RU2623309C2 - Method for measurement of tongue muscle pressure force on adjacent segments of oral cavity anatomical formations - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: at least two force sensors are inserted into the patient oral cavity, according to the number of selected segments of adjacent anatomical formations of the oral cavity. Each sensor is mounted on a separate holder, which is made in the form of plates, the shape and size of which correspond to the selected segments of anatomical formations. They are fastened on a removable splint of the lower row of teeth to measure the tongue muscles pressure on the lower frontal and lateral teeth. To measure the tongue muscles pressure on the hard palate and the upper frontal and lateral teeth, a cantilever in the form of a springing wire or tape is fixed on the holder. The patient locks the removable splint position with the jaws closed. Each force sensor is attached to a removable splint through a connector with a possibility of forming a parallel channel. When the patient reads a functional sample, an electrical signal is read from each force sensor for a selected period of time. The measured value is integrated and displayed in the mean values of the tongue muscles pressure force. Removable splints, holders, force sensors and connector are made replaceable for each new measurement of the tongue muscles pressure force. The position, shape and dimensions of holders are kept constant. Each of the force sensors on the holder is located in the center of the holder or offset from the center.

EFFECT: method allows qualitative measurement of the tongue muscles pressure force on segments of adjacent anatomical formations of the oral cavity by increasing the number of points of tongue contact with the force sensors on the oral cavity surface.

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Description

The invention relates to the field of medical equipment and can be used in a general medical clinic, in particular in a clinic of orthopedic and therapeutic dentistry.

A known method of measuring the pressure force of laminar dentures on anatomical formations of the oral cavity, which consists in the fact that the force sensors are distributed inside the oral cavity; the signals of the force sensors are processed by hardware (see, for example, AS No. 171961 of the USSR, author V.T. Korobko “Method for recording pressure on supporting tissues with a plate prosthesis”, published 06/22/1965, bulletin No. 12). The disadvantage of this method is the inability to measure the pressure force of the muscles of the tongue.

The closest to the claimed invention by the totality of the features of the same purpose and adopted as a prototype is a method of measuring the pressure force of the muscles of the tongue, which consists in the fact that a force sensor is introduced into the patient’s oral cavity, which converts the mechanical force into an electrical signal and is electrically connected to the connector outside the cavity mouth, and a force sensor mounted on the holder on the side of contact with the tongue; the patient fixes the position of the holder by closing the jaws; measure the pressure force of the muscles of the tongue with a force sensor while the patient is performing functional tests; an electrical signal proportional to the pressure force of the muscles of the tongue is transmitted from the force sensor through the connector and cable to the hardware; they convert the electrical signal with hardware and display the measured value in units of force (see Urakova E.V. Morphofunctional assessment of the language and its clinical value. Thesis for the degree of candidate of medical sciences. Specialty 14.00.21 - dentistry. Kazan, 1998, p. 131).

The disadvantage of this method is that it measures the pressure force of only one muscle group of the tongue, acting in a direction perpendicular to the frontal plane of the dentition. Moreover, in this direction, the position of the force sensor is not fixed, which is the reason for the additional error of the force measurement caused by the deviation of the axis of the force sensor from the perpendicular to the frontal plane both during measurement and during repeated measurements.

The technical result consists in measuring the pressure force of the muscles of the tongue on selected segments of adjacent anatomical formations of the oral cavity and in reducing the measurement error.

The specified technical result is achieved by the fact that a force sensor is inserted into the patient’s oral cavity, electrically connected to the connector outside the oral cavity, while the force sensor is mounted on the holder on the contact side of the tongue, and the patient fixes the position of the holder by closing the jaws, measure the pressure of the muscles of the tongue with a sensor efforts during the patient’s performance of functional tests and transmit an electrical signal proportional to the pressure force of the muscles of the tongue, through the connector and cable to the hardware, convert the electrical signal al and display the measured value in units of force, the difference is that at least two force sensors are inserted into the oral cavity according to the number of selected segments of adjacent anatomical formations of the oral cavity, each of which is mounted on a separate holder, which are made in the form of plates, shape and the size of which corresponds to the selected segments of the anatomical formations, and fix them on a removable tire of the lower row of teeth to measure the pressure force of the muscles of the tongue on the lower frontal and lateral teeth, to measure the pressure tongue muscles on the hard palate and the upper frontal and lateral teeth on the holder fix the console in the form of a spring wire or tape, and the patient fixes the position of the removable tire by closing the jaws, while each force sensor is attached to the removable tire through the connector with the possibility of forming a parallel channel, with each force sensor, when a patient pronounces a functional test, reads an electrical signal for a selected period of time, integrates and displays the measured value in average pressure muscles of the tongue, removable tires, holders, force sensors and a connector are made interchangeable for each new measurement of the pressure force of the muscles of the tongue, while the position, shape and dimensions of the holders are kept constant, each of the force sensors on the holder is located in the center of the holder or offset from the center .

