magnets should not be confused with transcranial magnetic stimulation, which is an accepted technique for inducing electrical currents in the brain noninvasively. Electrical stimulation of the scalp and auricle has produced beneficial results in a few people.
Cognitive behavior therapy

Cognitive behavior therapy is the new term for psychotherapy, which has acquired very negative connotations. Since tinnitus is a physical problem, there is little reason to expect a benefit from cognitive behavior or "talk" therapy. The main goal seems to be to get the patients to ignore the sounds and live with it: to learn, in effect, to stop worrying and love their tinnitus. Relaxation therapy, however, may be of benefit in reducing muscle tension that contributes to tinnitus.
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[41]. Engineer ND, Riley JR, Seale JD, Vrana WA, Shetake JA, Sudanagunta SP, Borland MS, Kilgard MP. Reversing pathological neural activity using targeted plasticity. Nature 2011, Jan. 12.
[42]. Zhang J, Zhang Y, Zhang X. Auditory Cortex Electrical Stimulation Suppresses Tinnitus in Rats. J Assoc Res Otolaryngol. 2010 Nov 6
[43]. Profound hearing loss associated with hydrocodone/acetaminophen abuse. Friedman RA, House JW, Luxford WM, Gherini S, Mills D. Am J Otol. 2000 Mar;21(2):188-91.
[44]. J Spec Oper Med. 2009 Summer;9(3):33-43. Tinnitus, a military epidemic: is hyperbaric oxygen therapy the answer? Baldwin TM.
[45]. Axelsson, A; Prasher, D. (2000). Tinnitus induced by occupational and leisure noise. Noise & Health: A Quarterly Inter-disciplinary International Journal; 2(8):
 
I Think you guys are obsessive with massage and stretching, trigger Points and so on.:censored:

I had severe jaw and neck problems for two months. I even ended up in the emergency room because my stomach couldn´t take that i was unable to chew the food properly due to my jaw problems. I also had pretty bad headaches and a lot of facial pain and tenison as well. I visited a Chiro weekly and a fysio therapist quite often. They both stretched and pressed trigger Points, can´t say they changed anything for me. I Went to my dentist and she provided me with a hard mouth guard and told me just to rest my jaw and neck. Now after a month i am almost back in the shape i was before. I haven´t done one stretch or one trigger Point massage during that time. No meds either, just long distance running.
I also cut out all the things that i found out make me grinding and clenching teeth, i my case it is sleeping pills or alcohol. If i take a couple of whisky i will Wake up with hissing the next morning, i have tried it several times and always the same result.

Just my humble opinion:angelic:

Yeah you do make a point that we're obsessive about it, but i'm pretty sure that my T is not noise induced, (my arguments are that my T doesn't spike when exposed to loud noise, my age, the fact that i used to go to gigs a lot, but in the last 6months before onset i had enough of concerts etc... so it happpened during a less noisy period in my life), and my audiogram. I've attached it to this post for curiosity.
Also my hearing was tested in the 8khz-16khz range too, i don't have the audiogram here, but the results were all in the 0db- +10db range in both ears, so even better than average. I find this weird though, i've always been told that hearing diminishes at the highest frequencies first. But in my case it's the other way around, my lowest one is 0.125khz @ -10db. While my T is a distorted white-noisy and fluctuating tone varying between all higher frequencies. One ENT even suggested i was hearing my brain static because my higher freq hearing was so good, but i find that hard to believe as it it somatosensory, brain static would not be imo.
I must also note that at the time of this hearing test my left ear was still asymptomatic, and the right had continuous somatic T for one-two weeks at that time. In the meantime my left ear developed the same behaviour as the right, and a somatic T which is less loud than to the right.

So thats why i'm obsessing about those stretches and all, i'm convinced muscle tension is at least a part of the problem, i'm not sure though what is causing my muscles to tense up, and if the T is a symptom of that tension, or they are both symptoms of another mechanism. Only way to find out is by treating the tension obsessively.


@Mr. Cartman
@Sjtof
you guys did have your hearing extensively checked and concluded it was perfect too right? Apart from eventual damage that was already there.

