Cluster Headaches and Trigeminal Autonomic Cephalgias, TMJ Disorders and Neurostimulation

AMAZING MIGRAINE, HEADACHE AND TMJ TESTIMONIALS   (links below)
Various stimulators can be used for treating migraines and cluster headaches. A 50-70% reduction in Trigeminal Headaches was seen by  stimulation of the Deep Brain, the Sphenopalatine Ganglion and with occipital stimulation.  The Trigeminal-Autonomic reflex is key to understanding these types of headaches.
Neuromuscular Dentistry also utilizes stimulation of the Trigeminal Nervous System to create muscle relaxation as well as central effects.  Neuromuscular Dentistry reestablishes a healthy homeostasis within the Trigeminal Nervous System by the use of a diagnostic neuromuscular orthotic.  This treatment allows patients to maintain a healthy neurological state and healthy condition of trigeminaly innervated muscles.  In addition, postural correction also occur which reduce occipital headaches.

The use of neuromuscular dentistry and SPG Blocks or Sphenopalatine Ganglion Blocks can give remarkable long lasting relief.

Permanent correction will prove to curative for a significant number of patients but should only be considered after suitable trial period.  There are many patient videos on Reddit attesting to the amazing effects of neuromuscular Dentistry and SPG Blocks.  Combination of these techniques gives patients multiple pathways to a better quality of life.

I have practiced neuromuscular dentistry since 1980 and learned from Barney Jankelson , the genius who created the field.  I currently practice Neuromuscular Dentistry in Chicago in my two offices in Highland Park and Gurnee.  Treatment of TMJ disorders will frequently also eliminate Migraines, cluster headaches and many other chronic pain conditions.

The Highland Park office website is www.ThinkBetterlife.com

The Highland Park office is www.DelanyDentalCare.com

THE FOLLOWING REDDITS HAVE PATIENT TESTIMONIALS

https://www.reddit.com/r/NeuroMuscularDent/

https://www.reddit.com/r/SPGBlocks/

PubMed Abstract:

Headache. 2017 Feb;57(2):327-335. doi: 10.1111/head.12874. Epub 2016 Aug 4.

Cluster headache and other TACs: Pathophysiology and neurostimulation options.

Láinez MJ1,2, Guillamón E1.

Author information

Abstract

BACKGROUND:

The trigeminal autonomic cephalalgias (TACs) are highly disabling primary headache disorders. There are several issues that remain unresolved in the understanding of the pathophysiology of the TACs, although activation of the trigeminal-autonomic reflex and ipsilateral hypothalamic activation both play a central role. The discovery of the central role of the hypothalamus led to its use as a therapeutic target. After the good results obtained with hypothalamic stimulation, other peripheral neuromodulation targets were tried in the management of refractory cluster headache (CH) and other TACs.

METHODS:

This review is a summary both of CH pathophysiology and of efficacy of the different neuromodulation techniques.

RESULTS:

In chronic cluster headache (CCH) patients, hypothalamic deep brain stimulation (DBS) produced a decrease in attack frequency of more than 50% in 60% of patients. Occipital nerve stimulation (ONS) also elicited favorable outcomes with a reduction of more than 50% of attacks in around 70% of patients with medically intractable CCH. Stimulation of the sphenopalatine ganglion (SPG) with a miniaturized implanted stimulator produced a clinically significant improvement in 68% of patients (acute, preventive, or both). Vagus nerve stimulation (VNS) with a portable device used in conjunction with standard of care in CH patients resulted in a reduction in the number of attacks. DBS and ONS have been used successfully in some cases of other TACs, including hemicrania continua (HC) and short-lasting unilateral headache attacks (SUNHA).

CONCLUSIONS:

DBS has good results, but it is a more invasive technique and can generate serious adverse events. ONS has good results, but frequent and not serious adverse events. SPG stimulation (SPGS) is also efficacious in the acute and prophylactic treatment of refractory cluster headache. At this moment, ONS and SPG stimulation techniques are recommended as first line therapy in refractory cluster patients. New recent non-invasive approaches such as the non-invasive vagal nerve stimulator (nVNS) have shown efficacy in a few trials and could be an interesting alternative in the management of CH, but require more testing and positive randomized controlled trials.

© 2016 American Headache Society.

