RU2322182C2 - Method for diagnosing temporomandibular joint dysfunction cases - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves determining functional state of chewers by measuring blood circulation in blood vessels of external carotid region and maxillary artery region on the right and left side. Linear blood circulation speed value in the external carotid region being in agreement with age-specific reference value, and asymmetry of linear blood circulation speed readings in maxillary artery region on the right and left side being not less than 30%, temporomandibular joint dysfunction is to be diagnosed. Blood circulation is measured by means of ultrasonic Doppler flowmetry.

EFFECT: high reliability of measurement results; simplified process.

2 cl, 4 tbl

Description

The invention relates to medicine, namely to dentistry for detecting dysfunction of the temporomandibular joint (TMJ). The invention can be used for the treatment of TMJ, as well as in the manufacture of dentures.

TMJ dysfunction can cause severe pain in the temporomandibular joint with radiation to the neck, shoulder, and back of the head as trigeminal neuritis. Timely and correct diagnosis of the disease allows you to conduct an effective course of treatment and reduce the time of recovery.

A known method for preclinical diagnosis of TMJ dysfunction, which is protected by patent for invention No. 1722461 of 04/26/90, IPC: A61B 5/00. In this method, for the diagnosis of TMJ dysfunction, the functional state of the masticatory muscles was determined using gnatodynamometry. The patient in the frontal group of teeth of the upper and lower jaw was strengthened with the help of the impression mass of the nozzle and a gnath-dynamometer sensor was placed between them and the absolute value of the tooth compression force was determined until pain appeared. With compression values in the area of the anterior teeth of less than 5 kg, pain dysfunction of the temporomandibular joint was diagnosed.

The disadvantage of this method is its complexity, the inconvenience associated with research and the lack of reliability of the results.

The difficulty is due to the need to manufacture nozzles. The inconvenience is associated with the inability to use in patients with the destruction or absence of the frontal group of teeth and intraoral studies. The lack of reliability is caused by subjective results of measuring the compression force, because for each patient, the concept of “painful sensation” is different and can be caused by various factors, in addition, the state of the teeth (in particular, their painful condition) affects the reliability of the measurements.

There are also publications on the study of the functional state of the masticatory muscles by measuring regional blood circulation - see the brochure of prof. N.K. Loginova, E.V. Logatsky, M. B. Girina. "Evaluation of the blood supply of the masticatory muscles in ultrasound dopplerography." Manual for doctors. Central Research Institute of Dentistry, Moscow, 2005. The term "regional blood circulation" refers to the characteristics and characteristics of blood flow in individual organs and tissues associated with their specific functions in various conditions of the body. Chewing muscle blood supply refers to regional blood circulation. For the blood flow through individual organs and tissues, certain patterns are characteristic, due to the specific function of this organ and aimed at its provision.

Chewing muscles belong to the skeletal muscles and they are inherent in all the mechanisms of regulation of regional blood flow. With the help of the work of chewing muscles, two important functions are carried out in the body: chewing and speech. The determination of masticatory function disorders is the main problem of functional diagnostics in dentistry. These disorders can be detected by assessing the state of regional blood flow in the masticatory muscles.

A non-invasive method for assessing regional blood flow is ultrasound dopplerography. The method of ultrasonic dopplerography is based on a physical effect named after Christian Andreas Doppler (1803-1853). The effect is based on the fact that a change in the frequency of the signal reflected from a moving object occurs by an amount proportional to the speed of movement of this object. A red blood cell is such an object in the bloodstream. With ultrasound dopplerography, the registration of a signal reflected from red blood cells moving in the blood stream allows, first of all, to diagnose the presence of blood flow in the study area. Changes in the Doppler signal indicate a violation in regional hemodynamics. The method is objective because allows to obtain quantitative characteristics of regional blood flow - volumetric and linear velocities. The research methodology allows you to install sound and visual sensors at the location point, as well as determine the type of vessel - arterial or venous by the shape of the pulse curve.

The paper sets out in detail the methods for measuring blood flow parameters in various vessels, including vessels that feed the masticatory muscles. The experiments were carried out with the aim of measuring the dynamics of blood flow at various loads on the masticatory muscles, in particular when volunteers used chewing gum for several months 3 times a day for 10 to 30 minutes. As a result, recommendations were made on the use of a similar regimen for gnatotraining for hypofunction of the masticatory system. However, the studies did not address the problems of diagnosing TMJ dysfunction.

