Recapturing the Articular Disc or Repositioning the Mandibular Condyle? What about Rethinking the Concept as the Recovery of the Physiological Relationship of the Head of the Mandible with the Articular Disc. Patients with a long history of pain. Case series. First Section.

Recapture the articular disc, repositioning the mandibular condyle?

What about rethinking the concept as the recovery of the physiological relationship of the mandible head with the articular disc ,WHEN IT IS POSSIBLE.

And when is it not possible? What is the differential diagnosis? WHAT CAN WE OFFER TO OUR PATIENTS?

What type of orthotic or intraoral device to use? What is the purpose of an orthotic  in a TMJ Pathology treatment? Repositioning the jaw, recapturing the articular discs? Is this always possible? DEPEND ON THE DIFFERENTIAL DIAGNOSIS!

Does it have changes in the articular structures of the temporomandibular joint?

Does it have distortions in the horizontal, vertical and transverse posture of the craniomandibular complex?

How are the bones?

How’s the cartilage?

How’s the articular disk?

How are the muscles in this system?

How is the cervical spine in relation to the whole system?

How is the relation of the vertebral column with the other parts of the system?

The teeth, the two temporomandibular joints and the postural musculature are parts of the same bone, the mandible. They are deeply interrelated and interdependent in growth, form, and function. An abnormality in one, profoundly affects the others.

1 frente

A 30-year-old female patient presents at the clinic with a history of headache, pain in the forehead, pain and stiffness in the nape of the neck, left eyebrow pain, pain behind the right eye, and pain in the right shoulder. The patient reports TMJ pain (temporomandibular joint) on the right side.

The patient reports bilateral crackling, non-specific facial pain, and muscle tremor, difficulty opening the mouth, difficulty in chewing and mandibular locking.

Summary report written by the patient:

I do not remember a sudden drop where there might have been some kind of injury.
At 6 years of age I was a gymnast. I always had falls, front, back and head. But there were protections on the floor.

Near 8 years old, I extract a molar from the lower left side. I think that from this I have always forced more chewing on the right side.

At approximately 13/14 years of age, I remember starting the cracks on the right side. On this side I had a cross bite and a deciduous canine that “bit” behind the lower tooth.

At this stage, the crackling became more frequent, causing a bit of difficulty to fully open the mouth.  When trying to open the mouth without the snap, the opening becomes smaller than after the click. That is, if I do not play with the jaw, the mouth does not open completely.

In 2004 I had the first “lockup”. I remember being in winter and cold. I tried to do the “game” of the jaw and I could not open the mouth. Then I forced myself to open my mouth and I felt a strong crack, followed by pain in the ear / nose. The impression was that it had displaced some bone / nerve.

From this episode, whenever I force more the region, the locking happens. Ex: when I eat meats, candy, peanuts. Things that I need to force when chewing.

In 2008 I put orthodontic appliance to make the corrections. In the treatment, I made a process of spacing the teeth, with a device in the roof of the mouth to open the arch. I kept my teeth apart for a while.

After finishing the treatment, corrected the teeth, the clicks returned lighter. Approximately 1 year later, the locking returned as well. I started with headaches and cervical pain. I felt slight tingling in the head.

In 2015 I started to hear some kind of “sand” on the left side. Then I got pregnant and in this period began the crackling also on the left side. In February 2017 I had the first “lock” on the left side.

Now when I feel the locking, I try to relax the muscles well, leaving the jaw loose for a few minutes. Sometimes it returns to normal anyway, other times I have to force it with the opening of the mouth, causing a strong crack.

2 foto inicial perfil

Current information:

When I close my mouth, I feel my jaw line back slightly, to “marry” the bite. To keep my mouth “loose” and comfortable, I have to snap both sides, and let the jaw loose.

When I try to open my mouth without the snaps, the opening becomes smaller than after the click. That is, if I do not play with the jaw, the mouth does not open completely.

Crashes usually occur:

– Yawning;

– In the morning (awake with the jaw locked);

– Eating meats.

2 tomo

CT: Part of the initial study of the patient sent before the consultation requested by another professional.

Anamnesis and clinical examination are a key part in the diagnosis of patients with TMJ pathology.

Computed tomography is an excellent image, but when we treat a synovial joint in a patient with TMJ pathologies, CT does NOT PROVIDE THE INFORMATION OF THE SOFT TISSUES.

Magnetic Nuclear Resonance (NMR) can give a lot of information and not just the position of the disk. It is essential to have the knowledge to KNOW WHAT TO DO WITH THIS INFORMATION.

We cannot treat a patient with mandible head necrosis or with medullary edema or arthrosis or rheumatoid arthritis or lupus in the same way that we treat another patient with only a wrong position of the jaw.

The temporomandibular joints of all these patients need to be decompressed, but that is only part of the problem.

3 dentes inicHabitual occlusion of the patient on the day of the consultation.

4 oclusaisUpper and lower occlusal views of the patient prior to treatment.

Orthodontic treatment contention wire is observed between the right and left lower canines.

5 panoramica

Initial panoramic radiograph of the patient before treatment.

Orthodontic treatment contention wire is observed between the right and left lower canines.

6 laminografia

The laminography of the temporomandibular joints shows a modification of the growth axis of the mandibular condyles in both the left and right caused by a traumatism in the early childhood, (fracture in green stick).

Retro position of both mandibular heads in the articular fossae.

TMJ laminography in habitual occlusion and open mouth.

cicatriz do queixoThree-dimensional asymmetries in the head of the condyle may have been caused by different etiologies and cause morphofunctional pathologies.

Changes in the orientation of the mandible head occur in patients who have suffered blows in the chin region, either anteroposterior, vertical or lateral. We can observe in these cases a deformation of the head of the mandible in the form of curvature, with an anterior concavity, which in some cases may be so important which produces a compression of the retrodiscal region, causing severe symptoms.

7 frontal

Frontal radiography of the patient in habitual occlusion before treatment.

Orthodontic treatment contention wire is observed between the right and left lower canines.

8 teleperfil

Lateral radiograph of the patient in habitual occlusion before treatment.

9 c 7Lateral and cervical radiograph of the patient in habitual occlusion before treatment. Note the loss of cervical lordosis and rectification of the cervical spine.

16 rnm inicial 1

MRI: sagittal slices of the left TMJ in the closed mouth before treatment. There is an anteroversion of the mandibular condyle. The mandibular head is in retro position.

The articular disc is displaced anteriorly, with reduction in maneuvers in open mouth.

Important retrodiscal compression.

17 rnm inicial 2

MRI: sagittal slices of the left TMJ in the closed mouth before treatment. There is an anteroversion of the mandibular condyle. The mandibular head is in retro position.

The articular disc is displaced anteriorly, with reduction in maneuvers in open mouth.

Important retrodiscal compression.

19 rnm inicial4

MRI: sagittal slices of the right TMJ in the closed mouth before treatment. There is an anteroversion of the mandibular condyle. The mandibular head is in retro position.

The articular disc is displaced anteriorly, with reduction in maneuvers in open mouth.

Important retrodiscal compression.

20 rnm dir inicial5

MRI: sagittal slices of the right TMJ in the closed mouth before treatment. There is an anteroversion of the mandibular condyle. The mandibular head is in retro position.

