RU2608704C1 - Method of analysis of computer tomograms of the temporomandibular joint - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to dentistry and radiology. For the diagnosis of diseases of the temporomandibular joint (TMJ) on tomograms in the sagittal plane, measure the width of the joint space in five portions of the joint and determine the angle of the rear slope of the articular tubercle. In the coronal plane measure the width of the medial portion of the joint space, measuring the length of a line between the most protruding point of the medial surface of the articular head of the condylar process of the lower jaw and the point on the medial surface of the glenoid fossa and the width of the lateral portion of the joint space, measuring the length of a line between the most protruding point on the lateral surface of the articular head of the condylar process of the lower jaw and the point on the lateral surface of the glenoid fossa surface. In the axial plane passing through the mid-height of the articular head of the condylar process of the lower jaw, determine the maximum width of the anterior portion of the joint space between the point on the medial surface of the articular head and the point on the surface of the glenoid fossa in the widest part of the joint space.

EFFECT: method allows to increase the efficiency of diagnosis of TMJ through the optimization of the analysis of computer tomograms.

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Description

The method can be used in medicine, namely in dentistry and radiology for the diagnosis of diseases of the temporomandibular joint (TMJ).

There is a method of measuring the bone structures of TMJ on linear or computed tomograms in a lateral projection with a closed mouth, where the height of the articular tubercle, the height of the lower jaw branch, the width of the head of the lower jaw in a straight line are measured and a comparative analysis of the measurements obtained with the corresponding physiological parameters is normal [1 ].

The disadvantage of this method is the lack of information about the size of the various sections of the joint gap of the TMJ, the narrowing of which is most often the cause of the pain, in addition, it is impossible to assess the displacement of the lower jaw in the vertical and transverse direction.

There is a method of analyzing computed tomograms of the TMJ in the sagittal plane in the “mouth closed” position, which makes it possible to judge the width of the joint gap in five sections of the joint [2].

The disadvantages of this method is that a CT scan makes it possible to determine the position of intraarticular elements only in the sagittal plane, while it is necessary to take into account the position of the elements of the joint in the coronary and axial planes. This method is taken by us as a prototype.

The aim of the invention is to increase the efficiency of the method of analysis of computed tomograms of TMJ.

This goal is achieved by the fact that in addition to the sagittal plane, the angle of the posterior slope of the articular tubercle is determined, which is formed between the straight line connecting the most protruding points of the apex of the articular tubercle and the lower edge of the auditory meatus, and the straight line drawn tangentially to the posterior slope of the articular tubercle; in the coronary plane, the width of the medial part of the joint space is measured by measuring the length of the segment between the most protruding point on the lateral surface of the articular fossa and the point on the medial surface of the articular fossa and the width of the lateral part of the articular fissure; the head of the condylar process of the lower jaw and a point on the lateral surface of the articular fossa; in the axial plane passing through the mid-height of the articular head of the condylar process of the lower jaw, determine the maximum width of the mesial part of the joint space between the point on the medial surface of the joint head and the point on the surface of the joint fossa in the widest part of the joint space.

The method is as follows. Computed tomography of the patient is performed in a spiral mode in the supine position with the movement of the table in the craniocaudal direction. A series of computed tomograms is obtained in the sagittal, coronary and axial planes. Measure the width of the joint space in five sections of the joint in the sagittal plane by a known method [2]. Additionally, in the sagittal plane, the angle of the posterior slope of the articular tubercle is determined, which is formed between the straight line connecting the most protruding points of the apex of the articular tubercle and the lower edge of the auditory meatus, and the straight line drawn tangentially to the posterior slope of the articular tubercle. In the coronary plane, the width of the medial part of the joint space is measured by measuring the length of the segment between the most protruding point on the lateral surface of the articular fossa and the point on the medial surface of the articular fossa and the width of the lateral part of the articular fissure. the head of the condylar process of the lower jaw and a point on the lateral surface of the articular fossa; in the axial plane passing through the mid-height of the articular head of the condylar process of the lower jaw, determine the maximum width of the mesial part of the joint space between the point on the medial surface of the joint head and the point on the surface of the joint fossa in the widest part of the joint space.

The method is illustrated in graphic material.

The figure 1 schematically shows a computer tomogram of the TMJ in the sagittal plane. The most protruding point A of the top of the articular tubercle 1 and the protruding point In the lower edge of the ear canal 2 are connected by a straight line AB. On a tangent to the posterior slope 3 of the articular tubercle 1, a straight line 4 is drawn, which forms an angle 5 at the intersection with the straight line AB.

