RU2790546C1 - Method for performing electromyography of masticatory and temporal muscles - Google Patents

Abstract

FIELD: medicine.

SUDSTANCE: invention relates to medicine, namely to dentistry, and can be used for representative electromyography (EMG) of masticatory and temporal muscles. The sensors are fixed in the center of the masticatory and temporal muscles on the patient's head using a fixing device containing elastic bands connected to each other. The fixing device is a hoop for fastening around the patient's head from an elastic band, transversely connected along the parietal part of the head with another elastic band. On the hoop on both sides in the projection of the temporal part with a plastic sleeve is placed with the possibility of horizontal movement along the hoop. A metal plate with a rectangular slot in the central part is attached to the sleeve with a clamping screw. The plate is made with the possibility of individual adjustment and movement along the slot in the vertical direction. A wireless sensor for EMG is fixed to the plate with a fixing screw in the projection of the temporal muscle, pressed against the skin or scalp of the patient. A similar metal plate is fixed to the metal plate with a clamping screw, in which a wireless sensor is fixed with a clamping screw for conducting EMG, pressed against the patient's skin in the projection of the masticatory muscles. Metal plates are made with the possibility of moving in vertical and horizontal directions relative to each other with individual adjustment and fixation by means of clamping screws. A graduated centimeter scale is made along the length of the plates on their outer surface. An EMG study is carried out at rest and during functional loads.

EFFECT: simplification of the research methodology is achieved with a reduction in the time for installing sensors, as well as increasing the reliability of the results of the study by fixing the sensors with the possibility of a representative EMG of the masticatory and temporal muscles under unsatisfactory conditions for fixing the electrodes using an adhesive base.

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Description

The invention relates to medicine, namely to dentistry, and can be used for representative electromyography of masticatory and temporal muscles.

When conducting functional studies of masticatory muscles, electromyographs with several skin sensors are widely used in dental practice. However, a set of such equipment does not include devices for fixing sensors, which complicates the research methodology. In particular, it takes a lot of time to install them, and due to the mobility of the sensors, the reliability of the research results is reduced. Also, it is difficult to fix sensors for electromyography on the scalp and in men with a beard.

Currently, electrodes are attached to the object under study in various ways: for example, using glue, an electrically conductive gel, or using various auxiliary devices.

The prior art method of electromyography of the lateral pterygoid muscles, including the introduction of electrodes into the oral cavity, the application of surface electrodes on the skin of the face in the projection of the zygomatic bone on both sides, the determination of the frequency and amplitude of the action potentials of muscle fibers at rest and during physical effort, characterized in that bimanual palpation of the lateral pterygoid muscle is performed on both sides, an individual impression tray is made from a plaster impression, where the anatomical formations of the area of palpation of the lateral pterygoid muscle are visualized, the tray is corrected in the oral cavity using articulating paper to determine the location of the electrodes, a device is inserted into the oral cavity, which contains an individual impression tray, on the surfaces of which, pressed tangentially to the area of the lateral pterygoid muscle, semilunar cutouts are made in the palpation area, in which there are 2 round electrodes, the wires from which pass along the outer th sides of the spoon, on each of which there are two clamps in the form of hooks, after which the device is pressed against the hard palate (RF Patent No. 2312588 dated 12/20/2007).

A known method of electromyography (EMG) using surface electrodes. Such electrodes are applied to the skin over the region of the motor point of the muscle. Before applying the electrode, the skin is wiped with alcohol and moistened with an isotonic sodium chloride solution. The electrode is fixed over the muscle using rubber bands, cuffs or adhesive tape. If a long-term study is required, a special electrode paste used in electroencephalography is applied to the area of skin-electrode contact. (B.M. Gekht, L.F. Kasatkina, M.I. Samoilov, A.G. Sanadze. Electromyography in the diagnosis of neuromuscular diseases, 1997, Taganrog).