The articular disc is displaced anteriorly, with reduction in maneuvers in open mouth.

Important retrodiscal compression.

21 rnm inicial 6

MRI: sagittal slices of the right TMJ in the closed mouth before treatment. There is an anteroversion of the mandibular condyle. The mandibular head is in retro position.

The articular disc is displaced anteriorly, with reduction in maneuvers in open mouth.

Important retrodiscal compression.

22 frontal rnm inicial 7MRI: frontal slices of the right and the left temporomandibular joints, closed mouth in habitual occlusion before treatment.

The frontal slice of the right and left temporomandibular joint evidences a severe loss of joint space.

24 atm aberta24a eletromiografia dinãmica habitual rolos de algodão

Dynamic electromyography record of the patient in habitual occlusion and with cotton rolls on the right side (second column), left side (third column) and both right and left sides (fourth column).

Note the improvement in recruitment of motor units in the fourth column.

25 registro cineciografico inicial

Patient’s initial record for the construction of the DIO ( intraoral device)

To correctly evaluate the Maxilomandibular relationship we should begin to consider the physiological rest mandible position.

Physiological rest is a concept applicable to all the muscles of the body.

The stomatognathic musculature is no exception.

The patient’s masticatory muscles were deprogrammed electronically and a new physiological neuromuscular position at rest was recorded.

The patient has in this first record a pathological free space of 6,4 mm. 

The patient also presented a 0.4 mm  of mandibular retro position.

26 recalibraÇÃo da orteseRecalibration of the physiological neuromuscular position of the DIO (intraoral device)

In the first phase the intraoral devices are recalibrated and / or changed according to each specific case as the jaw, muscles and TMJ improve.

28 ortoseOcclusion of the patient with the DIO (intraoral device)

With the record obtained with the jaw tracker an intraoral device (DIO) was made to reposition the mandible three-dimensionally.

The PHYSIOLOGICAL NEUROMUSCULAR position was recorded in the form of an occlusal bite record, which was later used to make a DIO (intraoral device)

In the first phase the intraoral devices are recalibrated and / or changed according to each specific case as the jaw, muscles and TMJ improve.

29 controle da orteseAnother cinecigraphic record to control the DIO (intraoral device) in a physiological neuromuscular position as the device is changed or recalibrated.

The patient did not report any more symptomatology. The electromyography and kinesiography records objectively showed improvement of the neuromuscular function.

I asked for the second MRI (nuclear magnetic resonance) to objectively evaluate the physiological relationship between the mandibular condyles and the articular disc.

35 rnm comparativas 1RNM: Comparison of the sagittal slice of the left TMJ, closed mouth, before the physiological neuromuscular treatment, and of the same left TMJ, closed mouth, after the FIRST PHASE of the treatment.

Recovery of the physiological relation of the head of the mandible with the articular disc.

35b rnm comparativas 1RNM: Comparison of the sagittal slice of the left TMJ, closed mouth, before the physiological neuromuscular treatment, and of the same left TMJ, closed mouth, after the FIRST PHASE of the treatment.

Recovery of the physiological relation of the head of the mandible with the articular disc.

36 rnm comparativas 2RNM: Comparison of the sagittal slice of the left TMJ, closed mouth, before the physiological neuromuscular treatment, and of the same left TMJ, closed mouth, after the FIRST PHASE of the treatment.

Recovery of the physiological relation of the head of the mandible with the articular disc.

38 rnm comparativas 4RNM: Comparison of the sagittal slice of the left TMJ, closed mouth, before the physiological neuromuscular treatment, and of the same left TMJ, closed mouth, after the FIRST PHASE of the treatment.

Recovery of the physiological relation of the head of the mandible with the articular disc.

39 rnm comparativas 5

RNM: Comparison of the sagittal slice of the rigt TMJ, closed mouth, before the physiological neuromuscular treatment, and of the same right TMJ, closed mouth, after the FIRST PHASE of the treatment.

Recovery of the physiological relation of the head of the mandible with the articular disc.

40 rnm comparativas 6RNM: Comparison of the sagittal slice of the rigt TMJ, closed mouth, before the physiological neuromuscular treatment, and of the same right TMJ, closed mouth, after the FIRST PHASE of the treatment.

Recovery of the physiological relation of the head of the mandible with the articular disc.

41 rnm comparativas7RNM: Comparison of the sagittal slice of the rigt TMJ, closed mouth, before the physiological neuromuscular treatment, and of the same right TMJ, closed mouth, after the FIRST PHASE of the treatment.

Recovery of the physiological relation of the head of the mandible with the articular disc.

42 rnm comparativas 8RNM: Comparison of the sagittal slice of the rigt TMJ, closed mouth, before the physiological neuromuscular treatment, and of the same right TMJ,  closed mouth, after the FIRST PHASE of the treatment.

Recovery of the physiological relation of the head of the mandible with the articular disc.

43 frontal rnm comparativas 8

RNM: Comparison of the frontal slice of the left TMJ, closed mouth, before the physiological neuromuscular treatment, and of the same left TMJ, closed mouth, after the FIRST PHASE of the treatment.

Recovery of the physiological refrontallation of the head of the mandible with the articular disc.

44 frontal rnm comparativas 8

RNM: Comparison of the frontal slice of the rigt TMJ, closed mouth, before the physiological neuromuscular treatment, and of the same right TMJ, closed mouth, after the FIRST PHASE of the treatment.

Recovery of the physiological refrontallation of the head of the mandible with the articular disc.

45 imagens

The patient did not report any more symptomatology. The comparative MRI showed the recovery of the physiological relationship of the mandible head with the articular disc.

The electromyographic and kinesiographic records objectively showed improvement of the neuromuscular function.

It was decided to start the SECOND PHASE of the treatment to remove the DIO (intraoral device), maintaining the neuromuscular physiological occlusion.

For this we use a three-dimensional orthodontic, where the teeth are erupted to the new physiological neuromuscular position.

46 depoimento 1Patient Testimony:

My first memory of locking joints was at age 15 or so.

I looked for orthodontic specialists; I made the necessary “adjustments”, but the locking and the pain still continued.

I looked for Dr. Lidia now at the age of 30, since other experts told me that only surgery would be possible in my case. And yet, without knowing exactly whether we would succeed.

After starting the first phase of treatment with the device, the pain ceased and never again I had the jaw locking that so frighten me.

47 depoimento 2

I adapted very easily to the treatment, I was and I am being much disciplined with the use of the device.

Now, as Dr. Lidia explained to me, with the discs already in the right place, we will pass for the second phase, for withdrawal of the device.

Today I’m having a routine without worry that I can “lock” at any time.

I’m very grateful to Dr. Lidia.

High Technology in the Diagnosis and Treatment of TMJ Pathologies. 11, 12 and 13 January 2019. Estoril (Lisbon, Portugal)

workshop lisboa 1

The advances in biotechnology have allowed a deeper understanding of the pathologies that affect the temporomandibular joint.

Nuclear magnetic resonance images and biotechnology were transferred to the realm of clinicians, no longer being exclusive to the realm of researchers.