KEYWORDS:

hypothalamus; migraine pathophysiology; neuromodulation; trigeminal autonomic cephalalgia

TRIGEMINAL AUTONOMIC CEPHALGIAS, Chronic Headaches Related To Trigeminal Nerve Respond well to Neuromuscular Dentistry & Sphenopalatine Ganglion Block

The Trigeminal Nerve is often called the Dentist's Nerve because it goes to the teeth, jaw muscles, jaw joints (TMJ),and periodontal ligament. Trigeminal innervation of the sinuses, eustacian tubes, tensor of the ear drum (tensor tympani), soft palate, tongue and meninges of the brain explain why there are so many disorders associated with jaw function, TMJ and TMD.

There are a special group of disorders called the Trigeminal Autonomic Cephalgias (See National Institute of Neurological Disorders and Stroke web information below). Sphenopalatine Ganglion Blocks are an autonomic block that can be used to treat many types of migraine, Tension-tyoe headaches and chronic daily headaches but the SPG block are especially useful for autonomic cephalgias.

Cluster Headaches are primarily found in males and frequently awake patients from sleep. Oxygen is also an excellent treatment if it is administered immediately. Triptans, neurosurgery as well as antipsychotics and calcium channel blockers are also used prophylactically. Utilization of implanted electrodes and or neurosurgery where the nerves are resected are techniques that are often used. The Sphenopalatine Ganglion block (an autonomic block can be used both diagnostically and therapeutically) is probably one of the safest and most effective treatments for cluster headaches and when done with plain lidocaine are almost free of side effects. Paroxysmal hemicrania and SUNCT (Short-lasting, Unilateral, Neuralgiform headache attacks with Conjunctival injection and Tearing) are other Autonomic trigeminal that have similarities to cluster headaches. The National Institute of Neuromuscular Disorders and Stroke can be found below)

A diagnostic neuromuscular orthotic can also be utilized prophylactically with cluster headaches. A diagnostic neuromuscular orthotic is used to treat both the sommatic and autonomic aspects of the trigeminal nerves. They are particularly effective at treating muscle spasm, myofascial pain and trigger points in masticatory muscles. The combination of both therapies, a diagnostic neuromuscular orthotic and self administered autonomic Sphenopalatine Ganglion Blocks (SPG Block) can virtually "Cure" cluster headaches in some patients. An added advantage to the diagnostic orthotic is that it can frequently eliminate tension-type headaches and chronic daily headaches (muscular orgin headaches) that are almost always trigeminally modulated.

The SPG block is a simple procedure that my patients learn to self administer in one or two appointments. The block is done transmucosally with a cotton tipped applicator with lidocaine (no epinephrine or preservatives). No needles ever penetrate the patient but rather the saturated cotton is passed intranasally (though the nose) to the area adjacent to the ganlion. The anaesthetic passes through the tissue to the ganglion.

According to Wikipedia the Sphenopalatine Ganglion is also called the "The pterygopalatine ganglion (Synonym: ganglion pterygopalatinum, meckel's ganglion, nasal ganglion, sphenopalatine ganglion) is a parasympathetic ganglion found in the pterygopalatine fossa. (This is where the cotton tip applicator contacts mucosa) It is one of four parasympathetic ganglia of the head and neck. The others are the submandibular ganglion, otic ganglion, and ciliary ganglion. The flow of blood to the nasal mucosa, in particular the venous plexus of the conchae, is regulated by the pterygopalatine ganglion and heats or cools the air in the nose.

(The structure of the Sphenopalatine Ganglion also from Wikipedia below)

The pterygopalatine ganglion (of Meckel), the largest of the parasympathetic ganglia associated with the branches of the Maxillary Nerve (branch of trigeminal nerve), is deeply placed in thepterygopalatine fossa, close to the sphenopalatine foramen. It is triangular or heart-shaped, of a reddish-gray color, and is situated just below the maxillary nerve as it crosses the fossa.

The pterygopalatine ganglion supplies the lacrimal gland (tear ducts), paranasal sinuses, glands of the mucosa of the nasal cavity and pharynx, the gingiva, and the mucous membrane and glands of the hard palate. It communicates anteriorly with the nasopalatine nerve.

According to Wikipedia (below) there are sensory, sympathetic and parasympatheic roots

Its sensory root is derived from two sphenopalatine branches of the maxillary nerve; their fibers, for the most part, pass directly into the palatine nerves; a few, however, enter the ganglion, constituting its sensory root.