Also @Mr. Cartman wow that is one great article thanks mate! You gave me something to read for tonight. I already read what you bolded out, and spot on, that's exactly how i think about it and what that audiologist said to me more or less. :)

Aside from this all i'm back from Roma, it was great, it's a very noisy city which helped me forget about T very easily without any masking :) The downside is my T was screaming when coming back, but when i woke up this morning it was very low, it did increase and fluctuate a bit by now, but it's a relatively quiet day overall, i have no clue why, but i did take some pseudoephredine to combat ETD pressure changes while flying, i have the impession, that ephedrine slightly helps with my T, however the T is certainly not related to ETD problems. Might be something vascular in the play too. Also ephedrine relaxes me, which i would not expect from stimulants. Might be totally unrelated too, it's a quite unpredictable T we're experiencing.
 

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A physician may prescribe muscle relaxants such as orphenadrine, or in severe cases, may inject botulinum toxin to stop the muscle from contracting.

Great article! @Mr. Cartman :)

I think the fastest way to see possible results is botox injections. That is the path I am currently going down. Orphenadrine might be worth trying also, although I already have 2 muscle relaxers in Flexeril & Robaxin.
http://www.ohrfrei.de/botinnox/indexgb.html
 
@chronicburn

Hey mate! And welcome back! :)

Iv had my hearing tested as well, but only up to the 10khz range, and it was very good.
I do have a slight dip on my left ear @6khz, which has given me a slight noise induced T in that ear.
But it has never bothered me, and its constant.. No pain involved etc.
In fact I wouldnt trade this T off for anything, it soothes me down when Im going to sleep :)

But this one is more physical.. And its totally different.. I can even feel that muscle contractions are affecting my T.
I can even make it disappear completely like I have said before, by lying in a special position.
Also, by doing _something_ with the muscles surrounding my ear and temple bone, it can disappear completely.

When it disappears there are some muscles movements going on on top of my ears/side of my head and at my temple bone.
I have no idea what happens, but it seems like the muscles are pulling something into place.. Its very weird..
Also the pain I experience seems to be originating from those muscles trying to do this pull all the time, but it fails.. I dont know the mechanics of it, but theres something going on as far as those muscles are cancelling out my T.

I cannot relate this to noise induced T, at least not from my previous experience.

And also consider the fact that our history is almost identical, as well as @Sjtof .

Those headaches before onset, the stress factor, I had a sudden neck movement, you did situps, Sjtof did bench presses..

If it was noise induced, I dont think I would be able to make it disappear completely for a while by doing some ackward movements as well.
 
@chronicburn

Hey mate! And welcome back! :)

Iv had my hearing tested as well, but only up to the 10khz range, and it was very good.
I do have a slight dip on my left ear @6khz, which has given me a slight noise induced T in that ear.
But it has never bothered me, and its constant.. No pain involved etc.
In fact I wouldnt trade this T off for anything, it soothes me down when Im going to sleep :)

But this one is more physical.. And its totally different.. I can even feel that muscle contractions are affecting my T.
I can even make it disappear completely like I have said before, by lying in a special position.
Also, by doing _something_ with the muscles surrounding my ear and temple bone, it can disappear completely.

When it disappears there are some muscles movements going on on top of my ears/side of my head and at my temple bone.
I have no idea what happens, but it seems like the muscles are pulling something into place.. Its very weird..
Also the pain I experience seems to be originating from those muscles trying to do this pull all the time, but it fails.. I dont know the mechanics of it, but theres something going on as far as those muscles are cancelling out my T.

I cannot relate this to noise induced T, at least not from my previous experience.

And also consider the fact that our history is almost identical, as well as @Sjtof .

Those headaches before onset, the stress factor, I had a sudden neck movement, you did situps, Sjtof did bench presses..

If it was noise induced, I dont think I would be able to make it disappear completely for a while by doing some ackward movements as well.

Yeah exactly, i have no understanding of noise induced T as i've never experienced it, but this T is indeed different i guess, it's nothing like the T you have for some minutes after a night clubbing or such. And it's not a pure tone most of the time.
I do think too that were probably experiencing the same thing. :)

It is nice that you found a position in which you can always eliminate T :) Mine doesn't disappear, or at least not for long time, i've had minutes every once in a while it was gone though, but in most cases i don't know what triggered it to disappear. So yeah points at something physical indeed.
Today i was able to trigger and let dissapear that fleeting T we did experience occasionally by moving my neck, i could do it for a few hours, now by doing the same movements i can't anymore though, quite weird. The constant T is relatively low though, and was a white noise-ish noise for quite some time before moving up in pitch again.