From the prior art, a device for fixing electrodes is known, which is an elastic tape, characterized in that the device additionally contains a second elastic band for fixing it on the back of the head, rigidly fastened to the first tape at an angle of 40-45° for fixing under her chin, the ends of the tapes are provided Velcro fasteners (Utility Model Patent No. 97914 dated September 27, 2010).

The problem to be solved by the invention is a representative electromyography of masticatory and temporal muscles.

The technical result of the invention is a simplification of the research methodology with a reduction in the time for installing sensors, as well as an increase in the reliability of the research results by fixing the sensors with the possibility of representative EMG of the masticatory and temporal muscles under unsatisfactory conditions for fixing the electrodes using an adhesive base.

The technical result of the invention is achieved due to the fact that, the method of conducting electromyography of the masticatory and temporal muscles is carried out as follows, the sensors for conducting EMG research are fixed on the patient's head using a fixing device containing elastic bands connected to each other, and an EMG study is carried out in the state at rest and during functional loads, characterized in that the sensors are fixed in the center of the masticatory and temporal muscles, determined by palpation, and the fixing device is a hoop for fastening around the patient's head, made of an elastic band, transversely connected along the parietal part of the head with another elastic band, on elastic hoop on both sides in the projection of the temporal part there is a plastic sleeve, the thickness of which corresponds to the thickness of the sensor of the device used for EMG, with the possibility of horizontal movement along the hoop, a metal plate with a clamping screw is attached to this sleeve with a clamping screw with a rectangular slot in the central part, while the plate is made with the possibility of individual adjustment and movement along the slot in the vertical direction, a wireless EMG sensor is fixed to this plate with a fixing screw in the projection of the temporal muscle, tightly pressed by the receiving electrodes to the skin or scalp of the patient's head , a similar metal plate is also fixed to the metal plate with a clamping screw, in which a wireless sensor for conducting EMG is fixed with a clamping screw, tightly pressed by the sensing electrodes to the patient's skin in the projection of the masticatory muscles, while the metal plates are made to move in vertical and horizontal directions relative to each other each other, individually adjustable and fixed by clamping screws, with a graduated centimeter scale along the length of the plates on their outer surface.

Pressing the conductive electrodes of the wireless myograph sensors to the patient's skin using the proposed method makes it possible to conduct a study in conditions of poor fixation with adhesive compositions, for example, in patients with a beard or hair in the area of the temporal muscles.

Moving sensors on metal plates in vertical and horizontal directions, with the possibility of fixing them with clamping screws, allows using the method in different patients.

The centimeter scale applied to the outer surface of the metal plates allows repeated myography at different periods of treatment in the same patient, which is important for the representativeness of the study.

The method of conducting electromyography of masticatory and temporal muscles is carried out as follows:

1. A hoop made of an elastic band, transversely connected along the parietal part of the head with another elastic band, is fixed on the patient’s head, plastic bushings are placed on the elastic hoop from both sides in the projection of the temporal part, the thickness of which corresponds to the thickness of the sensor of the device used for EMG.

2. A metal plate with a rectangular slot in the central part is attached to the plastic bushings with a clamping screw.

3. A wireless sensor for EMG is fixed to this plate with a fixing screw in the projection of the temporal muscle, tightly pressing it with receiving electrodes to the patient's scalp.

4. Also, a similar metal plate is fixed to the metal plate with a clamping screw, in which a wireless sensor for EMG is fixed with a clamping screw, tightly pressing the receiving electrodes to the patient's skin in the projection of the masticatory muscles.

5. Preliminarily, the middle of the examined muscles is determined by palpation, and the sensors will be treated with an electrically conductive gel.

6. Conduct surface electromyography of the temporal and masticatory muscles.

7. If necessary, repeat the studies at different periods of treatment, setting the sensors of the device on a graduated scale, at the same values.

Clinical example.