Parasympathetic root

Its parasympathetic root is derived from the nervus intermedius (a part of the facial nerve) through the greater petrosal nerve.

In the pterygopalatine ganglion, the preganglionic parasympathetic fibers from the greater petrosal branch of the facial nerve synapse with neurons whose postganglionic axons, vasodilator, and secretory fibers are distributed with the deep branches of the trigeminal nerve to the mucous membrane of the nose, soft palate, tonsils, uvula, roof of the mouth, upper lip and gums, and upper part of the pharynx. It also sends postganglionic parasympathetic fibers to the lacrimal nerve (a branch of the Ophthalmic nerve, also part of the trigeminal nerve) via the zygomatic nerve, a branch of the maxillary nerve (from the trigeminal nerve), which then arrives at the lacrimal gland.

The nasal glands are innervated with secretomotor from the nasopalatine and greater palatine nerve. Likewise, the palatine glands are innervated by the nasopalatine, greater palatine nerve and lesser palatine nerves. The pharyngeal nerve innervates pharyngeal glands. These are all branches of maxillary nerve.

Sympathetic root

The ganglion also consists of sympathetic efferent (postganglionic) fibers from the superior cervical ganglion. These fibers, from the superior cervical ganglion, travel through the carotid plexus, and then through the deep petrosal nerve. The deep petrosal nerve joins with the greater petrosal nerve to form the nerve of the pterygoid canal, which enters the ganglion.

TRIGEMINAL AUTONOMIC CEPHALGIAS

Some primary headaches are characterized by severe pain in or around the eye on one side of the face and autonomic(or involuntary) features on the same side, such as red and teary eye, drooping eyelid, and runny nose. These disorders, called trigeminal autonomic cephalgias (cephalgia meaning head pain), differ in attack duration and frequency, and have episodic and chronic forms. Episodic attacks occur on a daily or near-daily basis for weeks or months with pain-free remissions. Chronic attacks occur on a daily or near-daily basis for a year or more with only brief remissions.

Cluster headache - the most severe form of primary headache-involves sudden, extremely painful headaches that occur in "clusters," usually at the same time of the day and night for several weeks. They strike one side of the head, often behind or around one eye, and may be preceded by a migraine-like aura and nausea. The pain usually peaks 5 to 10 minutes after onset and continues at that intensity for up to 3 hours. The nose and the eye on the affected side of the face may get red, swollen, and teary. Some people will experience restlessness and agitation, changes in heart rate and blood pressure, and sensitivity to light, sound, or smell. Cluster headaches often wake people from sleep.

Cluster headaches generally begin between the ages of 20 and 50 but may start at any age, occur more often in men than in women, and are more common in smokers than in nonsmokers. The attacks are usually less frequent and shorter than migraines. It's common to have 1 to 3 cluster headaches a day with 2 cluster periods a year, separated by months of freedom from symptoms. The cluster periods often appear seasonally, usually in the spring and fall, and may be mistaken for allergies. A small group of people develop a chronic form of the disorder, which is characterized by bouts of headaches that can go on for years with only brief periods (1 month or less) of remission. Cluster headaches occur more often at night than during the day, suggesting they could be caused by irregularities in the body's sleep-wake cycle. Alcohol (especially red wine) and smoking can provoke attacks. Studies show a connection between cluster headache and prior head trauma. An increased familial risk of these headaches suggests that there may be a genetic cause.

Treatment options include oxygen therapy-in which pure oxygen is breathed through a mask to reduce blood flow to the brain-and triptan drugs. Certain antipsychotic drugs, calcium-channel blockers, and anticonvulsants can reduce pain severity and frequency of attacks. In extreme cases, electrical stimulation of the occipital nerve to prevent nerve signaling or surgical procedures that destroy or cut certain facial nerves may provide relief.

Paroxysmal hemicrania is a rare form of primary headache that usually begins in adulthood. Pain and related symptoms may be similar to those felt in cluster headaches, but with shorter duration. Attacks typically occur 5 to 40 times per day, with each attack lasting 2 to 45 minutes. Severe throbbing, claw-like, or piercing pain is felt on one side of the face-in, around, or behind the eye and occasionally reaching to the back of the neck. Other symptoms may include red and watery eyes, a drooping or swollen eyelid on the affected side of the face, and nasal congestion. Individuals may also feel dull pain, soreness, or tenderness between attacks or increased sensitivity to light on the affected side of the face. Paroxysmal hemicrania has two forms: chronic, in which individuals experience attacks on a daily basis for a year or more, and episodic, in which the headaches may stop for months or years before recurring. Certain movements of the head or neck, external pressure to the neck, and alcohol use may trigger these headaches. Attacks occur more often in women than in men and have no familial pattern.

