RU2738004C1 - Method for determining central position of lower jaw in patients with dysfunctions of temporomandibular joint - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to orthodontics, and is intended for use in determining a central position of the lower jaw in the patients with a TMJ disorder. Patient's upper and lower jaws are scanned with an intraoral scanner, or plaster models are scanned. Digitized images are placed in a Cad-Cam program in a virtual articulator in the position of maximum contact of the dentitions. Then the dentitions are separated in accordance with the Shimbashi index. Next stage is the virtual modelling of the tray, which can be performed on both upper and lower jaws. Working element of the tray is an inclined plane for anterior teeth, which is modelled in accordance with the angle of the sagittal articular path, defined by intraoral or extraoral axiography using an axiograph. After virtual simulation of tray, it is made of plastic on milling machine.

EFFECT: method enables simple and fast determination of the central position of the lower jaw in the patients with the TMJ disorder, which improves the quality of treating the patients with the given pathology.

1 cl, 1 ex

Description

The invention relates to medicine, namely to orthodontics, and is intended to determine the central position of the lower jaw in patients with TMJ dysfunction.

Dysfunction of the temporomandibular joints according to various sources occurs in 27-76% of the examined. At the same time, as one of the reasons for the development of TMJ dysfunction, many authors identify occlusive disorders caused by the presence of dentoalveolar anomalies, deformities, partial loss of teeth, and increased tooth combustion. In patients with this form of pathology, the lower jaw quite often occupies an acentric position, which, in turn, leads to displacement of the heads of the lower jaw in the articular cavities and articular discs.

In this regard, an important point in the treatment of such patients is to determine the central position of the lower jaw. Today, various methods of determining the central position of the mandible are known: the use of a muscle relaxation mouthpiece from the University of Michigan, the use of a Mayer mouthguard, the use of Kois's “deprogrammer”, Sabbakh's aquasplint, transcutaneous electroneurostimulation, and others (“Occlusion therapy of temporomandibular joint dysfunctions”. Chkhinvadze T.N. , Bekreev V.V. RUDN Bulletin, Medicine series. -2018 - Vol 22, No. 4 - pp. 387-390. Http://journals.rudn.ru/medicine).

Each of the proposed author's methods claims to be reliable in determining the position of the lower jaw. However, each of them, along with advantages, has disadvantages.

So, the use of a mouth guard from the University of Michigan or a similar mouth guard in Mayer's modification is a rather long process, lasting for 6-8 months. In this case, the new position of the lower jaw, as a rule, is not central, since in the identified position, the posterior position of the heads of the lower jaw is often determined. In this regard, additional measures are required, which are aimed at displacing the lower jaw forward, but with the help of another - repositional aligner ("Occlusal splints. Types and role in the complex therapy of TMJ pathology." Naumovich SA, Naumovich SS. J-al. "Modern dentistry", No. 1. - 2014 - p. 7-9).

The use of AquaSplint Sabbah also aims to normalize the tone of the muscles that set the lower jaw in motion, and to relieve pain symptoms caused by muscle hypertonia ("AquaSplint Therapy" Aladin Sabbagh. Dentalmagazine.ru - Section "Articles" -Practical article No. 17). At the same time, the revealed position of the lower jaw is also far from always central, which could be recommended for creating occlusal contacts of the dentition.

Transcutaneous electroneurostimulation, as shown by research results, well reduces the tone of the chewing, temporal, cervical,. digastric muscles. However, the central position of the mandible determined by this method is stable only in 78% of patients ("Clinical rationale for the use of the method of percutaneous electroneurostimulation in the complex rehabilitation of patients with partial loss of teeth and symptoms of temporomandibular joint dysfunction." Ronkin K.Z. Abstract of the thesis. medical sciences. - Moscow -2019, 20 C.). The use of the Kois "deprogrammer" is based on the removal of the tonic activity of the chewing, temporal and medial pterygoid muscles by introducing a horizontal bite pad for the lower central incisors and excluding contacts in the lateral teeth area ("Deprogrammer for guaranteed success or treatment of functional occlusion according to the system of Dr. . Kois. "Online magazine" Dentist-Pro ". - dentist-pro.ru). The method proposed by the author implies a shorter time of using the mouthguard (up to four weeks), however, it cannot be said with certainty that the new position of the lower jaw will be central, which can be recommended for creating occlusal contacts of the dentition of the upper and lower jaws. In addition, Kois's "deprogrammer" is contraindicated in periodontal diseases, the presence of recessions in the lower incisors, diseases of the temporomandibular joint, which quite often accompany the distal relationship of the dentition.

