RU2515504C2 - Method for using soft masticatory test in masticatory electromyography in patients with mobile teeth - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to dentistry, and aims at assessing the functional state of the masticatory muscles in the patients with mobile teeth accompanying a periodontal pathology, and at orthodontic treatment of malocclusion. Silver-chloride unipolar electrodes with a conductive gel are applied on motor points of the proper masticatory and temporal muscles are fixed to the facial skin with an adhesive plaster. The patient is presented with the functional test that is chewing 10 peeled pine nuts at random. The EMG is being recorded until the chewing process is completed.

EFFECT: through using 10 pine nut kernels as a test material, the method enables obtaining the objective assessment of the masticatory apparatus in the patients with mobile teeth accompanying a periodontal pathology, and in orthodontic treatment.

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Description

The invention relates to medicine, namely to dentistry, and is intended to determine the functional state of the masticatory muscles in individuals with periodontal pathology and in orthodontic treatment of malocclusion.

In all of the above cases, the occurrence of tooth mobility and a decrease in the functional endurance of their supporting tissues to chewing load occur.

The proposed method of "soft" chewing samples makes it possible to determine the bioelectric activity of the masticatory muscles during chewing in patients with moving teeth using electromyography (EMG).

The invention relates to medicine, in particular to dentistry, and allows you to determine the bioelectric activity of the masticatory muscles when recording EMG using a "soft" chewing test in patients with moving teeth.

The patient is given 10 grains of pine nuts, and on the command of a doctor, he begins arbitrary chewing, while the electromyograms (EMG) of the masticatory muscles are recorded.

Known methods for the study of masticatory muscles using chewing samples with almond nuts (Gelman S.E., 1932), hazelnuts (Rubinov I.S., 1935), gelatin cylinders, hardened with formalin (Ryakhovsky AN Modification of the chewing test // Dentistry . - 1989. - No. 5. - S. 61-66.), Chewing gum (Ferrario VF et al., 1999).

The disadvantage of the above methods of using solid test materials as a chewing test for chewing muscle EMG is a large mechanical load on the supporting tissues of the teeth, which is a traumatic factor in their mobility. In addition, in such conditions, patients reflexively avoid chewing hard foods, trying to reduce the mechanical stress on the teeth, due to painful sensations and the risk of dislocating them from the hole.

The disadvantage of the method of using chewing gum as a chewing test is its non-physiological nature due to the monotonicity of the mechanical load on the supporting tissues of the teeth, in contrast to the decaying force of the chewing load when chewing any food.

The technical result of the invention is the ability to diagnose the functional state of the masticatory muscles in patients with inflammatory periodontal diseases of moderate and severe degree, with orthodontic treatment of malocclusion and, on the basis of this, obtain objective data on the state of masticatory function in an individual.

The technical result is expressed in the recording of electromyograms of the actual masticatory and temporal muscles and the determination of neuromuscular coordination in the work of the masticatory apparatus in patients with periodontal pathology and in the process of orthodontic treatment of malocclusion.

The essence of the invention lies in the fact that in patients with mobile teeth (for periodontal diseases and at the stages of orthodontic treatment), in connection with the weakening of their supporting tissues, EMG - studies of the chewing apparatus are carried out using a soft chewing sample, which is physiological for this group of patients, unlike a chewing test with hard test materials and chewing gum.

Surface electromyography of the proper masticatory and temporal muscles (EMG) was recorded on a 4-channel Synapsis electromyograph (Taganrog, Russia) using a unipolar technique.

Based on the recorded EMG, the mean amplitudes of the temporal and chewing muscles were obtained during arbitrary chewing of pine nuts, as well as the asymmetry coefficient (Cass), and the corresponding graphical EMG records and diagrams reflecting the functional activity of the chewing and temporal muscles in patients with moving teeth were obtained.

The method allows to obtain an objective assessment of the state of the masticatory apparatus in patients with periodontal pathology and during orthodontic treatment and is carried out as follows: silver chloride unipolar electrodes with conductive gel are applied to the motor points of the masticatory and temporal muscles, which are fixed to the face skin with an adhesive plaster. The patient is offered a functional test: randomly chew 10 peeled pine nuts. EMG recording is carried out until the complete chewing process.

Example 1. Patient G.L.A., born in 1967 Diagnosis: chronic generalized periodontitis of moderate severity, in remission. K05.31 (code for the International Classification of Dental Diseases ICD-10C).

In the oral cavity: in the frontal part of the dentition of the upper and lower jaw there are diastema and trem; exposure of the roots of the teeth in the upper and lower jaw is observed on average 1/4 of the root length. Tooth mobility 2 degrees.

To exclude increased mechanical stress and pain, the patient is recommended to conduct a soft chewing test.

With a soft chewing test with pine nuts, the average amplitude of bioelectrical activity (BEA) of the right chewing muscle was 746 μV, the left - 701 μV and Cass was 1.06. The value of the average amplitude of the BEA of the left temporal muscle was 1276 μV and prevailed over the right temporal muscle - 1050 μV. The asymmetry coefficient (Cass) of the masticatory muscles proper was 0.9, the temporal muscles 0.8 (Fig. 1). Conclusion: the coordinated work of the chewing apparatus, the right-sided type of chewing, are disrupted.

Example 2. Patient C.I.A., born in 1981 Diagnosis: crowded position of the front group of teeth on the upper jaw, physiological occlusion in the lateral departments. K 07.2 (code for the International Classification of Dental Diseases ICD-10 C).

In the oral cavity: “Alexander Signature Line” bracket system is installed on the teeth of the upper jaw. Mobility of teeth of 1 degree.

In a chewing test with pine nuts, the average amplitude of bioelectrical activity (BEA) of the right chewing muscle was 549 μV, the left chewing muscle was 762 μV; the right temporal muscle - 524 μV, the left temporal muscle - 746 μV. The Kass index in the test with pine nuts was 0.72 in the actual masticatory muscles and 0.70 in the temporal muscles (Fig. 2). Conclusion: the coordinated work of the chewing apparatus, the left-sided type of chewing, are disrupted.

Thus, the proposed method allows to obtain an objective assessment of the state of the masticatory apparatus in patients with moving teeth during periodontal pathology and orthodontic treatment based on recording the total bioelectric activity of the main masticatory muscles during a gentle physiological masticatory load (soft chewing test with pine nuts). The method is easy to use, requires no special devices and is available to use.

Claims (1)

A method of applying a soft chewing test in an electromyographic study of masticatory muscles in patients with moving teeth in inflammatory periodontal diseases and in orthodontic treatment of malocclusion, characterized in using 10 pine nut kernels as test material, which is a physiological and gentle chewing load for unstable teeth.

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