The nonsteroidal anti-inflammatory drug indomethacin can quickly halt the pain and related symptoms of paroxysmal hemicrania, but symptoms recur once the drug treatment is stopped. Non-prescription analgesics and calcium-channel blockers can ease discomfort, particularly if taken when symptoms first appear.

SUNCT (Short-lasting, Unilateral, Neuralgiform headache attacks with Conjunctival injection and Tearing) is a very rare type of headache with bursts of moderate to severe burning, piercing, or throbbing pain that is usually felt in the forehead, eye, or temple on one side of the head. The pain usually peaks within seconds of onset and may follow a pattern of increasing and decreasing intensity. Attacks typically occur during the day and last from 5 seconds to 4 minutes per episode. Individuals generally have five to six attacks per hour and are pain-free between attacks. This primary headache is slightly more common in men than in women, with onset usually after age 50. SUNCT may be episodic, occurring once or twice annually with headaches that remit and recur, or chronic, lasting more than 1year.

Symptoms include reddish or bloodshot eyes (conjunctival injection), watery eyes, stuffy or runny nose, sweaty forehead, puffy eyelids, increased pressure within the eye on the affected side of the head, and increased blood pressure.

Cephalalgia. 2009 Jul 13. [Epub ahead of print] LinksSluder's neuralgia: a trigeminal autonomic cephalalgia?

SUNCT is very difficult to treat. Anticonvulsants may relieve some of the symptoms, while anesthetics and corticosteroid drugs can treat some of the severe pain felt during these headaches. Surgery and glycerol injections to block nerve signaling along the trigeminal nerve have poor outcomes and provide only temporary relief in severe cases. Doctors are beginning to use deep brain stimulation (involving a surgically implanted battery-powered electrode that emits pulses of energy to surrounding brain tissue) to reduce the frequency of attacks in severely affected individuals.

Oomen KP, van Wijck AJ, Hordijk GJ, de Ru JA.
Department of Otolaryngology, Central Military Hospital, Utrecht, The Netherlands.
Oomen KPQ, van Wijck AJM, Hordijk GJ & de Ru JA. Sluder's neuralgia: a trigeminal autonomic cephalalgia? Cephalalgia 2009. London. ISSN 0333-1024The objective was to formulate distinctive criteria to substantiate our opinion that Sluder's neuralgia and cluster headache are two different clinical entities. A systematic review was carried out of all available, original literature on Sluder's neuralgia. Pain characteristics, periodicity and associated signs and symptoms were studied and listed according to frequency of appearance. Eleven articles on Sluder's neuralgia were evaluated. Several differences between Sluder's neuralgia and cluster headache became evident. Based on described symptoms, new criteria for Sluder's neuralgia could be formulated. Sluder's neuralgia and cluster headache could possibly be regarded as two different headache syndromes, and Sluder's neuralgia could be a trigeminal autonomic cephalalgia.
PMID: 19614698 [PubMed - as supplied by publisher]

HEADACHE AND SLEEP APNEA TREATMENT IN SCHAUMBURG,MCHENRY, BARRINGTON, ELGIN AND CRYSTAL LAKE

I HAVE BEEN TRETING PATIENTS WITH CHRONIC HEAD AND NECK PAIN, FACIAL PAIN, MIGRAINES TENSION-TYPE HEADACHES FOR 30 YEARS. I SEE PATIENTS PRIMARILY IN MY GURNEE OFFICE AND OVER THE YEARS PATIENTS HAVE FOUND THAT IT WAS WORTH THE DRIVE FOR RELIEF OF PAIN. I HAVE RECENTLY CREATED CICAGOLAND DENTAL SLEEP MEDICINE ASSOCIATES AND I AM ABLE TO SEE PATIENTS IN SCHAUMBURG IN THE OFFICES OF DR ALAN ACIERNO AN EXCELLENT GENERAL DENTIST.