The invention consists in the following. The tongue changes its shape and size with increasing age of the person, which is accompanied by a change in the size and shape of the palate. Accordingly, the force of pressure of the tongue on adjacent anatomical formations of the oral cavity, namely on the hard palate and the frontal and lateral teeth of both jaws, with increasing age and depending on the integrity of the teeth, the nature of the bite will change. The change in the pressure force of the tongue can be traced by performing certain functional tests, such as swallowing, pronunciation of individual sounds and letters, etc.

In order to measure the pressure force of the tongue in the prototype, a force sensor is inserted into the oral cavity. A force sensor converts mechanical force into an electrical signal. However, from all possible directions of the pressure force of the muscles of the tongue with such a sensor, only the pressure force can be measured in the direction perpendicular to the frontal plane of the dentition. The error in measuring the pressure force of the muscles of the tongue depends on the degree of deviation of the axis of symmetry of the force sensor holder from the perpendicular to the frontal plane of the dentition, and since the position of the force sensor in this position is not fixed (only the depth of insertion of the force sensor holder into the oral cavity is fixed), an additional measurement error. It is known that the pressure force of the muscles of the tongue in the perpendicular direction to the frontal plane of the dentition in an area of one square centimeter differs from the pressure on the midline of the upper front teeth by about 450 grams (see, for example, I. Yamashev, R. Matveev. C. Language: clinical and functional methods for diagnosing pathological conditions. - Cheboksary: AU Chuvashia IUV, 2012. - P. 48). It can be shown that when the length of the force sensor holder is, for example, 10 cm, and assuming that the distribution of the tongue pressure force on the segment from the holder axis to the midline of the upper front teeth is uniform, we obtain an estimate of the relative error in measuring the pressure force when the holder deviates from the perpendicular direction to the frontal plane of the dentition, which is at least 10-15% / degree.

Diagnosis of the state of muscle tone of the tongue only by measuring the pressure in one direction is insufficient. Therefore, it is necessary to introduce several force sensors, and use holders that support selected segments of adjacent anatomical formations of the oral cavity — the frontal and lateral teeth of the lower and upper jaws of the inner oral cavity and palate — as holders. Force sensors are fixed on the surface of each plate from the side of contact with the tongue, and each force sensor is electrically connected to the connector. The shape and size of the plates correspond to the selected segments of the anatomical formations.

Fixation of the holders with force sensors is carried out using a removable tire superimposed on the lower row of teeth. The first part of the holders is fixed on a removable tire with overlapping segments of the surfaces of the lower frontal and lateral teeth, and the holders, overlapping segments of the surface of the hard palate and upper frontal and lateral teeth, are attached to the removable tire with a console in the form of a spring wire or tape. The patient fixes the position of the removable tire by closing the jaws and during repeated measurements the holders overlap the same segments of the anatomical formations of the oral cavity.

When a removable tire with holders and force sensors is introduced into the oral cavity (the connector remains outside the oral cavity) and when the jaws of the console are closed in the form of a spring wire or tape, they begin to bend inside the oral cavity due to the pressure of the segments of the anatomical formations on the holders, tend to turn in the opposite direction and the holders are pressed against the segments of the oral cavity (hard palate and upper teeth), and the removable splint is pressed against the lower row of teeth, as shown by the arrows in FIG. 3. Thus, with each repeated insertion of the removable tire with holders and force sensors into the patient’s oral cavity, the places where the plates come in contact with segments of the surface of the oral cavity will be repeated, which reduces the measurement error of the tongue pressure force.

Each force sensor is electrically connected to a connector. When performing certain functional tests, the patient’s tongue presses on segments of adjacent anatomical formations of the oral cavity with different strengths. Measurement of the pressure force of the muscles of the tongue is carried out simultaneously by all sensors. The measured electrical signals are transmitted through a parallel channel, with each sensor transmitting a signal in its channel proportional to the pressure force of one of a segment of an adjacent anatomical formation. Electrical signals through the connector through the cable are sent to the hardware and converted by the hardware in parallel. The hardware reads the electrical signals of each sensor for a selected period of time, converts them to the desired shape and duration, integrates and displays the measured values in average strength values.

Due to the discrepancy in the structure of the internal oral cavity in different patients, the greatest change in the pressure force of the muscles of the tongue appears at different points inside the selected segment of the oral cavity, overlapped by the holder. Removable tires, holders and force sensors are interchangeable to search for the greatest change in the pressure force of the muscles of the tongue. The resolution of the method depends on their number N. The greater N, the more accurate the diagnosis. In each removable removable tire with holders and force sensors, the overlap of the selected segments of the anatomical formations of the oral cavity, the shape and size of the holders are kept constant, and the force sensors are either located in the center of the holder, or offset from the center. An example of the location of the force sensor on the holder is shown in FIG. 4. With each removable removable tire with holders and force sensors, the pressure of the muscles of the tongue is measured.