Don't know what to make of all this but thought i should note it though, i also have this weird tense feeling in my ears today, it's not the pressure stuffy feeling i occasional feel, and no itch or pain either. It's a pulling sensation, as if the inner part of my ear gets pulled down, probably muscle related, but i never experienced it before like this.

Basically this all points in the direction of muscle problems indeed, seems like the best way to diagnose it is to succesfully cure it(temporarily or permanently)

It's also interesting what's being said about botox for curing DCN and musce related tinnitus, i would be quite hesitant to try such drastic things for temporary relief. Hopefully just posture and lifestyle changes, accompanied with releasing the tension, will solve this thing :).
 
Hi guys,

Great article @Mr. Cartman.ll read it fully when I'm bored :p.

I got my splint and giving it some time. Last treatment with my chiro was the first time my left side of the neck was manipulated. At least it popped this time. Anyways I seem to be bothered less by my T the last few days. My left shoulder is btw pretty annoying. It pops so often. Even had to go back home from work last friday because it hurt and gave me this nausea feeling.

Also when i move my shoulders back to forth. The left one makes an awfull cracking sound compared to the right one.

The only thing that makes me concerned is what you say @chronicburn. I mean my T is Somatic as fk but still it flares up when I hear noise. But ye my hearing was fine and it changed so much during the time while I didnt even listened to any loud music or used my earplugs/headphones since the time I got it. when i wake up its the best. So i most of the times feel more comfortable in a quite room. But ye its sounds more like a white noise sound.

I decided not too worry about it too much. Even when i hear it i just give it the finger if i can. Just gonna give everything some rest for a few weeks. Maybe try some running. Wearing the mouth guard a nite and wait for the mri results.

Oh ye and that sentence in the article where it says that a neck injury most often is not noticed directly but the T can show up a few hours later. Well I did bench presses and like half an hour later I got the headaches and the fleeting T. But like I said before I thought that I did hear some. Background noise back then but I didn't pay too much attention to it back then.

The only thing which I'm still not totally convinced of is that the day after the bench presses I did listen for 30minutes to my earplugs when i had to go to school. But I just cannot imagine that that caused it. That wouldn't explain the tension I experience
 
Hi guys,

Great article @Mr. Cartman.ll read it fully when I'm bored :p.

I got my splint and giving it some time. Last treatment with my chiro was the first time my left side of the neck was manipulated. At least it popped this time. Anyways I seem to be bothered less by my T the last few days. My left shoulder is btw pretty annoying. It pops so often. Even had to go back home from work last friday because it hurt and gave me this nausea feeling.

Also when i move my shoulders back to forth. The left one makes an awfull cracking sound compared to the right one.

The only thing that makes me concerned is what you say @chronicburn. I mean my T is Somatic as fk but still it flares up when I hear noise. But ye my hearing was fine and it changed so much during the time while I didnt even listened to any loud music or used my earplugs/headphones since the time I got it. when i wake up its the best. So i most of the times feel more comfortable in a quite room. But ye its sounds more like a white noise sound.

I decided not too worry about it too much. Even when i hear it i just give it the finger if i can. Just gonna give everything some rest for a few weeks. Maybe try some running. Wearing the mouth guard a nite and wait for the mri results.

Oh ye and that sentence in the article where it says that a neck injury most often is not noticed directly but the T can show up a few hours later. Well I did bench presses and like half an hour later I got the headaches and the fleeting T. But like I said before I thought that I did hear some. Background noise back then but I didn't pay too much attention to it back then.

The only thing which I'm still not totally convinced of is that the day after the bench presses I did listen for 30minutes to my earplugs when i had to go to school. But I just cannot imagine that that caused it. That wouldn't explain the tension I experience

Well it might also be that your auricularis muscles tense up and consequently pull on your middle ear muscles or such,when your hearing noise, seems possible but i don't know, relatively often my T changes pitch when exposed to loud noise though, doesn't seem like it gets louder or quieter, my ears do feel itchy or pressured when exposed to loud noise quite regularly though. aside from that for the last 3 days my T is low compared to all the time before that, i still hear it most of the time but it's a huge difference, the high CRT pitch has disappeared for know and it whas a white noise ish sound all day, hope it keeps going that way :). I do got weird feelings in my ears a lot though, and in my jaw and neck, so i'm guessing something is probably healing up, though to the T decreasing :). I'm feeling like it's tension being released in my masseter muscles, my SCM is still very tense though.


