RU2622592C1 - X-ray method of diagnostics of the dysfunction of the temporal-lower-male joint - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention is intended for use in the diagnosis of temporomandibular joint disease (TMJ). Conducting the orthopantomography. On the orthopantomogram, the apexes of articular cavities are marked as points A and B, point C between the cutting edges of the central incisors of the lower jaw, and are joined by lines. After that, measuring the angles of BAC and ABC. If a difference is detected between these angles, the dysfunction of the TMJ is diagnosed.

EFFECT: method allows, due to the objectivity of the measured indicators, to increase the accuracy of diagnosis, simplify the method and shorten the duration of the study.

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Description

The invention relates to medicine, namely to dentistry, and can be used to diagnose diseases of the temporomandibular joint (TMJ).

A known method for determining pathological changes in the temporomandibular joints, characterized in that they perform scanning in axial projection with computed or magnetic resonance imaging (MRI) imaging. The width and density are determined on the images presented, and for MRI, the intensity and uniformity of the signal of the lateral pterygoid, medial pterygoid and chewing muscles. Then we determined the value of the angles formed by the intersection of the transverse axes of the articular heads to the longitudinal axes of the branches of the lower jaw on both sides, and the location of the proposed intersection point of the transverse axes of the articular heads. With the expansion of the lateral pterygoid muscle on one side, the chewing and (or) medial pterygoid muscles on the other in combination with the shift of the point of intersection of the transverse axes of the articular heads towards the thickened lateral pterygoid muscle to 0.3 cm, with comparable condylocoronoid indices on both sides angles determine muscular-articular dysfunctions. With an increase in the lateral pterygoid muscle on one side, chewing and (or) the medial pterygoid on the other side, a decrease in the condylocoronoid angle on the side of the thickened lateral pterygoid muscle and a shift in the supposed intersection point of the transverse axes of the articular heads from the midline to the side opposite to the hypertrophied lateral pterygoid muscle, 0.3 cm or more, determine the initial manifestations of TMJ arthrosis (I-II art) [patent RU 2198599, 2003].

A known method for diagnosing dysfunction of the temporomandibular joint, including measuring blood flow parameters in the vessels in the region of the external carotid artery and in the region of the maxillary artery on the right and left sides using ultrasound dopplerography. When the linear velocity of blood flow in the external carotid artery corresponds to the age norm, and the asymmetry of the linear blood flow velocity in the region of the maxillary artery on the right and left sides is not less than 30%, temporomandibular joint dysfunction is diagnosed [patent RU 2322182, 2008].

A known method for the differential diagnosis of diseases of the temporomandibular joint by studying the noise sound signals arising from the mutual movement of the articular surfaces in the range from 30 to 5000 Hz and when they are detected mainly in the range from 30 to 300 Hz diagnoses joint arthrosis, in the range from 301 to 600 Hz - arthritis, in the range above 600 Hz - temporomandibular joint dysfunction [patent RU 2351280, 2009].

The closest analogue of the invention is a method for early diagnosis of dysfunctions of the temporomandibular joints, which consists in the fact that anthropometry is performed to determine the displacements of the lower jaw and change the height of the lower third of the face. Determine the displacement of the lower jaw in the sagittal, transverse and distal directions. To determine the distal displacement of the lower jaw, an Ashler-Bitner test is used. To determine lateral displacements, occlusion is performed in the usual occlusion - the results are obtained using the T-Scan computer program. Orthopantomography is performed and the size of the joint spaces is determined. When determining the secondary displacements of the lower jaw in the sagittal and / or transverse and / or distal directions, the presence of articular fissures of different sizes on the orthopantomogram and changes in the height of the lower third of the face, TMJ dysfunction is diagnosed [patent RU 2445043, 2012]. This method allows predicting TMJ diseases at various stages of dysfunction. The disadvantages of the method are the use of the T-Scan device, which is a rather rare diagnostic equipment in a dental clinic at the initial appointment, as well as the complexity of the study, which consists in preparing the device, using bite plates.

The objective of the invention is to improve the accuracy of diagnosis.

The technical result when using the invention is to increase the accuracy of diagnosis by evaluating the pathogenetic indicator, simplifying and reducing the duration of the study.

The specified technical result is achieved by the fact that in the method for diagnosing TMJ dysfunction, including orthopantomography (OPG), according to the invention, the tops of the articular cavities as points A and B, point C between the cutting edges of the central incisors of the lower jaw are marked on the orthopantomogram, connect them with lines, then measure angles of YOU and ABS, and if a difference between these angles is detected, they diagnose TMJ dysfunction.

The invention is illustrated by the following figures: in FIG. 1-3 shows the angles measured at OPTG; in FIG. 4 - angle α of the patient according to example 1; in FIG. 5 - angle β of the patient according to example 1.

The proposed method for the diagnosis of TMJ dysfunction is as follows. After a preliminary examination of the patient for complaints, an examination of the TMJ, occlusion is carried out, after which the patient is referred for orthopantomography (OPTG). In the WixWin program, using the standard utility, mark on the orthopantomogram: the tops of the articular cavities (points A and B) and the point between the cutting edges of the central incisors of the lower jaw (C). Next, connect them with lines (Fig. 1-3). After that, measure the degree of two angles ∠ВАС (α), ∠АВС (β). Normally, the degrees of these angles are equal, and with pathology there is a difference between the angles α and β (due to the uneven displacement of the articular head in the articular cavity). Normally, the articular heads of the lower jaw are located on the lower third of the slope of the articular tubercle. With TMJ dysfunction, the articular heads are shifted anteriorly along the slope of the articular tubercle unevenly.

We examined 27 patients with TMJ diseases. Each patient received an OPTG. In all x-rays, the ratio of the angles α and β was revealed. The more pronounced TMJ dysfunction, the greater the difference in angles α and β.

In the control group of 11 people, changes in the angles α and β were not detected.

The invention is illustrated by the following examples.

Example 1. Patient S. 20 years. Diagnosis: cross bite.

Complaints: aesthetic defect.

Objectively: face configuration without visible pathological changes, when examining the oral cavity, crowding of the teeth is noted.

After a clinical examination, an OPTG was performed. The resulting image revealed a difference of angles α and β, equal to 2 degrees (Fig. 4, 5).

Example 2. Patient G., 57 years old. Diagnosis: Kennedy grade 1 on the upper and lower jaw.

Complaints: difficulty chewing food.

Objectively: face configuration without visible pathological changes. When examining the oral cavity, a defect in the dentition on the upper and lower jaw.

After a clinical examination, an OPTG was performed. The resulting image revealed a difference of angles α and β, equal to 1 degree.

A history of chewing on the right side has been observed for the past 3 years. On the balancing side, the changes are deeper, which is diagnosed in our way.

Example 3. Patient A., 46 years old. Diagnosis: Kennedy grade 2 in the upper jaw.

Complaints: difficulty chewing food.

Objectively: face configuration without visible pathological changes. When examining the oral cavity, a defect in the dentition on the upper and lower jaw.

After a clinical examination, an OPTG was performed. The resulting image revealed a difference in angles of α and β of 2 degrees.

Claims (1)

A method for diagnosing dysfunction of the temporomandibular joint (TMJ), including orthopantomography (OPTG), characterized in that the orthopantomogram marks the tops of the articular cavities as points A and B, point C between the cutting edges of the central incisors of the lower jaw, connect them with lines, then measure them angles of BAC and ABC, and if a difference between these angles is detected, they diagnose TMJ dysfunction.

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