These advances play a key role in conjunction with clinical examination, carefully integrated with the patient’s history and pathophysiology.

Controlling pain is a fundamental goal, but it is also possible today, in certain cases, to regenerate structures.

Cephalometry presupposes that the mandibular heads are in a physiological position and patients do not present any pathology in the temporomandibular joint.

Many of our patients looking for correction of a malocclusion, or a prosthetic rehabilitation, present noises in their TMJ, facets and erosions in their images and pain in the retrodiscal palpation.

Hard tissue injuries as a result of early childhood trauma can lead to injuries to the disc and ligaments.

Infections and autoimmune diseases should be considered, since they affect not only the temporomandibular joint but also all the fascial and muscular chains of the human body.

The evaluation of TMJ and the diagnosis of its pathologies should be an inseparable part of our procedures, not only in orthodontics and orthopedics but in all fields of dentistry.

TMJ pathologies and neuromuscular physiology.

Synthetic Program

Images in diagnosis and treatment. Form and function. Lesions in TMJ pathologies.

TMJ pathologies in children and adolescents.

Autoimmune diseases and pathologies of TMJ.

Nuclear Magnetic Resonance (MRI). Method of choice in the diagnosis and treatment plan.

Tomography and its correlation with MRI. Comparison of data obtained in both studies, done to the same patient.

Introduction to surface electromyography.

Determination of the vertical dimension by electronic mandibular deprogramming.

DIOSPORT: DENTAL PROTECTORS WITH PERFORMANCE

Sports Medicine: a new promising market.

Oral protectors and their classification. Types, personalization and characterization.

Mouth guard optimized for the increase of the sport performance accomplished with the physiological neuromuscular technique.

Intra-oral devices optimized for non-contact sports.

Relationship between these devices with TMJ, posture and better sports performance.

Reality of a Dental Department inserted in a soccer club.

11,12 and 13 January 2019.

Estoril ( Lisbon, Portugal)

Information:
tmj.portugal@gmail.com

Treatment of TMJ Pathologies: Patient with headache and excessive clenching. Physiological Neuromuscular Rehabilitation. First and second phase. Case Report.

1 frontal inicial rosto

A 32-year-old male patient presents at the clinic with complaints of constant headaches, pain in the jaw and daily pressure on the teeth.
The patient also reports pain in the temporomandibular joints and pain to open the mouth.

2 lateral inicial rosto

The patient also reports bilateral clicks and the sensation of clogged ears.
It also states in its clinical history difficulty in chewing and opening the mouth and inability to control teeth tightening.
The patient reported that he sought various dentists and treatments and that he had previously used “miorelaxant” splints that did not alleviate the referred symptoms.

3 OCLUSÃO 1

Habitual occlusion of the patient on the day of the consultation.
The patient had a deep bite and significant wear on the upper and lower incisors.

4 OCLUSAIS

Upper and lower occlusal views of the patient prior to treatment. Wear on lower and upper incisors.

5 PANORAMICA INICIALInitial panoramic radiograph of the patient before treatment.

Absence of teeth 18, 28, 38, 48.

Horizontal resorption of alveolar ridges.

6 P6 INICIAL

Patient TMJ laminography in habitual occlusion before treatment.

The laminography of the temporomandibular joint shows retroposition of the articular processes in the articular cavities when the mandible is in position of maximum intercuspation
In the mandibular aperture, the presence of osteophytes was observed in both condyles.Flattening of the superior anterior surface of the articular processes and superior posterior of the right articular process.

7 TELE PERFIL INICIAL

Lateral radiograph and patient profile in habitual occlusion before treatment. Rectification of the cervical spine.

8 C7 INICIAL

Lateral and cervical radiograph of the patient in habitual occlusion before treatment. Rectification of the cervical spine.

9 FRONTAL INICIAL

Frontal radiography of the patient in habitual occlusion before treatment.

10 ress1

MRI: sagittal slices of the left closed TMJ before treatment. The mandibular head is in retro position. The joint disc is slightly dislocated.
The articular disc has a reduction in open-mouth maneuvers. Open mouth images not included in this post.

11 ress3

MRI: sagittal slices of the left closed TMJ before treatment. The mandibular head is in retro position. The articular disc is displaced anteriorly, with reduction in maneuvers in open mouth.
Open mouth images not included in this post.

12 b ress

MRI: sagittal slices of the right closed TMJ before treatment. The mandibular head is in retro position. The articular disc is displaced anteriorly, with reduction in maneuvers in open mouth.
Open mouth images not included in this post.

13 ress4

MRI: sagittal slices of the right closed TMJ before treatment. The mandibular head is in retro position. The articular disc is displaced anteriorly, with reduction in maneuvers in open mouth.
Open mouth images not included in this post.

13 cineciog 1

Patient’s initial cineciographic record
Three-dimensional view of the mandibular movement.
The record shows opening and closing and speed when making these moves. The patient shows an opening of more than 50 mm
Note a significant loss of speed in the mandibular closure.

13 eletromiografia inicial

Dynamic electromyographic record in patient’s habitual occlusion before treatment.

Note very little activation of the right and left masseter muscles in maximal intercuspation, indicating to the patient to bite hard without opening his mouth.

The masseter muscles are the most powerful muscles of the stomatognathic system, even more considering a  brachyfacial biotype patient as in this case.

13 REGISTRO

To correctly evaluate the Maxilomandibular relationship we should begin to consider the physiological rest mandible position.

Physiological rest is a concept applicable to all the muscles of the body.

The stomatognathic musculature is no exception.

The patient’s masticatory muscles were deprogrammed electronically and a new physiological neuromuscular position at rest was recorded.

The patient has a pathological free space of 8,2 mm, already discounting the two physiological mm of a healthy free space.

The patient also presented a 2 mm mandibular retro position

13C PRIMEIRA ORTESE LUIS

With these data we constructed a DIO (intraoral device), to maintain the three-dimensional recorded position. This device must be electromyographically tested to objectively measure the patient.

It is logical that the report of the patient’s symptomatology is important, but the surface electromyography shows in an objective way if the muscular function improved, worsened or did not modify.

13A FRONTAL DIO

Frontal radiography of the patient with the DIO (intraoral device) constructed in a physiological neuromuscular position.

13B LATERAL COM DIO

Lateral and cervical radiograph of the patient with the DIO (intraoral device) constructed in a physiological neuromuscular position.

The second MRI is requested after one year on average of the first phase treatment, also during the second phase of the treatment, the patient is monitored, and the device recalibrated or changed according to the controlled data throughout this step.

14 ress comp 1

MRI: comparative sagittal sections of the left TMJ, closed mouth, before and after the Neuromuscular Physiological treatment.
Three-dimensional joint decompression is noted. Primordial objective in this specific case.
Note the best relation between the mandibular head and the articular disc.

15 ress comp 2

MRI: comparative sagittal sections of the left TMJ, closed mouth, before and after the Neuromuscular Physiological treatment.
Three-dimensional joint decompression is noted. Primordial objective in this specific case.
Note the best relation between the mandibular head and the articular disc and the positive remodeling of the mandibular head.