And it would be very unlikely that those 30minutes of ipod listening caused it, i can't imagine that either.
 
Yeah exactly, i have no understanding of noise induced T as i've never experienced it, but this T is indeed different i guess, it's nothing like the T you have for some minutes after a night clubbing or such. And it's not a pure tone most of the time.
I do think too that were probably experiencing the same thing. :)

It is nice that you found a position in which you can always eliminate T :) Mine doesn't disappear, or at least not for long time, i've had minutes every once in a while it was gone though, but in most cases i don't know what triggered it to disappear. So yeah points at something physical indeed.
Today i was able to trigger and let dissapear that fleeting T we did experience occasionally by moving my neck, i could do it for a few hours, now by doing the same movements i can't anymore though, quite weird. The constant T is relatively low though, and was a white noise-ish noise for quite some time before moving up in pitch again.

Don't know what to make of all this but thought i should note it though, i also have this weird tense feeling in my ears today, it's not the pressure stuffy feeling i occasional feel, and no itch or pain either. It's a pulling sensation, as if the inner part of my ear gets pulled down, probably muscle related, but i never experienced it before like this.

Basically this all points in the direction of muscle problems indeed, seems like the best way to diagnose it is to succesfully cure it(temporarily or permanently)

It's also interesting what's being said about botox for curing DCN and musce related tinnitus, i would be quite hesitant to try such drastic things for temporary relief. Hopefully just posture and lifestyle changes, accompanied with releasing the tension, will solve this thing :).
Yeah exactly, i have no understanding of noise induced T as i've never experienced it, but this T is indeed different i guess, it's nothing like the T you have for some minutes after a night clubbing or such. And it's not a pure tone most of the time.
I do think too that were probably experiencing the same thing. :)

It is nice that you found a position in which you can always eliminate T :) Mine doesn't disappear, or at least not for long time, i've had minutes every once in a while it was gone though, but in most cases i don't know what triggered it to disappear. So yeah points at something physical indeed.
Today i was able to trigger and let dissapear that fleeting T we did experience occasionally by moving my neck, i could do it for a few hours, now by doing the same movements i can't anymore though, quite weird. The constant T is relatively low though, and was a white noise-ish noise for quite some time before moving up in pitch again.

Don't know what to make of all this but thought i should note it though, i also have this weird tense feeling in my ears today, it's not the pressure stuffy feeling i occasional feel, and no itch or pain either. It's a pulling sensation, as if the inner part of my ear gets pulled down, probably muscle related, but i never experienced it before like this.

Basically this all points in the direction of muscle problems indeed, seems like the best way to diagnose it is to succesfully cure it(temporarily or permanently)

It's also interesting what's being said about botox for curing DCN and musce related tinnitus, i would be quite hesitant to try such drastic things for temporary relief. Hopefully just posture and lifestyle changes, accompanied with releasing the tension, will solve this thing :).

Yeah, Im pretty confident that its the same stuff going on with both of us, if not all three of us.
I have to admit that I have not experienced anything like this until the day it started with vision stuff, weird feelings that seems to be nerve related and all the other stuff going on.. I also find it very odd that we both stopped using those aluminium antiperspirants a few days before onset, even though it might not be related. And that we both experienced being somewhat cronic tired..

When I was lying in that position I kept getting those electrical jolts in my legs.. And you did as well..
I still get some electrical stuff going on now and then out of the blue, and its mostly in my arms and legs, and sometimes other parts of the body.. Ive had it in my eyelid, cheek and jaw as well.. But not as bad now that it was..

I believe that our nerves are firing like crazy, both sensory and motoric signals that shouldnt be sent..
And for me, it seems like those signals are being sent to the muscles in the ear as well.. Suddenly I can feel something tingling, then the tensor tympani is making a spasm.. My ear itches sometimes too.. And then the fullness and pressure feeling you are talking about.. I have that too, it sometimes feels like my ear is being pulled by a muscle..

You said that your T started in one ear and included the other in about two weeks, that happened exactly with me as well..