The authors of the present invention conducted studies using ultrasound dopplerography of the bloodstream of the vessels that feed the masticatory muscles, with the aim of establishing parameters to diagnose TMJ dysfunction.

The objective of the proposed solution is to simplify the diagnosis process and increase the reliability of the results of the diagnosis of temporomandibular joint dysfunction.

To solve the problem in a method for diagnosing TMJ dysfunction based on a preclinical study of the functional state of masticatory muscles, the functional state of masticatory muscles is determined by measuring blood flow parameters in the vessels in the external carotid artery and in the region of the maxillary artery on the right and left sides. When the linear velocity of blood flow in the region of the external carotid artery corresponds to the age norm, and the asymmetry of the linear velocity of blood vessels in the region of the maxillary artery on the right and left sides is at least 30%, the presence of a syndrome of temporomandibular joints dysfunction is diagnosed.

Blood flow measurements are performed using ultrasound dopplerography.

The proposed diagnostic technique makes it possible to more accurately identify violations in the masticatory function of muscles. The technique is more convenient than previously known for both the patient and the doctor.

The proposed method for diagnosing TMJ dysfunction was developed by the authors according to the results of the cerebral hemodynamics research program on the SPECTRA-386 Doppler ultrasonography unit. Blood supply to the tissues of the maxillofacial region is carried out from the pool of the external carotid artery through its branches: lingual, facial, superficial, temporal, maxillary. In addition, the orbital and lateral branches of the internal carotid artery participate in the blood supply to the face. The vessels of the face, branching into ever smaller vessels, form an abundant network with well-developed anastomoses (the connection between the two vessels), which ensures optimal conditions for tissue nutrition.

In the process of studies for insonation (vessel examination) of the main (main) vessels at the subcranial (transcranial) level, 4 MHz and 8 MHz sensors and standard localization points of the OCA (common carotid artery), ICA (internal carotid artery), and NSA (external carotid artery) were used ) in the age interpretation.

To assess hemodynamics in the vessels of the Willis circle (vessels of the base of the brain), an ultrasonic sensor of 2 MHz was used. Insonation (vessel examination) was carried out transtemporally (in the temporal region) with a change in the depth of insonation and taking into account the nature of the direction of blood flow. ICA in the siphon area was studied tranorbitally (in the orbit). When assessing hemodynamics, linear systolic was taken into account (coincides with the systole of the heart cycle and is characterized by the maximum amplitude of the amplitude of the blood flow velocity curve, measured in cm / sec) and the average blood flow velocity (volumetric blood flow velocity, measured in ml / sec), as well as Purselo indices (resistance index blood flow distal to the measurement site), Gostling-King (pulsation index, reflects the elastic properties of arteries and decreases with age), Stuart (systolic-diastolic index, reflects the elastic vascular system and changes with age). In addition, direct insonation of hemoperfusion (blood flow) in the TMJ was performed, namely, a study of hemodynamics of the maxillary artery (projection area of the directly temporomandibular joint at the exit point of the temporomandibular artery), and the nature of the venous flow through the venous pterygo-plexus was evaluated.

The studies were carried out in the following order. Before treatment for TMJ dysfunction syndrome (DMJ), cerebral dopplerography was performed. During the treatment of TMJ diabetes, dopplerographic monitoring was performed. After treatment for TMJ diabetes, a control cerebral dopplerography was performed.

When analyzing the research results, obvious patterns were revealed.

1. In patients with symptoms of the temporomandibular joint dysfunction syndrome, with normal blood flow in the external carotid artery, there is a violation of blood flow in the maxillary artery in the form of asymmetries of the right and left sides, a decrease or increase in the linear velocity of blood flow. The maxillary artery is a branch of the external carotid artery and provides blood supply to the TMJ.

Thus, a violation of the blood supply in the TMJ area with normal blood flow of the external carotid artery is a confirmation of a violation of the TMJ function and, in doubtful cases, can confirm the diagnosis.

2. During the treatment of TMJ, significant changes in the maxillary artery were noted (elimination of asymmetry, normalization of blood flow velocity). Normalization of indicators in this case can be one of the reliable criteria for the effectiveness of treatment.

3. In patients with a secondarily decreased occlusion, asymmetry of the linear velocity of the blood flow along the maxillary artery is observed at normal NSA values. When restoring the height, the asymmetry disappears.

Based on the results obtained, a methodology for identifying TMJ dysfunction was developed.