16 ress comp 3

MRI: comparative sagittal sections of the left TMJ, closed mouth, before and after the Neuromuscular Physiological treatment.
Three-dimensional joint decompression is noted. Primordial objective in this specific case.
Note the best relation between the mandibular head and the articular disc and the positive remodeling of the mandibular head.

17 ress comp DIR

MRI: comparative sagittal sections of the right TMJ, closed mouth, before and after the Neuromuscular Physiological treatment.
Three-dimensional joint decompression is noted. Primordial objective in this specific case.
Note the best relation between the mandibular head and the articular disc and the positive remodeling of the mandibular head.

18 ress comp DIR

MRI: comparative sagittal sections of the right TMJ, closed mouth, before and after the Neuromuscular Physiological treatment.
Three-dimensional joint decompression is noted. Primordial objective in this specific case.
Note the best relation between the mandibular head and the articular disc and the positive remodeling of the mandibular head.

19 ress comp DIR

MRI: comparative sagittal sections of the right TMJ, closed mouth, before and after the Neuromuscular Physiological treatment.
Three-dimensional joint decompression is noted. Primordial objective in this specific case.
Note the best relation between the mandibular head and the articular disc and the positive remodeling of the mandibular head.

20 PRIMEIRA ORTESE DA 2 FASE

The patient did not report any more symptomatology related to the TMJ. Bioinstrumentation also objectively showed an improvement in neuromuscular function.

We decided to start the SECOND PHASE of the treatment to remove the DIO (intraoral device), maintaining the physiological neuromuscular occlusion.

For this we used a three-dimensional orthodontics, where the teeth are erupted to the new neurophysiological position.

21 ORTO 1

In the second phase, in this case the three-dimensional orthodontics,the patient is monitored and deprogrammed electronically, and often the device is recalibrated or changed, to maintain the position obtained in the first phase.

Part of the sequence of the second phase (in this specific clinical case).

22 ORTO 2

Part of the sequence of the second phase (in this specific clinical case).

23 ORTO 3

Part of the sequence of the second phase (in this specific clinical case).

24 ORTO 4

Part of the sequence of the second phase (in this specific clinical case).

25 ORTO 5

Part of the sequence of the second phase (in this specific clinical case).

26 orto 6

Part of the sequence of the second phase (in this specific clinical case).

27 orto 7

Part of the sequence of the second phase (in this specific clinical case).

28 ORTO 8

Finalization of the second phase.

29 OCLUSAIS FINAIS

Patient’s upper and lower occlusal view after the finalization of the second phase.

43 oclusoes comparativas

Comparative occlusion of the patient before and after the end of the second phase of the treatment using a three-dimensional orthodontics.

The non-coincidence of the median dental lines may be noted.
The patient’s fundamental alignment is muscle alignment that does not always coincide with tooth alignment. In this case the muscular alignment is respected.

44 oclusoes comparativas

Patient’s comparative superior and inferior occlusal view, before and after, the end of the second phase of the treatment by a three-dimensional orthodontics.

eletromiografia final

Electromyographic record of the patient in physiological neuromuscular position after the completion of three-dimensional orthodontics.

Note the higher recruitment of motor units in the masseter muscles that previously showed little activity.

30 FRONTAL FINAL

Frontal radiography of the patient after the end of the second phase of the treatment.
Patient in physiological neuromuscular occlusion.

31 TELEPERFIL FINAL

Lateral radiograph and patient profile after completion of the second phase of treatment.
Patient in physiological neuromuscular occlusion.

32 C7 FINAL

Lateral and cervical radiography of the patient after the end of the second phase of the treatment.
Patient in physiological neuromuscular occlusion.

33 PANORAMICA FINAL

Panoramic radiograph of the patient after the end of the second phase of the treatment with three-dimensional orthodontics.

34 LAMINOGRAFIA FINAL

Patient TMJ laminography after the completion of three-dimensional orthodontics.
Patient in physiological neuromuscular occlusion.

35 comparativas panoramicas

Comparative panoramic radiographs of the patient: before treatment and after finishing with three-dimensional orthodontics.

36 comparativas laminografias

Patient comparative TMJ laminography: before treatment and after completion with three-dimensional orthodontics.

40 COMPARAÇÃO TELE PERFIL

Comparative lateral and profile radiographs of the patient: before treatment and after finishing with three-dimensional orthodontics.

Take into account that the result corresponds more to a three-dimensional recovery of the vertical dimension and not simply to an anteroposterior modification.
Even a retroposition of the mandibular head is the product of a three-dimensional alteration.

41 COMPARAÇÃO FRONTAIS

Comparative frontal radiographs of the patient: before treatment and after finishing with three-dimensional orthodontics.

42 C7 COMPARATIVAS

Comparative patient lateral and cervical radiographs: before treatment and after completion with three-dimensional orthodontics.

46 DEPOIMENTO 1

At the end of 2012, I attended the Life and Health program on RBS TV and saw a report with Dr. Luis Daniel Yavich Mattos, on the treatment of problems related to TMJ.

Living with constant headaches, jaw pain and daily pressure on the teeth,

I decided to bet on the treatment and I do not regret it.

Since I was 18 years old, I had been suffering from pain in the TMJ region, and what

bothered me was a pressure that made me want to grind my teeth even

day, which I have always identified as bruxism.

I had already sought out various dentists and treatments, with the use of the famous splints to sleep. The diagnosis was always the same: emotional stress was the cause of my teeth and constant pains, although the pains started only after I have extracted my first wisdom.

47 DEPOIMENTO 2

I used to use the plates to sleep during the 24 hours of the day, so the will of biting and grinding teeth. The use of the splints  prevented wear, but the pressure I felt to bite and grind my teeth caused me TMJ fatigue and headaches.

And when I had no more hope emerged, the possibility of doing the treatment with Dr. Luis Daniel and Dr. Lidia Yavich, when I was 32 years old.

With Dr. Luis Daniel they were approximately 1 year and 2 months  using a very high plate, 24 hours a day, including to make meals, which I only took to do the oral hygiene.

The device was called the “big monster,” because of the height. In the end, no longer  pain and without the will of grinding and biting my teeth.

I went on to the second stage of treatment, now with Dr. Lidia Yavich.

48 DEPOIMENTO 3

With Dr. Lidia were approximately 3 years, in which I used fixed dental appliance, with brackets, steel wires, etc., in order to be able to stop using the board 24 hours a day, and improve the aesthetics of my dental arch.

As the treatment progressed, the device was diminished and new splints were used in order of erupting my teeth respecting the TMJ position.

At the end of the treatment, I now use one sleeping device and another one for aesthetic reasons.

I no longer have the willingness to bite and grind teeth, or pain in the TMJ or headaches. I can yawn without worrying about hurting my jaw.

Finally, it was an individualized, artisanal treatment that required time and dedication, and brought excellent results, which is why I am eternally grateful to Dr. Luis Daniel and to Dr. Lidia.

 

The temporomandibular joint (TMJ) as a peripheral trigger in the headache. Physiological Neuromuscular Rehabilitation. First and second phase. Case Report.

1 FRENTEA 36-year-old female patient with a major complaint of headache consults at the clinic, referred by a co-worker who had been treated at the clinic for the same reason.