The figure 2 schematically shows a computed tomogram of the TMJ in the coronary plane. Between the most protruding point C of the medial surface of the articular head 6 of the condylar process of the lower jaw and the point D on the medial surface of the articular fossa 7, a CD segment is measured equal to the width of the medial part of the articular fissure 8, and between the most protruding point E on the lateral surface of the articular head 6 of the condylar process of the inferior jaw and the point F on the lateral surface of the articular fossa 7 measure the segment EF equal to the width of the lateral section of the joint space 8.

The figure 3 schematically shows a computed tomogram of the TMJ in the axial plane. Between point G on the medial surface of the articular head 6 and point H on the surface of the articular fossa 7 located in the widest part of the joint space 7, measure a segment GH equal to the maximum width of the mesial section of the joint space 8.

The advantage of the proposed method is a more accurate assessment of the location of intraarticular elements relative to each other in the sagittal, coronary and axial planes, as a common cause of pain in the TMJ is a lateral displacement of the lower jaw, which cannot be diagnosed by performing measurements in only one plane. Determining the angle of the posterior slope of the articular tubercle makes it possible to correct the severity of the sagittal occlusal curve, the inclination of the occlusion plane, the angle of inclination of the incisors, the height of the chewing tubercles of the teeth in the lateral part of the dentition, the degree of overlapping of the lower teeth with the upper ones, which is necessary for the correct modeling of future permanent designs of dentures.

The method is illustrated by a clinical example.

Patient Zh., 47 years old, turned to the Department of Orthopedic Dentistry of Samara State Medical University with complaints of noise and pain in the TMJ from two sides, more to the right, radiating to the temple. When examining the oral cavity: ceramic-metal crowns of teeth 1.6, 1.7, 2.5, 2.6, 2.7, 3.7, 3.6, 3.5, 3.3, 4.6, 4.5, 4.4. Missing tooth 4.7. Ceramic-metal crowns on chewing teeth had unexpressed tubercles. The patient revealed an asymmetric unexpressed sagittal occlusal curve. Preliminary diagnosis: occlusal-articulatory dysfunctional syndrome. Reducing the interalveolar height by 2-3 mm. The patient was sent to computed tomography of the TMJ. According to the results of the analysis of computer tomograms in the sagittal plane, no pathology was revealed. After analyzing the tomograms in the coronary plane, an uneven narrowing of the joint gap in the medial and lateral sections was found on both sides, more to the right, in the axial plane, the centerless position of the joint heads in the articular fossa, narrowing of the joint gap in the mesial section on the right, lower jaw shift to the right were revealed. When determining the angle of the posterior slope of the articular tubercle, it was 59.8 ° on the right, 62.9 ° on the left, which proved the failure of the ceramic-metal crowns in this patient, since with such an increased inclination of the articular tubercles, the creation of artificial crowns with more pronounced tubercles is necessary and should increase the severity of the sagittal occlusal curve. The patient made a temporary plastic construction with an increase in the interalveolar height by 3 mm, extension of the lower jaw by 1 mm and a left shift of 1 mm, pronounced tubercles of the chewing teeth and a pronounced sagittal occlusal curve. 3 days after application of the design, the patient noted a decrease in noise and pain in the TMJ. One month after the construction was overlaid, noise and pain were completely absent. The patient was made permanent orthopedic structures in the optimal position of the lower jaw found, with a pronounced modeling of chewing tubercles and a pronounced sagittal occlusal curve.

The method of analysis of computed tomograms of TMJ is recommended for use in dentistry and radiology for more accurate diagnosis and subsequent treatment of diseases of the temporomandibular joint.

INFORMATION SOURCES

1. RF patent for the invention No. 2462993, АВВ 6/00, dated 07/07/2011.

2. Kameneva L.A. Optimization of the diagnosis and treatment of patients with pain syndrome of the temporomandibular joint [Text]: dis. can honey. Sciences / Kameneva Lyudmila Alekseevna. - Samara, 2015 .-- 155 s.

Claims (1)

A method for analyzing computer tomograms of the temporomandibular joint, including analyzing a computer tomogram in the sagittal plane and determining the width of the joint gap in five sections of the joint, characterized in that the angle of the posterior slope of the articular tubercle, which is formed between the straight line connecting the most protruding ones, is additionally determined in the sagittal plane points of the top of the articular tubercle and the lower edge of the auditory meatus, and a straight line drawn tangentially to the posterior slope of the articular tubercle; in the coronary plane, the width of the medial part of the joint space is measured by measuring the length of the segment between the most protruding point on the lateral surface of the articular fossa and the point on the medial surface of the articular fossa and the width of the lateral part of the articular fissure; the head of the condylar process of the lower jaw and a point on the lateral surface of the articular fossa; in the axial plane passing through the mid-height of the articular head of the condylar process of the lower jaw, determine the maximum width of the mesial part of the joint space between the point on the medial surface of the joint head and the point on the surface of the joint fossa in the widest part of the joint space.

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