PATIENTS WITH HEADACHES AND SLEEP DISORDERS CAN MAKE APPOINTMENTS TO SEE ME IN SCHAUMBURG BY CONTACTING ME AT DELANY DENTAL CARE LTD IN GURNEE. CALL TOLL FREE AT 1-800-TM-JOINT OR 1-8-NO-PAP-MASK OR VISIT MY WEBSITE @ http://www.delanydentalcare.com/neuromuscular.html

neuromuscualr dentistry and headache elimination

The following is a reprint of my article I was asked to write for the American Equilibation society. There are a couple of pictures that are not included in the text but can be found on the Sleep and Health Journal Site @ http://www.sleepandhealth.com/neuromuscular-dentistry

This article was written to explain Neuromuscular Dentistry to TMJ dentists who are not familiar with the field. I firmly believe that all TMJ treatment is better if neuromuscular dental techniques are used to perfect position.

I HAVE ALSO INCLUDED AFTER MY ARTICLE AN ABSTRACT OF AN ARTICLE BY BARRY COOPER DDS IN CRANIO WHERE HE FOUND "OVERWHELMING RELIEF" IN PATIENTS WITH NEUROMUSCULAR ORTHOTIC USE.

Dr Cooper has done an enormous service to all headache sufferers by his careful documentation of treatment. Insurance companies no longer have any justification for not covering neuromuscular dentistry in total. He is also a Past President of ICCMO and the founding Chairman of the Alliance of Temporomandibular disorders.

Neuromuscular Dentistry
NEUROMUSCULAR DENTISTRY (originally published in the American Equilibration Society magazine)

Ira L Shapira DDS, DABDSM, DAAPM, FICCMO

Neuromuscular Dentistry remains an enigma to many dentists who do not understand the purposes of the electrodes, the TENS, the computers and more. It has unfairly become a target of poor and misleading definitions by doctors who do not understand its basic principles.

There are several basic premises that underlie Neuromuscular Dentistry. The first premise is that the stomatognathic muscles are the primary determinate of the mandibles position during all jaw functions (when the teeth are not in occlusion) and that rest position is one of the most important positions in dentistry. Rest position is a maxillary to mandibular jaw relation where the teeth are not in occlusion but are prepared to occlude. In Neuromuscular Dentistry Rest is a position of bilaterally equal and low muscle tonicity from which the mandible moves into full occlusion with minimal muscle accommodation. Following closure from rest position the mandible should return to rest with similarly balanced low muscle tonicity. Rest position is determined not only by the mandibles relation to the cranium but also by the position of the head relative to the body, the suprahyoid and infrahyoid muscles and the position of the hyoid bone. To fully understand the relation of jaw movement to head posture read the Quadrant Theorem of GUZAY (Available from the ADA Library). In essence it shows in engineering terms that after accounting for both rotation and translation of the mandible the actual axis of rotation of the mandible is at the odontoid process of the second vertebrae not at the mandible condylar head.

The second premise is that occlusion is important in neuromuscular dentistry as a resetting mechanism of the trigeminal nervous system's control of the stomatognathic muscles. Myocentric occlusion is ideally a position in which the muscles move the mandible from a non-torqued rest position into full occlusion with minimal muscle accommodation and no interferences of occlusal contacts until full closure is attained thus eliminating all torque during closure. This means that there are no noxious contacts received by the periodontal ligaments or the muscular proprioceptors that must be avoided by the muscles (accommodation) but rather allow free entry into myocentric occlusion. The jaw muscles will return to rest position after closure with the muscles maintaining their healthy low tonicity. Relaxed healthy musculature is the gold standard of neuromuscular dentistry.

Swallowing is a primary activity when the jaw is closed into full occlusion. In order to swallow it is necessary to fixate the mandible and this happens as the teeth occlude. During chewing, speaking and other jaw functions the teeth do not actually occlude in normal function but are separated (during chewing by a bolus of food). Typically swallowing occurs approximately 2000 times a day and is momentary accounting for 6-10 minutes maximum time in occlusion over the course of the day and acts as a neuromuscular reset switch for trigeminally innervated muscles. During a healthy swallow the teeth will move freely without interference into full occlusion with bilateral equal contact and bilateral equal muscle activity and then return to rest position with low muscle tonicity. A deviate swallow as evidenced by scalloping of the tongue is a sign of a possible TMJ disorder and is also 80% predictive of sleep apnea (80% predictive in Dental study- 70% predictive ENT study)

Neuromuscular occlusion (myocentric) occurs when centric occlusion (maximum non-torqued intercuspation of teeth) is coincidental with a balanced muscle closure where the muscles will return to their relaxed state following closure. Myocentric is the ideal position for swallowing.