The patient’s main complaint was a high frequency headache. The patient reports that she has investigated the cause of the pain and even had at the request of the neurologist a nuclear magnetic resonance of the skull that did not accuse any abnormality.

1 PERFILThe patient had already consulted with Neurologist, Otorhinolaryngologist, Orthopedist and with the general practitioner.
The patient also refers back pain.

2 DENTES INICIAISHabitual occlusion of the patient on the day of the consultation.

3 OCLUSAISUpper and lower occlusal views of the patient on the day of the consultation.

Upper and lower incisors show signs of  attrition.

7 PANORAMICAInitial panoramic radiograph of the patient before treatment.

Absence of the second right upper premolar and the lower third molars.

The patient reports that the upper premolar was extracted in adolescence due to lack of space for the eruption of the canine.

The first maxillary molar on the left side and the first lower molar on the left side presented endodontic treatment with extensive restorations and risk of fracture, was informed of the need to extract the third molar retained.

The procedures would only be performed after joint decompression.

8A LAMINOGRAFIALaminography of the temporomandibular joints shows a modification of the axis of growth of the mandibular condyle on the left side caused by a trauma in the early childhood, (green stick fracture).

4 TELEPERFILLateral radiograph and patient profile before treatment. Patient in habitual occlusion.

5 C7Lateral and cervical radiograph of the patient in habitual occlusion before treatment. Note the loss of cervical lordosis, rectification of the cervical spine.

6 FRONTALFrontal radiography of the patient in habitual occlusion before treatment.

8b ressonancias sagitaisMRI: sagittal slices of the left TMJ, the closed mouth.

The facet on the upper surface and posterior flattening of the mandibular condyle can be observed.

8Dressonancias sagitais CORTES SUPERIORESNote the important posterior compression of the left condyle.
Primary objective has to be the three-dimensional decompression of the mandibular condyle.

8B CINECIOGRAFIA 1BThe patient’s masticatory muscles were deprogrammed electronically and the resting position was recorded with a computerized kinesiograph.
The patient had a pathological interocclusal free space of 6.3 mm and a mandibular retroposition of 0.5 mm.

9 ORTESEWith the record obtained with the computerized jaw tracker an intraoral device (DIO) was made to achieve the three dimensionally reposition of the mandible.

The PHYSIOLOGICAL NEUROMUSCULAR position was recorded in the form of an occlusal bite record, which was later used to make a DIO (intraoral device)

9D PANORAMICA COM ORTESEPanoramic radiograph of the patient during treatment with the DIO (intraoral device).

9C COMPARATIVAS DE TELEPERFIL 1Comparison of lateral radiographs and patient profile: in habitual occlusion before treatment and with the DIO (intraoral device), in a physiological neuromuscular position.

10 FRONTAIS COMPARATIVASComparative frontal radiographs of the patient: at the beginning of treatment in habitual occlusion, during treatment with DIO (intraoral device) in physiological neuromuscular occlusion.

10A C7 COMPARATIVASComparison of lateral radiographs and cervical spine of the patient: in habitual occlusion before treatment and with the DIO (intraoral device), in a physiological neuromuscular position.

10B CONTROLE ORTESEControl of intraoral device  (DIO). THESE CONTROLS ARE FREQUENTLY MADE during the first and second phases of the treatment modifying and improving the PHYSIOLOGICAL NEUROMUSCULAR POSITION.

The patient did not report any TMJ-related symptomatology. Bioinstrumentation also objectively showed an improvement in neuromuscular function.

It was decided to start the SECOND PHASE of the treatment to remove the DIO (intraoral device), maintaining the physiological neuromuscular occlusion.

For this we use a three-dimensional orthodontic, where the teeth are erupted to the new neurophysiological position.

19 ORTO 0Sequence of three-dimensional orthodontics in the second phase of the treatment of TMJ pathologies in this specific patient.

20 ORTO 1Sequence of three-dimensional orthodontics in the second phase of the treatment of TMJ pathologies in this specific patient.

21 ORTO 2Sequence of three-dimensional orthodontics in the second phase of the treatment of TMJ pathologies in this specific patient.

22 ORTO 3Sequence of three-dimensional orthodontics in the second phase of the treatment of TMJ pathologies in this specific patient.

23 ORTO 4Sequence of three-dimensional orthodontics in the second phase of the treatment of TMJ pathologies in this specific patient.

24 ORTO 5Sequence of three-dimensional orthodontics in the second phase of the treatment of TMJ pathologies in this specific patient.

25 ORTO 6During three-dimensional orthodontics the DIO (intraoral device) is recalibrated and changed to maintain the position obtained in FIRST PHASE

Sequence of three-dimensional orthodontics in the second phase of the treatment of TMJ pathologies in this specific patient.

26 ORTO 7Sequence of three-dimensional orthodontics in the second phase of the treatment of TMJ pathologies in this specific patient.

27 ORTO 8Sequence of three-dimensional orthodontics in the second phase of the treatment of TMJ pathologies in this specific patient.

29 ORTO 9Sequence of three-dimensional orthodontics in the second phase of the treatment of TMJ pathologies in this specific patient.

30 ORTOSequence of three-dimensional orthodontics in the second phase of the treatment of TMJ pathologies in this specific patient.

Preparation to increase the width of the upper incisors respecting the patient’s Neuromuscular Physiological position.

31 ORTOSequence of three-dimensional orthodontics in the second phase of the treatment of TMJ pathologies in this specific patient.

Preparation to increase the width of the upper incisors respecting the patient’s Neuromuscular Physiological position.

32 orto finalCompletion of the First and Second Phases in the treatment of TMJ Pathologies. Physiological Neuromuscular Rehabilitation.

In this specific sequence, another possibility was proposed for the patient with an important improvement of aesthetics for the increase of the clinical crowns of the upper incisors, due to the limitation in this case of the composite resins.

The patient alleged: that she did not work on television, that even knowing the aesthetic limitation of the procedure with resins, she was satisfied.

For her the goal of the treatment was the resolution of the PAIN, and that had been reached.

33 OCLUSAIS FINAISUpper and lower occlusal views of the patient after the end of the second phase.

34 PANORAMICA FINALPanoramic radiograph of the patient after the end of the second phase of the treatment through a three-dimensional orthodontics and physiological neuromuscular rehabilitation.

The extraction of the first maxillary molar and the placement of an implant after bone grafting was necessary. The third left retained molar exodontia was also performed.

35 LAMINOGRAFIA FINALTMJ laminography of the patient after the end of the second phase of the treatment through a three-dimensional orthodontic and physiological neuromuscular rehabilitation.

36 PERFIL FINALLateral radiograph and profile of the patient after the end of the second phase of the treatment through a three-dimensional orthodontic and physiological neuromuscular rehabilitation.

37 C7 FINALLateral radiograph and cervical spine of the patient after the end of the second phase of the treatment through a three-dimensional orthodontic and physiological neuromuscular rehabilitation.

38 FRONTAL FINALFrontal radiography of the patient after the end of the second phase of the treatment through a three-dimensional orthodontic and physiological neuromuscular rehabilitation.

39 FRONTAIS COMPARATIVASComparative frontal radiographs of the patient: before the treatment, during the first phase of the treatment and after the end of the treatment with three-dimensional orthodontics.