Theres something fishy going on for sure..

Now in the recent days, my T has even gone away when I have heard some noise, like a car driving by very far away.. That hasnt happened before, because then it was the opposite.. Its like my ear has a negative threshold shif, and kinda kicks in a minor threshold shift when a sound is present that eliminates the T for a sec or two.. I would think it should have been the opposite.. At least that would have made sense to me.. Not sure how to describe it, but its very weird indeed.

But I do find that my muscles in the face are acting very odd at the moment.. What puzzles me though, its that it doesnt seem to be related to only one nerve.. It seems like multiple nerves are affected.. And its not ipsilateral.. Its just totally random..
 
Well it might also be that your auricularis muscles tense up and consequently pull on your middle ear muscles or such,when your hearing noise, seems possible but i don't know, relatively often my T changes pitch when exposed to loud noise though, doesn't seem like it gets louder or quieter, my ears do feel itchy or pressured when exposed to loud noise quite regularly though. aside from that for the last 3 days my T is low compared to all the time before that, i still hear it most of the time but it's a huge difference, the high CRT pitch has disappeared for know and it whas a white noise ish sound all day, hope it keeps going that way :). I do got weird feelings in my ears a lot though, and in my jaw and neck, so i'm guessing something is probably healing up, though to the T decreasing :). I'm feeling like it's tension being released in my masseter muscles, my SCM is still very tense though.


And it would be very unlikely that those 30minutes of ipod listening caused it, i can't imagine that either.

Yeah, it does look like muscles are very much involved..

I dont think a few minutes of iPod listening should cause nerve dysfunction all around the body..
It could be though, that something had gone wrong from the start, and noise triggered the inevitable.. A stapedius reflex or something that was not able to shut down due to some dysfunction of the facial nerves..

I have also noticed that when I massage some of the facial muscles, my tensor tympani muscle are making a spasm now and then.. If I suddenly sit down from a standing position, my T can suddenly disappear for a few seconds..

Also feels like there is a wound inside my neck.. Especially the muscle at the back of my neck that goes all the way out to the end of the shoulder blade..
 
@chronicburn

I also have to say that I have had pain in a tooth, or not exactly at the tooth but between two teeth at the side of where my T started.. Its been a little on and off for a few months before my T started.. I went to a dentist that made an x-ray, but he didnt find anything wrong.. Not sure if that could be related or not.. Just thought it was worth mentioning.. :)
 
I must say that @chronicburn sounds very familiar. My T seems to be lowering down the last few days. At least since my last treatment Friday and the usage of the mouth guard during the night seems to have lessen the tension behind my jaw a little. My T is more a white noise sound as well. But I do find it odd that when I close my ears when i've listened to sound, it somehow goes up in pitch and then lowers down again. It's just weird.

And I do exactly feel a burning /stinging sensation from time to time in my ears.

Gonna sleep tonight with the full 12 hour white noise thing too see if that makes a difference. Because normally I wake up with a much lower sound. But I only play the white noise for 2 hours max. I always thought that this was due to relaxation of the muscles. But perhaps it has to do something with noise. So I'll just check that out. Maybe the white noise may help my brain rewire things straight :p

Oh and I found some nice distraction. Poker is definitely help full. Actually all games are.

Oh and @Mr. Cartman. I also experienced toothaches last week and that muscle you are talking about feels painful. When my chiro pressed it last time it hurt like shit. And that shoulder is just a mess. Keeps popping and clicking. But I don't find my chiro very helpful.

I mean he doesn't do research himself. I'm the only one doing that. If I say my penis hurts then he'll try to crack that as well.... :/

I told him my shoulder pops a lot and he did some weird exercises which didnt not really feel like they were doing much, as soon as I got back home, bang it popped again.

But ye will just see what time will bring
 
I must say that @chronicburn sounds very familiar. My T seems to be lowering down the last few days. At least since my last treatment Friday and the usage of the mouth guard during the night seems to have lessen the tension behind my jaw a little. My T is more a white noise sound as well. But I do find it odd that when I close my ears when i've listened to sound, it somehow goes up in pitch and then lowers down again. It's just weird.

And I do exactly feel a burning /stinging sensation from time to time in my ears.