The dentist utilizing neuromuscular techniques does not determine a specific position of the condyles in the fossa. The position of the disk and condyle are determined primarily by the teeth (bite or orthotic during occlusal correction therapy) in occlusion (myocentric) and the application of muscle activity. Neuromuscular dentistry allows the patients healthy relaxed muscles to determine the joint relations with the teeth serving as a neuromuscular reset switch during closure. Neuromuscular dentistry rejects the notion that manipulation of the patient's jaw by the intervention of the clinician muscles are more important in determining the relation of the components of the TM Joint than the muscles of the patient. Centric relation is not used as a reference position for mounting casts on an articulator. Centric Relation is considered a border movement of the mandible and as reported in orthopedic literature joints are rarely used in their border positions.

The HIP plane (defined by hamular notches, incisive papilla and the occipital condyles) and/or Campers plane is used to relate the maxilla to an articulator. When cosmetic considerations are involved photos are used to to incorporate this physiologic plane to soft tissues of the face. Ideally the occlusal plane (parallel to the HIP Plane) will bisect the odontoid process of the axis of the atlantoaxial joint the actual center of rotation for the mandible after accounting for translation and rotation according to the quadrant theorem.

This occlusal plane will be at a 90-degree angle to gravitational force when the head is in an upright position. A neuromuscular bite is used to mount the


mandibular casts according to data from EMG recordings and jaw tracings with TENS. The incorporation of the Curve of Spee based on Centro Masticale (CM) point which continues thru the mandibular condyle and the Curve of Wilson also based on CM point that is involved is stimulation of the autonomic nervous system via tongue reflexes when the lateral border of the tongue touches the lingual surfaces of the teeth. (Critical Reviews in Oral Biology & Medicine, Vol. 13, No. 5, 409-425 (2002)) This excellent article is available online at http://cro.sagepub.com/cgi/content/full/13/5/409

Neuromuscular dentistry considers many of the problems associated with TMD to be repetitive strain injuries. Movements become harmful when closure requires excessive accommodation and then the system fails at its weakest link. If the weakest link is muscle health we will see formation of tender sore muscles with eventual formation of taut bands and trigger points. If there is muscle overuse from clenching and/or grinding there will be post exercise pain secondary to anaerobic lactic acid build-up. If the weakest point is in the TM Joint then when repetitive strain occurs the muscle accommodation will lead to increased intra-articular pressure. This again will break down the joint at its weakest point. This may occur as a displaced disk or as wear of articular surfaces or many other conditions. It may come at the expense of the bone of the condyle leading to flattening or beaking of the condyle. Clenching and bruxism are two particularly well-known and harmful parafunctional habits that lead to varied repetitive strain injuries. There are many other parafunctions that can lead to problems. Some parafunctions are actually protective muscle accommodation such as the deviated or reversed swallow that protects the TM Joints and masticatory muscles at the expense of altered head, hyoid and spine position and consequent muscle problems.

The second type of problems would be described as I/O or Input/ output errors in computer lingo. The CNS is essentially a biological computer and is affected by input from afferent nerves from the body. Autonomic system function include the fight or flight response with concomitant release of adrenaline that alters the heart rate, blood pressure, muscle tone etc. This system effects the Hypothalamus pituitary complex with feedback to the adrenals and effects on ACTH and cortisol levels. During periods of acute stress these effects have a positive survival value but during chronic stress become a liability to the individual as described by Hans Selye in his book “The Stress of Life” and his discussion of the General Adaptation Syndrome. There are numerous biochemical changes that occur in the brain secondary to aberrant or nociceptive input into the brain these can be affected by correction of the neurological input, by using drugs to change the brain chemistry or a combination of these approaches. Ideally correction of the underlying cause of these biochemical changes is the preferred method of treatment.

The utilization of TENS or transcutaneous neural stimulation over the coronoid notch has been shown by Mitani and Fujii (1974 J. Dent Res.) to block the motor division of the trigeminal nerve and relax the musculature via anti-dromic impulses (hyperpolarisation) to both the alpha and gamma motor neurons without influence from proprioceptive and nocioceptive (tooth contacts) inputs The TENS is then use to create a balanced synchronize pulsing to find the trajectory of closure where a myocentric registration can be obtained. The muscles will return to their relaxed position following closure into myocentric.