40 C7 COMPARATIVASComparative lateral radiographs and cervical spine of the patient: before the treatment, during the first phase of the treatment and after the end of the treatment with three-dimensional orthodontics.

41 PERFIL 3 COMPARATIVASComparative lateral radiographs and profile of the patient: before the treatment, during the first phase of the treatment and after the end of the treatment with three-dimensional orthodontics.

43 DENTES COMPARATIVASComparative occlusion of the patient before and after the end of the second phase of the treatment through a three-dimensional orthodontics and physiological neuromuscular rehabilitation.

44 OCLUSAIS comparativasComparative upper and lower occlusal view of the patient before and after the end of the second phase of the treatment through a three-dimensional orthodontics and physiological neuromuscular rehabilitation.

45 CINECIOGRAFIA final.jpgCineciographic record after completion of the first and second phases of physiological neuromuscular treatment. The neuromuscular trajectories are coincident. We would have liked to have an interocclusal space of 2.5 to 3 mm, we obtained 4.1 mm

46 DEPOIMENTO 1Patient testimony

Dear Lidia,

You know, I really realized how much the treatment I’ve undergone improved my quality of life when I was in the clinic this year (2018) and I looked at my file with the information I had recorded when I started treatment.

To be honest I did not even remember that before the treatment I had pains in the jaw joints !! And how strong they were.

I always had headaches and migraines, besides the pains in the joint of the mandible. I always record it because I remember when I was a child I already felt them. I felt very ill and indisposed when I had crises.

In a certain phase of my life due to the increase in the frequency of pain headache and the constant vomiting I went to many doctors because I thought I was with stomach problem. I thought my headaches and migraines were consequence.

47 DEPOIMENTO 2But based on the examinations I made at the time, my general practice told me that the question of the stomach was actually a consequence of severe headaches and migraines.

So she told me to go to a neurologist for evaluation and treatment. I went to the neurologist, did tests, treatment, tried to avoid the huge list of foods he I was informed as probable triggers of migraine. Everything I did reduced the headaches, but it did not solve the problem that plagued me.

And it was during one of my “crises” of headache that a coworker commented the possibility that I would make an evaluation with a dentist who had treated him when had problems with the TMJ. To be honest, I had no idea what it was, but when if you have pain, every attempt is valid.

47 DEPOIMENTO 3I made the appointment, made available the exams I had already done in the region of the head and remember that in my first conversation with Lidia she commented that the exams indicated that in my infancy I had probably suffered a fall that caused a growth modification of my jaw.

Exactly the side where I had the headaches and the migraine.

I stress that at no time did the treatment for an aesthetic question, but rather seeking, if it is not possible to avoid the pains, but minimizes them.

I spent several years attending the clinic. I remember that my splint in one of the stages of the treatment was a “big monster” (kkk) considering its height.

Gradually throughout the treatment I was noticing the reduction of headaches and of frequency between migraine attacks.

Today, thinking about before and after treatment, I realize how much the treatment,

although prolonged, has improved my quality of life.

TMJ Study and Investigation Page. Three years of publication.

Dear friends,

At December 2014 I started the project TMJ Study and Investigation Page. At first, all its content was offered in three languages: Portuguese, English and Spanish. Due to the analysis of the webpage access statistics, at March 2015 I decided to offer the content solely in Portuguese and English.

Anyway, access to the contents of the page is still available to other researchers, professionals in the field and to those interested in the research that I develop.

Three years of publication

Nowadays, the medicine based on evidence is hierarchically stratified from top to bottom, where in the base of the pyramid we find the clinic cases, which are rarely seen as evidence.

The TMJ Study and Investigation Page had in its conception, the purpose of posting the clinic cases, which were carefully published with the documentation related to each of the patients treated at Clinica MY with pain complaints, dysfunction and TMJ pathology.

The proposition was of presenting these clinic cases and concepts in order share them, offering free access to the content along images, surface electromyographies, computerized kinesiography, scanned before and after the therapeutic process. Cases of tridimentional orthodontics and neuromuscular phisiologic reabilitation of the second phase of treatment, after the TMJ treatment, were also included.

FINAL

The TMJ Study and Investigation Page completed in the month of December, three years of life.

I remembered to celebrate on the first anniversary of the Page.

In the middle of the work with patients, teaching and publications I did not remember to celebrate the second year.

I want to celebrate these three years with you.

With this project, we have a place in the Internet that presents a line of work known as neuromuscular physiologic dentistry, which takes into account the whole body system. It is an area which acts on posture, mandibular functioning and considers the entire body system.

In order to do that, the neuromuscular physiologic dentistry aims to establish, in the patient, a position that is based on a harmonious relation between the muscles, the teeth, and the temporomandibular joints.

MARCUS LAZARI frontal E SAGITAL

In the publication of this year’s end I have chosen the most significant images of all these years of publications, with direct links to each of the original publications.

At the end of this publication I placed the links of the publications of the first year of this page.

3 ANOS DE PUBLICAÇÕES 2

The TMJ Study and Investigation Page  has grown tremendously and continues to receive visitors from all over the world.

Thank you!

Lidia Yavich

Temporomandibular Joint Pathology in a Patient with Congenital Fusion of two Cervical Vertebrae. First and Second Phase. Case Report.

33 FINAL

Postural Improvement in a Patient after Neuromuscular Physiological Mandible Repositioning Treatment. Patient with Scoliosis Surgery and Craniomandibular Symptomatology.

24

TMJ Pathologies Treatment: Patient with Severe Headaches and Temporomandibular Joint Pain with Significant Contour Irregularities in the Mandibular Condyle and Mouth Opening Limitation.

27 CEF COMPARATIVAS ingles

Reestablishment of the Bone Marrow Signal in a case of Avascular Necrosis of the Mandibular Head. Monitoring two years after treatment.

FRONTAL COMPARATIVAS ESQUERDA 2016

Neuromuscular Physiological Treatment in a Patient with Headache and Pain in the Temporomandibular Joints. Case report without possibility of Disc Recapture: first and second phase.

10 abre e fecha inicial

FINALE FINALE

TMJ Pathologies Treatment: Patient with Pain in the Back of the Head, Bilateral Tinnitus and Constant Teeth and Prosthesis Fracture. First and second phase. Case Report.

ITACIR COMBINADA

TMJ Pathologies Treatment: Patient with headache for 30 years. Neuromuscular Physiological Rehabilitation. First and second phase. Case Report.

1 FOTOS FRENTE

TMJ Pathology in Professional Musicians: A look beyond the risk factors. Physiological Neuromuscular Rehabilitation. First and second phase. Case Report.

HELLA

TMJ Study and Investigation Page. One year of publication

INITIAL

2

The TMJ Study and Investigation Page  has grown tremendously and continues to receive visitors from all over the world.

Thank you!

Lidia Yavich

TMJ Pathology in Professional Musicians: A look beyond the risk factors. Physiological Neuromuscular Rehabilitation. First and second phase. Case Report.

Several articles and studies cite the prevalence of TMJ dysfunction in violinists and violists, especially by prolonged flexion of the head and shoulder, posture necessary to keep the violin in position. Studies also report that the incidence of TMJ dysfunction in musicians is similar to the general population.