Gonna sleep tonight with the full 12 hour white noise thing too see if that makes a difference. Because normally I wake up with a much lower sound. But I only play the white noise for 2 hours max. I always thought that this was due to relaxation of the muscles. But perhaps it has to do something with noise. So I'll just check that out. Maybe the white noise may help my brain rewire things straight :p

Oh and I found some nice distraction. Poker is definitely help full. Actually all games are.

Oh and @Mr. Cartman. I also experienced toothaches last week and that muscle you are talking about feels painful. When my chiro pressed it last time it hurt like shit. And that shoulder is just a mess. Keeps popping and clicking. But I don't find my chiro very helpful.

I mean he doesn't do research himself. I'm the only one doing that. If I say my penis hurts then he'll try to crack that as well.... :/

I told him my shoulder pops a lot and he did some weird exercises which didnt not really feel like they were doing much, as soon as I got back home, bang it popped again.

But ye will just see what time will bring

Burning and stinging sensation inndeed..

I think the muscle we are talking about is trapezius.. My physio put a needle into a couple of trigger points in that muscle today, and my T went crazy.. And it felt like my ears were going to pop out of my head any minute.. It hurt bad.. And when she kind of wiggled the needle I got an electrical sting that travelled through this muscle from my shoulder and directly into my ear.. And my left eye did hurt a little after the treatment.. Very weird.. I think this muscle is able to do some nasty stuff as well..

Going to do some more needle stuff in that muscle in 2 days..

Good to hear that your mouth guard is relaxing your jaw.
 
Burning and stinging sensation inndeed..

I think the muscle we are talking about is trapezius.. My physio put a needle into a couple of trigger points in that muscle today, and my T went crazy.. And it felt like my ears were going to pop out of my head any minute.. It hurt bad.. And when she kind of wiggled the needle I got an electrical sting that travelled through this muscle from my shoulder and directly into my ear.. And my left eye did hurt a little after the treatment.. Very weird.. I think this muscle is able to do some nasty stuff as well..

Going to do some more needle stuff in that muscle in 2 days..

Good to hear that your mouth guard is relaxing your jaw.

Ye it definitely is. I noticed the crampy feeling again behind my right ear, plus I got a minor stingy headache on that side today, exactly at the spot where I had these stinging pains before. When I press my trapezius in my shoulder it hurts like shit. On both sides. This after some time also gives me the nausea feeling. And like I said before the trapezius stretch gives me the weird sound. Also sometimes I hear crickets. And if i squeeze my trapezius /scm for a while this most of the time that vanishes again. Very weird but definitely this has something to do with it. I mean the feeling when i press it is just painful as fk.

My shoulders are bend forward like all the time. So in order to get them back in position I'm gonna order those belts which keep them in place. See if that works. Also bought me some ginkgo today. Just to try :p.
 
Ye it definitely is. I noticed the crampy feeling again behind my right ear, plus I got a minor stingy headache on that side today, exactly at the spot where I had these stinging pains before. When I press my trapezius in my shoulder it hurts like shit. On both sides. This after some time also gives me the nausea feeling. And like I said before the trapezius stretch gives me the weird sound. Also sometimes I hear crickets. And if i squeeze my trapezius /scm for a while this most of the time that vanishes again. Very weird but definitely this has something to do with it. I mean the feeling when i press it is just painful as fk.

My shoulders are bend forward like all the time. So in order to get them back in position I'm gonna order those belts which keep them in place. See if that works. Also bought me some ginkgo today. Just to try :p.

Yeah.. I have the same thing.. I think this muscle is a bad ass.. Those needles in that muscle was just sick.. It felt like they penetrated my T and my ear.. Kinda curious what will happen in 2 days.. Then I will have the needles done in the last trigger points next to my shoulder.. But I know for sure that the needles are doing something..

I always have my shoulders bent forward too when driving and sitting in front of my computer, and that could explain why driving my car is a killer as my seat literally pushes my shoulders forward.. And it might explain why Im sometimes able to eliminate my T by lying face down with two pillows under each shoulder, as they are then pushed back..

What belt are you talking about? I want to try that out as well.. :p
 
Hi @Mr. Cartman

One of these
1364184669.jpg


Gonna find a store here nearby and try out how they feel when they are worn. Not sure if they will help but ye, a better posture won't harm. Keeping this posture for a while without any support is impossible in my case.
 

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