There is a known device for deprogramming masticatory muscles, taken as a prototype, (RU # 2710679 C1, A61C 13/004, 12/30/2019), reminiscent of Kois's proposal, with the difference that the plane in the region of the lower central incisors is either horizontal, like Kois's, or with an inclination at an angle of 45 degrees relative to the incisal edge of the central incisors, if the head of the lower jaw occupies a distal position in the articular cavities. In this case, the mouthguard is in contact only with the lower central incisors, which is contraindicated in painful dysfunction of the TMJ, and the choice of the plane slope does not take into account the anatomical and functional features of the masticatory apparatus, in particular the incisor slope, the slope of the glenoid cavity and movements of the lower jaw heads, which are formed in the process of face growth ("Chewing organ". Slavichek R. Publishing house "Azbuka". - Moscow, St. Petersburg, Kiev, Almaty, Vilnius. - 2008 - 543 p., Chapter "Occlusion and articulation". - P. 138- 219). The objective of the invention is to develop a simple and effective method for determining the central position of the lower jaw in patients with dysfunction of the temporomandibular joints.

The technical result is an accurate determination of the central position of the lower jaw in patients with dysfunction of the temporomandibular joint.

The task is achieved by the fact that in the method for determining the central position of the lower jaw in patients with TMJ dysfunction, including the creation and imposition of a splint separating the dentition from the plane in the area of the anterior teeth, the plane is created oblique in the area of the entire anterior group of teeth virtually using the computer program Cad- Cam, and the inclination of the plane is calculated based on the search for the sagittal articular angle by performing an intraoral axiography, or an extraoral axiography using an axiograph, and the magnitude of the separation of the dentition is calculated individually according to the Shimbachi index, and the mouthguard is then created from plastic by milling. For the purpose of muscle relaxation, we also propose to separate the dentition in the lateral part of the dentition, as this reduces the tone of the chewing, temporal and medial pterygoid muscles.

Next, a scan of the patient's upper and lower jaw is carried out, or scanning of previously obtained plaster models of the jaws. The resulting digitized models in the Cad-Cam program are installed in a virtual articulator at the position of maximum contact of the dentition, and then they are separated in accordance with the Shimbachi index.

Then the program carries out a virtual modeling of the mouthguard, which has an inclined plane in the area of the front teeth. The inclination of the plane is created in accordance with the obtained data of the sagittal articular path. The mouthguard can be performed both on the upper and lower jaw. If the splint is placed on the upper jaw, the lower incisors and canines come into contact with the occlusal plane created on the upper jaw splint. If the splint is applied to the lower jaw, then the incisors and canines of the upper jaw come into contact with the occlusal plane made on the splint of the lower jaw. The choice of the jaw is determined by the nature of the relationship of the dentition and the presence of partial loss of teeth.

The inclination of the created inclined plane is controlled using the occlusal plane of the virtual articulator. This approach ensures the sliding of the incisors, and therefore the lower jaw, in accordance with the individual parameters of the structure of the temporomandibular joint. Further, the results of the virtual simulation of the mouthguard are transferred to the milling machine and the mouthguard is manufactured by the milling method. The prepared splint is placed on the patient's upper or lower jaw.

The mouthguard can be used for 2 weeks. Wearing time is constant, except for food intake and oral hygiene and aligners.

During this time, relaxation of the muscles that set the lower jaw in motion occurs, and the lower jaw itself shifts to a central position. In this case, the heads of the lower jaw occupy a central position in the articular cavities, which is optimal for creating occlusal contacts.