The use of Computerized mandibular jaw tracking allows the dentist to measure and record resting jaw position relative to the cranium at a given head position. The location of myocentric occlusion is determined by the dentist with the aid of information from tracings recorded.

Electromyography or EMG is used to record relative values of resting muscle activity of masticatory muscles as well as muscles such as Sternocleidomastoid or Trapezius. While there are no absolute “normal values” of resting muscles the clinician uses his information to compare muscle activity within a given patient. Muscles should be approximately equal activity bilaterally. Thomas 1990 in Frontiers of Oral Physiology vol 7 pp162-170 demonstrated that Spectral analysis of the post TENS EMG may be utilized to evaluate muscle fatigue and differentiate between muscle atrophy or fatigue or relaxed muscle states. This was later confirmed by Frucht, Jonas and Kappert at Frieberg University in 1995 (Fortschr.Kieferorthop vol 56 pp 245-253)

Utilizing the two modalities together allows the clinician to evaluate the rest position of the jaw and simultaneously the health and functional activity of the muscles.

The EMG also allows tests to evaluate the functional capacity of the muscles and again compare the right and left sides for symmetry. The use of functional recordings (during clenching and closure into centric occlusion) allows the clinician to evaluate whether or not muscle function is satisfactory and functional. The use of EMG also allows evaluation and correction of first contact of closure position within microseconds bases on firing order of the masseter and temporalis muscles. The first point of contact on closure is vitally important and equilibration of orthotics and dentition must be finely adjusted until first contact is evenly dispersed on posterior dentition.

Neuromuscular dentistry is very concerned with the effects of mandibular position on the body as a whole and on the effects of the body on jaw and head position. The work of Sherrington and the righting reflex explains how ascending and descending disorders affect a patient. These phenomena have been best explained by Norman Thomas BDS, PhD. I will not attempt to explain this complicated topic in this agenda, which may be found in Anthology of ICCMO vol V pp159-170. It obviously must incorporate the Quadrant Theorem of Casey Guzay, the physiological aspects of the balance organ of the inner ear and the vestibular apparatus located in the brainstem as well as visual feedback. The control of sympathetic and parasympathetic systems by the cerebellum is quite intricate and also affected by head position.

Correction of the chewing cycle is an important part of occlusal finalization. It must be understood that the chewing cycle is different on the each side and that interferences can occur on both the opening and closing strokes of the chewing cycle. Interferences in chewing strokes are easiest to detect by study of the chewing strokes on computerized mandibular scans (MKG). Head position during chewing is not is normally in the upright head position but in the feeding position approximately a 30-degree anterior head flexion. Correction of the chewing cycle is at least as important as correction of right, left and protrusive excursions. Chewing is a healthy function of the craniomandibular apparatus where as excursive movements are actually exercises in parafunctional movements.

There is more commonality to treatment of TMJ disorders by neuromuscular and non-neuromuscular dentists than differences and complications caused by neural intensification in the reticular activating system, emotional aspects and the relation to the limbic system, connections to the sympathetic and parasympathetic nervous systems via the Sphenopalatine Ganglion and sympathetic chain, and chemical changes and cerebroplastic changes that occur during chronic pain leading to hyperalgesia and allodynia all can be discussed in greater detail and explained in relation to neuromuscular dentistry. The basics physiology including effects of Golgi tendon organs and muscle spindles on jaw muscles remain constant and must always be carefully considered during treatment.

Barney Jankelson's famous quote, "If it is measured it is a fact otherwise it is an opinion rings as true today as when he first said it. Neuromuscular dentistry is about making accurate measurements and the use of those measurements to improve the doctor's ability to make a differential diagnosis and tailor treatment to relieve pain and create stable restorative dentistry with healthy relaxed musculature.

I would like to make a disclaimer that this is my personal definition of Neuromuscular dentistry from 30 years of practice and to thank my mentors Barney Jankelson, Barry Cooper, Dayton Krajiec, Richard Coy, Harold Gelb, Peter Neff, Robert Jankelson and especially Jim Garry who first made me understand the connections between increased upper airway resistance and the common developmental aspects of sleep apnea and craniomandibular disorders. A special thank you for Dr Norman Thomas for his extraordinary help in understanding the complex physiology and anatomy underlying neuromuscular dentistry and in reviewing this paper prior to presentation.