Patient C, 35 years old, came to the clinic with complaints of pain in the masticatory muscles in the morning and gnashing of teeth at night. Examination revealed signs of hypertension of masticatory muscles. The patient was referred for surface electromyography of masticatory and temporal muscles. A hoop made of an elastic band was fixed on the patient's head, transversely connected along the parietal part of the head with another elastic band. Vertical metal plates were fixed to the plastic bushings with clamping screws on both sides of the face through rectangular slots in the projection of the temporal and masticatory muscles. Horizontal metal plates were fixed to the vertical metal plates with clamping screws through rectangular slots in the projection of the patient's masticatory muscles. In the slots of vertical and horizontal metal plates, the sensors of the Kolibri wireless monitoring complex for electrophysiological signals (Neurotech, Russia) were fixed with clamping screws, tightly pressing them to the patient’s face with electrodes, having previously installed them in the middle of the temporal and masticatory muscles, previously determined by palpation and treated with an electrically conductive gel. Conducted surface electromyography of the temporal and masticatory muscles. Electromyograms were recorded in a sitting position without head support. The activity of masticatory muscles was recorded simultaneously from four muscles: masticatory and anterior bundles of temporal muscles on the right and left. The symmetry indices between the left and right masticatory and left and right temporal muscles were calculated, as well as the average bioelectrical activity (ApBEA, μV) of all four muscles. The first measurement of EMG activity of masticatory muscles was carried out in a state of relative physiological rest. Then, to assess the influence of the occlusive factor on the bioelectrical activity of the chewing muscles, a study was carried out in habitual occlusion and with maximum volitional compression of the jaws. All studies were conducted within 10 seconds.

The values of the location of the sensors, recorded on a centimeter scale, were recorded in the patient's card.

Based on the results of the studies, a treatment was adopted on the need to make a muscle relaxant night mouthguard for the patient.

Similar studies of electromyography were performed at the terms of treatment after 3, 6 and 12 months, pre-sensors, setting in accordance with the location values recorded in the medical history.

In both cases, the probes maintained contact with the skin and representative electromyography values were obtained.

According to the results of the study of the average bioelectrical activity of the masticatory muscles (CrBEA), the mean value at rest, before treatment, was 68. After the start of treatment with an occlusal splint, a decrease in CrBEA at rest after 3 months by 7% was recorded; after 6 months by 11%; after 12 months by 14%.

The average value of the index of symmetry of the masticatory muscles was 91%, at 3 months after the start of treatment, the indicator increased slightly by 3%, after 6 months by 4%. At the end of treatment, a significant increase in the symmetry of the masticatory muscles by 4% was recorded.

The average value of the symmetry index of the temporal muscles was also 90%, however, after 3 months after the start of treatment, the work of the temporal muscles became 3% more symmetrical, and after 6 months the indicator increased by 4%, and after 12 months, the increase in the symmetry index increased by 6 %.

Claims (1)

A method for performing electromyography of the masticatory and temporal muscles, characterized in that the sensors for conducting an EMG study are fixed on the patient's head using a fixing device containing elastic bands connected to each other, and an EMG study is performed at rest and under functional loads, characterized in that that the sensors are fixed in the center of the masticatory and temporal muscles, determined by palpation, and the fixing device is a hoop for fastening around the patient's head, made of elastic tape, transversely connected along the parietal part of the head with another elastic band, on an elastic hoop on both sides in the projection of the temporal part a plastic sleeve is placed, the thickness of which corresponds to the thickness of the sensor of the device used for conducting EMG, with the possibility of horizontal movement along the hoop, a metal plate with a rectangular slot in the central part is attached to this sleeve with a clamping screw, while the plate is not with the possibility of individual adjustment and movement along the slot in the vertical direction, a wireless sensor for EMG is fixed to this plate with a fixing screw in the projection of the temporal muscle, tightly pressed by the receiving electrodes to the skin or scalp of the patient's head, and a similar metal one is fixed to the metal plate with a clamping screw a plate in which a wireless EMG sensor is fixed with a clamping screw, tightly pressed by the sensing electrodes to the patient's skin in the projection of the chewing muscles, while the metal plates are made to move in the vertical and horizontal directions relative to each other, with individual adjustment and fixation by clamping screws , with a graduated centimeter scale along the length of the plates on their outer surface.