высоты коронки зуба. Стираемость режущих краев верхних и нижних резцов, бугорков клыков, жевательной поверхности моляров и премоляров на верхней и нижней челюсти. Клиновидные дефекты в области шеек зубов 3.4, 3.3, 4.3, 4.4. На зубах 1.3-2.3 и 3.3-4.3 установлены несъемные проволочные ретенционные аппараты.Clinical example. Patient A., 38 years old, complained of recurrent pain in the left temporomandibular joint, clicks in the right and left temporomandibular joint when opening the mouth. From the words: the symptoms appeared several years ago. The symptoms have worsened lately. The pain is assessed by 5 points on a conventional 10-point scale. A few months ago I finished orthodontic treatment with a bracket system. Objectively: Decrease in the height of the lower part of the face, slight displacement of the chin to the left. The ratio of molars to canines on the right side of the dentition is according to the first class of Engle, on the left side according to the second class. Offset of the center line of the lower dentition to the left by 2.0 mm. Overlapping upper incisors of the lower ones - on

the height of the tooth crown. Abrasion of the incisal edges of the upper and lower incisors, canine tubercles, chewing surfaces of molars and premolars on the upper and lower jaw. Wedge-shaped defects in the area of the necks of the teeth 3.4, 3.3, 4.3, 4.4. Non-removable wire retention devices are installed on teeth 1.3-2.3 and 3.3-4.3.

When the mouth is opened, the lower jaw is displaced to the right with partial alignment. When opening the mouth, clicks in the right and left joints are palpated. Palpation of the left TMJ is painful. When the lower jaw is displaced forward - sliding along the incisors.

When the lower jaw is displaced to the right - sliding along the canines of the working side and the third molars of the balancing side. When the lower jaw is shifted to the left - sliding along the canines of the working side.

External palpation of the medial pterygoid muscle on the left is painful. Palpation of the lateral pterygoid muscles on the right and left sides is painful.

According to CT data, the TMJ is the posterior and lateral position of the head of the left TMJ.

According to the electromyography of the muscles that set the lower jaw in motion, there is an asymmetry in the tone of the temporal, chewing, and digastric muscles. Hypertonicity of the temporal muscles on the left side.

On the basis of clinical examination, data of X-ray examination of the temporomandibular joint, data of functional examination of the muscles that set the lower jaw in motion, the diagnosis was made.-TMJ dysfunction, parafunction of the chewing muscles, generalized increased abrasion of the 1st degree teeth, decompensated form, distal ratio of the dentition, deep incisal overlap , wedge-shaped defects in the teeth area 3.3, 3.4, 4.3, 4.3, retention period of orthodontic treatment.

The treatment plan implied at the first stage - determination of the central position of the mandible, followed by stabilization of this position and subsequent orthopedic treatment.

Digital impressions of the upper and lower jaw were obtained using an intraoral scanner. Digital models are placed in the Cad-Cam program in a virtual articulator. Using an Arcus Digma II axiograph from KaVo, extraoral axiography was performed and the parameters of the sagittal articular angles of the right and left temporomandibular joint were determined. Using a Miotronics electromyograph, an electromyography of the muscles that set the lower jaw in motion was carried out and the necessary separation of the dentition in the vertical direction was determined using the Shimbachi index.

In accordance with the data obtained, the virtual articulator was adjusted and the aligner was modeled on the upper jaw with an inclined plane for the lower incisors and canines.

Further, the obtained information is transferred to the milling machine and by milling the plastic block, the kappa is obtained.

At the next visit, the mouthguard was placed on the patient's upper dentition.

After 2 weeks, at the next visit of patient A., 38 years old, we noted the absence of pain in the temporomandibular joint, a significant decrease in clicks in the temporomandibular joint when opening the mouth and the alignment of the trajectory of movements of the lower jaw when opening the mouth.

The repeated CT scans of the temporomandibular joint showed the normalization of the position of the heads of the lower jaw in the articular cavities.

Thus, the presented method makes it possible to quite simply and quickly determine the central position of the lower jaw in patients with TMJ dysfunction, which can be used for further treatment, which, in turn, improves the quality of treatment of patients with this pathology.

Claims (1)

A method for determining the central position of the lower jaw in patients with temporomandibular joint dysfunction, including the creation and imposition of a splitter separating the dentition with a plane in the area of the anterior teeth, characterized in that the plane is created oblique in the area of the entire anterior group of teeth virtually using the Cad-Cam computer program, and the inclination of the plane is calculated based on the search for the sagittal articular angle by performing an intraoral axiography or an extraoral axiography using an axiograph, and the amount of separation of the dentition is calculated individually in accordance with the Shimbachi index, and the mouthguard is then created from plastic by milling.