My personal research in the 1980's as a visiting assistant professor at Rush Medical School examined the jaw relations of patients with obstructive sleep apnea based on neuromuscular evaluations of jaw relations with a Myotronic's kinesiograph and a myomonitor to find neuromuscular rest position. These studies showed jaw relations in the male apnea patients that were strikingly similar to those found in female TMD patients. The National Heart Lung and Blood Institute considers sleep apnea to be a TMJ disorder. The NHLBI published a report, “Cardiovascular and Sleep Related Consequences of TMJ Disorders” in 2001 that can be found at http://www.nhlbi.nih.gov/meetings/workshops/tmj_wksp.pdf

Dr Shapira returned to Rush as an assistant professor at the sleep center in the 1990's where he treated a wide variety of obstructive apnea patients with commercial and customized intraoral sleep appliances. He was a founding and credentialed member of the Sleep Disorder Dental Society that has become the American Academy of Dental Sleep Medicine, He is a Diplomate of the American Board of Dental Sleep Medicine, on the board of the Illinois Sleep Society, a Diplomat of the American Academy of Pain Management, a Regent Fellow of the International College of Cranio-Manibular Orthopedics and a representative of that group to the TMD Alliance. He is a long time member of AES, AACFP, Academy of Sleep Medicine and the Chicago Dental Society. Dr Shapira teaches hands-on in-depth Dental Sleep Medicine courses to small groups at his Gurnee office. A family history of genetic cancer led Dr Shapira into research on stem cells an he also holds several patents (method and device) on the collection of stem cells during early minimally invasive removal of the uncalcified tooth bud of developing third molars. This procedure can be complete in minutes with greatly reduced morbidity compared to current surgical techniques used for removal of developed third molars. He hopes in the future that patients will routinely remove the tooth buds and collect and save the stem cells for anti-aging and regenerative medical uses.


PUBMED ABSTRACT FOLLOWS:
Cranio. 2008 Apr;26(2):104-17.
Establishment of a temporomandibular physiological state with neuromuscular orthosis treatment affects reduction of TMD symptoms in 313 patients.
Cooper BC, Kleinberg I.

Department of Oral Biology and Pathology, State University of New York (SUNY) Stony Brook School of Dental Medicine, USA. tmjbcooper@aol.com
Comment in:

Cranio. 2008 Jul;26(3):166; author reply 167.
The objective of this investigation was to test the hypothesis that alteration of the occlusions of patients suffering from temporomandibular disorders (TMD) to one that is neuromuscularly, rather than anatomically based, would result in reduction or resolution of symptoms that characterize the TMD condition. This hypothesis was proven correct in the present study, where 313 patients with TMD symptoms were examined for neuromuscular dysfunction, using several electronic instruments before and after treatment intervention. Such instrumentation enabled electromyographic (EMG) measurement of the activities of the masticatory muscles during rest and in function, tracking and assessment of various movements of the mandible, and listening for noises made by the TMJ during movement of the mandible. Ultra low frequency and low amplitude, transcutaneous electrical neural stimulation (TENS) of the mandibular division of the trigeminal nerve (V) was used to relax the masticatory muscles and to facilitate location of a physiological rest position for the mandible. TENS also made it possible to select positions of the mandible that were most relaxed above and anterior to the rest position when the mandible was moved in an arc that began at rest position. Once identified, the neuromuscular occlusal position was recorded in the form of a bite registration, which was subsequently used to fabricate a removable mandibular orthotic appliance that could be worn continuously by the patient. Such a device facilitated retention and stabilization of the mandible in its new-found physiological position, which was confirmed by follow up testing. Three months of full-time appliance usage showed that the new therapeutic positions achieved remained intact and were associated with improved resting and functioning activities of the masticatory muscles. Patients reported overwhelming symptom relief, including reduction of headaches and other pain symptoms. Experts consider relief of symptoms as the gold standard for assessment of effectiveness of TMD treatment. It is evident that this outcome has been achieved in this study and that taking patients from a less to a more physiological state is an effective means for reducing or eliminating TMD symptoms, especially those related to pain, most notably, headaches.

PMID: 18468270 [PubMed - indexed for MEDLINE]