Professional musicians require many hours of training and improvement that involve complicated movements, fast and repetitive actions with over use of the hands, fingers, arms and head.

Most articles report anxiety about professional performance and increased muscle tension, but few do a particular study of the state of the anatomical structures of the cases studied.

1 postura inicial frontalA 45-year-old female patient referred by her physiotherapist consults with complaints of headache, pain in the cervical and scapular region, muscular contractures in the mandible.

The patient also reports mandibular displacement when playing the violin and pain in both temporomandibular joints.

2 postura inicial lateralThe patient also reports clicks in both temporomandibular joints and occasionally the sensation of clogged ears.

Frequent pain in the spine and both shoulders.

At that time the patient had already consulted physiotherapists, rheumatologists, psychiatrists and psychologists.

2 bpontos de dorMarking chart of pain points.

3 OCLUSÃO INICIALImage of the patient’s habitual occlusion on the day of the appointment.

4 OCLUSAIS INICIAISUpper and lower occlusal views of the patient on the day of the consultation.

5 PANORAMICA 1Initial panoramic radiograph of the patient before treatment.

Teeth 18, 28 included.

Wear on the incisal and occlusal faces of the teeth present.

Prosthetic device 25 to 27 (26 pontic)

Horizontal resorption of alveolar ridges.

6 LAMINOGRAFIA INICIALPatient’s TMJ initial laminography before treatment

In the maximum opening position, observe the anterior angulation of the articular processes. Structural modification of the mandibular condylar process as one of the sequels of traumatism in infancy.

The patient reports a trauma in early childhood, a knock on the head while playing on a slide.

7 TELEPERFILLateral radiograph and patient profile before treatment. Patient in habitual occlusion.

8 FRONTALFrontal radiography of the patient in habitual occlusion before treatment.

9 C7Lateral and cervical radiograph of the patient in habitual occlusion before treatment.

At this time, the patient performed a CT scan of the cervical spine

In the report there is rectification of cervical lordosis.

Degenerative discopathy in C5-C6, observing reduction of the height of the disc space and osteophytic proliferations reactional. At this level the disc-osteophyte bar is identified that touches and distorts the ventral face of the dural sac.

There is no stenosis of the central vertebral canal.

Neural foramina with amplitude within the limits of normality.

Mild signs of uncovertebral arthrosis C5 and C6.

Relationship C1-C2 maintained.

Symmetric paravertebral regions.

10 eletromiog dinamica inicialDynamic electromyographic record in patient’s habitual occlusion before treatment. Note the minimal activation of the right and left masseter muscles in maximal intercuspation and the high activation of the right and left temporal muscles.

The masseter muscles are the most powerful muscles of the stomatognathic system, the temporal muscles even being elevating muscles have to have an equal and preferably smaller activation than the masseter muscles.

11 cineciog 1Initial cineciographic record of the patient.

Three-dimensional view of the mandibular displacement.

The record shows mandible opening, closing and speed when the patient makes these movements. The patient shows a 47 mm opening and a right deflection of 3.9 mm

Note a significant  loss of velocity in the middle of the mandibular closure.

13 ress esq fechMRI: sagittal slice of the left TMJ, closed mouth, anteversion of the mandibular condyle can be observed.

14 ress esq fechMRI: Another sagittal slice of the left TMJ in the closed mouth, the anteversion of the mandibular condyle can be observed.

Important area of retrodiscal compression at the level of mandibular condyle deflection. Primary objective has to be the three-dimensional decompression of the mandibular condyle.

15 ress esq fechMRI: Another sagittal slice of the left TMJ in the closed mouth, the anteversion of the mandibular condyle can be observed.

Important area of retrodiscal compression at the level of mandibular condyle deflection. Primary objective has to be the three-dimensional decompression of the mandibular condyle.

16 ress esq fechMRI: internal sagittal slice of the left TMJ, closed mouth.

17ress dir fechMRI: internal sagittal slice of the right TMJ, closed mouth.

18ress dir fechMRI: another sagittal slice of the right TMJ, closed mouth, the anteversion of the mandibular condyle can be observed.

The articular disc is displaced anteriorly, with reduction in open-mouth maneuvers. (open mouth images not included in the post)

Important area of retrodiscal compression at the level of mandibular condyle deflection. Primary objective has to be the three-dimensional decompression of the mandibular condyle.

19 ress dir fechMRI: another sagittal slice of the right TMJ, closed mouth, the anteversion of the mandibular condyle can be observed.

The articular disc is displaced anteriorly, with reduction in open-mouth maneuvers. (open mouth images not included in the post)

Important area of retrodiscal compression at the level of mandibular condyle deflection. Primary objective has to be the three-dimensional decompression of the mandibular condyle.

20 ress dir fech

MRI: another sagittal slice of the right TMJ, closed mouth, the anteversion of the mandibular condyle can be observed.

The articular disc is displaced anteriorly, with reduction in open-mouth maneuvers. (open mouth images not included in the post)

Note the posterior compression in this section.

Primary objective has to be the three-dimensional decompression of the mandibular condyle.

21 FRONT DIR E ESQMRI: frontal slice of right and left temporomandibular joints, closed mouth in habitual occlusion before treatment.

The frontal slice of the right temporomandibular joint shows a loss of joint space, especially in the region of the external lateral pole of the joint. Both frontal images show a decrease in joint space.

Slight medial disc deviation.

21A registro inicial para o DIOTo correctly evaluate the maxillomandibular relationship we should begin to consider the physiological rest mandible position.

Physiological rest is a concept applicable to all the muscles of the body.

The stomatognathic musculature is no exception.

The patient’s masticatory muscles were deprogrammed electronically and a new physiological neuromuscular position at rest was recorded.

The patient has a pathological free space of 5.8 mm, already discounting the two physiological mm of a healthy free space.

The patient also presented a 2.1 mm mandibular retroposition

22 oclussao com o DIOWith these data we constructed a DIO (intraoral device), to maintain the three-dimensional recorded position. This device must be electromyographically tested to objectively measure the patient.

It is logical that the report of the patient’s symptomatology is important, but the surface electromyography shows in an objective way if the muscular function improved, worsened or did not modify.

22A eletromiografia com o DIOElectromyographic record with DIO (intraoral device) in physiological neuromuscular position.

Note the higher recruitment of motor units in the masseter muscles that previously showed very little activity.

22A Registro cinesiográfico para controlar o DIO em posição neurofisiológicaCineciographic record for the DIO (intraoral device) control in physiological neuromuscular position as the device is changed or recalibrated.

In the first phase the intraoral devices are recalibrated and / or changed according to each specific case as the jaw, muscles and TMJ improve.

Each case IS UNIQUE. There are cases where the TMJ structures are so damaged that the objectives outlined will have limitations dictated by the initial diagnosis.

These limitations refer not only to the structures of the temporomandibular joint, but also to the patient’s systemic condition.

22B 2 Registro cinesiográfico para controlar o DIO em posição neurofisiológicaAnother cineciographical record to control the Dio in a physiological neuromuscular position as the device is changed or recalibrated.