The proposed method is implemented as follows.

In the area of the location of the test vessels there is an ultrasonic sensor corresponding to the diameter of the test vessel, the SPECTRA-386 dopplerographic unit (or any similar device) is turned on. During the measurements, the linear systolic velocity (coincides with the systole of the heart cycle and is characterized by the maximum amplitude of the amplitude of the blood flow velocity curve, measured in cm / sec) and the average blood flow velocity (volumetric blood flow velocity, measured in ml / sec), as well as Purselo indices (index resistance to blood flow distal to the measurement site), Gostling-King (pulsation index, reflects the elastic properties of arteries and decreases with age), Stuart (systolic-diastolic index, reflects the elastic its properties of blood vessels and changes with age). The obtained results are displayed in real time on a computer, then the results are analyzed.

With normal blood flow in the area of the external carotid artery corresponding to the age norm, and a decrease or increase in performance in the region of the maxillary artery in the presence of asymmetry of the right and left maxillary arteries, at least 30% are diagnosed with the syndrome of temporomandibular joint dysfunction.

With repeated examinations (at the stages of treatment of TMJ, after the restoration of a reduced occlusion), the effectiveness of the treatment is diagnosed by changing the dopplerographic parameters in the maxillary artery.

The following are examples of specific patients with specific values of sensor readings.

CLINICAL EXAMPLES

1. Patient O., 43 years old. She complained of pain in the region of the temporomandibular joint on the left with radiation to the ear, temple, nape. The pain intensified when opening the mouth, eating.

Clinically, the patient had an end defect in the dentition on the left.

Doppler examination results before treatment:

Table 1 EXTRACRANIAL LEVEL artery Systolic linear blood flow velocity Asymmetry (%) Asymmetry is normal (%) on right left twenty% WASP 55 55 NSA 49 fifty ICA 70 72 NBA thirty 31 PA 51 47 Maxillary artery eleven 23 52%

According to dopplerography, a conclusion was drawn about the presence of a temporomandibular joint dysfunction syndrome (TMJ) and a complex treatment was prescribed. After the treatment, the patient noted a cessation of pain, an improvement in general condition.

The result of a dopplerographic examination after treatment:

table 2 EXTRACRANIAL LEVEL artery Systolic linear blood flow velocity Asymmetry (%) Asymmetry is normal (%) on right left twenty% WASP 55 52 NSA fifty fifty ICA 65 62 NBA thirty thirty PA 57 58 Maxillary artery fifteen fifteen

According to dopplerography, it was concluded that a good result is the treatment of TMJ.

2. Patient M., 38 years old. He complained about the inconvenience of chewing, lack of teeth.

Clinically, the patient had significant dentition defects, decreased occlusion.

Doppler examination results before treatment:

Table 3 EXTRACRANIAL LEVEL artery Systolic linear blood flow velocity Asymmetry (%) Asymmetry is normal (%) on right left WASP 56 44 21% twenty% NSA 40 40 ICA 56 53 NBA thirty thirty PA 31 33 Maxillary artery 13 25 48%

According to dopplerography, it was concluded that there is a syndrome of dysfunction of the temporomandibular joint (TMJ) and a decrease in occlusion. A complex treatment with subsequent prosthetics was prescribed. After the treatment, the patient noted the normalization of chewing function, the elimination of discomfort in the oral cavity.

The result of a dopplerographic examination after treatment:

Table 4 EXTRACRANIAL LEVEL artery Systolic linear blood flow velocity Asymmetry (%) Asymmetry is normal (%) on right left twenty% WASP 53 51 NSA 47 48 ICA 60 58 NBA thirty 29th PA 40 40 Maxillary artery eighteen eighteen

According to dopplerography, it was concluded that a good result is the treatment of TMJ and adequate restoration of the height of the bite.

Claims (2)

1. A method for diagnosing dysfunction of the temporomandibular joint, including a preclinical study of the functional state of the masticatory muscles, characterized in that the functional state of the masticatory muscles is determined by measuring blood flow parameters in the vessels in the external carotid artery and in the region of the maxillary artery on the right and left sides, indicators of linear blood flow velocity in the region of the external carotid artery corresponding to the age norm, and asymmetry of the readings of the linear blood flow velocity in the region STI maxillary artery on the right and left sides of not less than 30% are diagnosed with dysfunction of the temporomandibular joint. 2. The method according to claim 1, characterized in that the measurement of blood flow is performed using ultrasound dopplerography.