23 laminografias comparativas com dioComparison of left and right temporomandibular joint laminography, closed and open mouth: in habitual occlusion before treatment and with the DIO (intraoral device), in a physiological neuromuscular position.

24 ct comparativas com dioComparison of lateral radiographs and cervical spine of the patient: in habitual occlusion before treatment and with the DIO (intraoral device), in a physiological neuromuscular position.

With the jaw in a physiological neuromuscular position the physiotherapist colleague worked the rest of the muscle chains, using global manual techniques, always taking into account the individuality of the patient. This work in a patient with degenerative discopathies should be maintained

25 rad lateral e perfilComparison of lateral radiographs of the patient: in habitual occlusion before the treatment and with the DIO (intraoral device), in a physiological neuromuscular position.

Improvement of the profile and recovery of the vertical dimension.

26TELEFRONTAIS COMPARATIVASComparative frontal radiographs of the patient: at the beginning of treatment in habitual occlusion, during treatment with DIO (intraoral device) in physiological neuromuscular occlusion.

27 PANORAMICA com o DIOPanoramic radiograph of the patient with the DIO constructed in a physiological neuromuscular position.

47 ress esqu comparativa 1MRI: comparative sagittal slices of the left TMJ, closed mouth, before and after the physiological neuromuscular treatment.

Three-dimensional joint decompression is noted. Primordial objective in this specific case.

48 ress esqu comparativa 1MRI: comparative sagittal slices of the left TMJ, closed mouth, before and after the physiological neuromuscular treatment.

Three-dimensional joint decompression is noted. Primordial objective in this specific case.

49 ress esqu comparativa 1MRI: comparative sagittal slices of the left TMJ, closed mouth, before and after the physiological neuromuscular treatment.

Three-dimensional joint decompression is noted. Primordial objective in this specific case.

50 ress esqu comparativa 1MRI: comparative sagittal slices of the left TMJ, closed mouth, before and after the physiological neuromuscular treatment.

Three-dimensional joint decompression is noted. Primordial objective in this specific case.

51 ress direita comparativa 1MRI: comparative sagittal slices of the right TMJ, closed mouth, before and after the physiological neuromuscular treatment. In this section we can see the improvement in the discal condylar relationship obtained.

Three-dimensional joint decompression is noted. Primordial objective in this specific case.

51a ress direita comparativa 1MRI: comparative sagittal slices of the right TMJ, closed mouth, before and after the physiological neuromuscular treatment. In this section we can see the improvement in the discal condylar relationship obtained.

Three-dimensional joint decompression is noted. Primordial objective in this specific case.

52 ress direita comparativa 1MRI: comparative sagittal slices of the right TMJ, closed mouth, before and after the physiological neuromuscular treatment. In this section we can see the improvement in the discal condylar relationship obtained.

Three-dimensional joint decompression is noted. Primordial objective in this specific case.

53 ress esquerda frontal comparativa 1

MRI: Comparison of the frontal slice of the LEFT TMJ, closed mouth, before the physiological neuromuscular treatment, and of the same LEFT TMJ after the FIRST PHASE.

Note the decompression of the temporomandibular joint, especially in the lateral pole.

54 ress direita frontal comparativa 1

MRI: Comparison of the frontal slice of the RIGHT TMJ, closed mouth, before the physiological neuromuscular treatment, and of the same RIGHT TMJ after the FIRST PHASE.

Note the decompression of the temporomandibular joint, especially in the lateral pole.

The patient did not report any more symptomatology related to the TMJ. Bioinstrumentation also objectively showed an improvement in neuromuscular function.

It was decided to start the SECOND PHASE of the treatment to remove the DIO (intraoral device), maintaining the physiological neuromuscular occlusion.

For this we used a three-dimensional orthodontic, where the teeth are erupted to the new neurophysiological position.

55 ORTO 1In the second phase, in this case the three-dimensional orthodontics the patient is monitored and deprogrammed electronically, and often the device is recalibrated, to maintain the position obtained in the first phase.

Part of the sequence of the second phase (in this specific clinical case).

56 PANORAMICA COM O IMPLANTEPatient’s panoramic radiograph after the installation of the implant and the removal of the retained upper third molars.

57 ORTO 2Part of the sequence of the second phase (in this specific clinical case).

58 ORTO 3Part of the sequence of the second phase (in this specific clinical case).

59 ORTO 4Part of the sequence of the second phase (in this specific clinical case).

60 ORTO 5

Part of the sequence of the second phase (in this specific clinical case). Photograph of orthodontic wire before cutting from the right side for didactic purposes.

61 ORTO 6Part of the sequence of the second phase (in this specific clinical case). Photograph of orthodontic wire before cutting from the right side for didactic purposes.

62 ORTO 7Part of the sequence of the second phase (in this specific clinical case).

63 ORTO 8Part of the sequence of the second phase (in this specific clinical case).

64 ORTO 9Part of the sequence of the second phase (in this specific clinical case).

65 ORTO10Part of the sequence of the second phase (in this specific clinical case).

66 ORTO101Part of the sequence of the second phase (in this specific clinical case).

67 ORTO102Part of the sequence of the second phase (in this specific clinical case).

68 ORTO103Part of the sequence of the second phase (in this specific clinical case).

68 RETIRADA DO DIORemoval of the DIO (intraoral device)

69 ORTO104Part of the sequence of the second phase (in this specific clinical case).

70 ORTO105Finalization of the second phase.

71 OCLUSAL FINALPatient’s upper and lower occlusal view after the finalization of the second phase.

72 b panoramicas comparativasPatient’s comparative panoramic radiographs before and after the end of the second phase of the treatment using a three-dimensional orthodontics.

72 comparação OCLUSAIS FINAISPatient’s comparative superior and inferior occlusal view, before and after, the end of the second phase of the treatment by a three-dimensional orthodontic.

72 OCLUSÃO IcomparativasComparative occlusion of the patient before and after the end of the second phase of the treatment using a three-dimensional orthodontics.

77 registro controle após a ortodontiaKinesiographic control record after the completion of the three-dimensional orthodontics in a physiological neuromuscular position.

Coincident neuromuscular trajectories.

73 laminografias finalLaminography of the patient in physiological neuromuscular occlusion after the finalization of the second phase of the treatment.

74 3 laminografias comparativasComparative laminography of the patient: before the treatment, during the first phase of the treatment and after the finalization by the three-dimensional orthodontics.

75 TELEFRONTAIS COMPARATIVASPatient’s comparative frontal radiographs: before the treatment, during the first phase of the treatment and after the finalization by the three-dimensional orthodontics.

76 rad lateral e perfil comparativas 3Patient’s comparative lateral radiograph and profile: before the treatment, during the first phase of the treatment and after the finalization by the three-dimensional orthodontics.

78 DEPOIMENTO 1

Patient testimony:

What made me look for the treatment were recurrent headaches, frequent

(weekly) and intense, which lasted, on average, 2 days, affecting my productivity

at work as well as leisure hours.

The pain did not subside with common analgesics, requiring strong medication, which, in turn, only softened the pain a little.

Today, after the treatment, I can say that only very rarely do I suffer from these pains, greatly improving the quality of life, besides the posture.