In FIG. 1 shows a meter that implements a method of measuring the pressure force of the muscles of the tongue on segments of adjacent anatomical formations of the oral cavity.

In FIG. 2 shows a removable tire with holders and force sensors in the frontal plane of the projection (Fig. 2a) and in the profile plane of the projection (Fig. 2b). The electrical connection of the force sensors with the connector is not conventionally shown.

In FIG. 3 shows the position of the removable tire, holders and force sensors in the patient's oral cavity.

In FIG. 4 shows the position of the force sensor on the holder for removable removable tires with holders and force sensors: a) when the force sensor is located in the center of the holder; b) - with the location of the force sensor with an offset relative to the center.

The implementation of the method of measuring the pressure force of the muscles of the tongue on segments of adjacent anatomical formations of the oral cavity is shown by the example of the design of a removable tire with six holders and with force sensors located in the center of the holders. The meter contains force sensors 1, holders 2 in the form of a plate, a removable tire 3 of the lower row of teeth, a console 4 in the form of a spring wire or tape, an electrical connector 5, a cable 6 with a connector, a hardware pre-converter 7, the first data bus 8, an integrator unit 9, a second data bus 10, an output converter 11, a third data bus 12, an indicator 13 (see Fig. 1).

The measurement is carried out as follows. A cable 6 with a connector (for example, a USB connector) connects hardware to connector 5. A removable bus 3 with holders 2 and force sensors 1 is inserted into the patient’s oral cavity (see Fig. 3), a removable bus 3 is put on the lower row of teeth, and the patient closes the jaws to compress the removable tire 3 upper and lower rows of teeth. Connector 5 is located outside the oral cavity. The position of the removable tire with six holders and six force sensors in the frontal plane of the projection and in the profile plane of the projection is shown in FIG. 2a) and 2b). Holders 2 with force sensors 1 overlap segments of adjacent anatomical formations of the internal oral cavity, and the segments of the frontal and lateral teeth of the lower row overlap with the holders attached to the removable tire 3, and the segments of the frontal and lateral teeth of the upper row and palate overlap with the holders attached to the removable tire 3 console 4 in the form of a spring wire or tape. The consoles 4 bend, tend to straighten and press the holders 2 with force sensors 1 to the segments of the frontal and lateral teeth of the upper row and palate.

The patient performs a functional test - makes sounds or puts pressure on the tongue to certain segments of the internal cavity of the mouth. The tongue exerts pressure on the force sensors 1, which convert the force of the tongue pressure into an electrical signal. Each force sensor 1 is electrically connected to connector 5 to form, in this example, six independent parallel channels. Electrical signals via cable 6 with a connector are supplied to the hardware pre-converter 7, where they are converted to specific voltage levels and durations. Then, along the first data bus 8, the converted electrical signals are fed to hardware integrators 9, and the signal from each force sensor is fed to its own integrator, in our example, 9.1-9.6. The signals from the integrators 9 via the second data bus 10 are fed to the output transducer 11, where they are converted to the form corresponding to the normal operation of the selected indicator of the measurement results 13 of the hardware. Electrical signals to the indicator 13 are received via the third data bus 12 from the output transducer 11. The indicator 13 displays the pressure force of the muscles of the tongue in the selected unit of force.

After taking measurements with one removable bus 3 with holders 2 and force sensors 1, the measurement process is repeated with other removable tires with holders and force sensors, but force sensors 1 on holders 2 are in this case offset from the center, as shown in FIG. 4. An increase in the number of points of contact between the tongue and the force sensors on the surface of the oral cavity improves the quality of diagnosis of diseases.

Claims (1)

A method for measuring the pressure force of the muscles of the tongue on segments of adjacent anatomical formations of the oral cavity, which consists in the fact that a force sensor is inserted into the patient’s oral cavity electrically connected to the connector outside the oral cavity, the force sensor being fixed to the holder on the tongue-contact side, and the patient fixes the position of the holder by closing the jaws, measures the pressure of the muscles of the tongue with a force sensor while the patient performs functional tests and transmits an electrical signal proportional to the pressure of the muscles of the tongue through the plug and cable to the hardware, convert the electrical signal and display the measured value in units of force, characterized in that at least two force sensors are inserted into the oral cavity according to the number of selected segments of adjacent anatomical formations of the oral cavity, each of which is mounted on a separate holder, which are made in the form of plates, the shape and size of which correspond to the selected segments of the anatomical formations, and fix them on a removable tire of the lower row of teeth to measure the pressure force of the muscles of the tongue the lower frontal and lateral teeth, to measure the pressure force of the muscles of the tongue on the hard palate, and the upper frontal and lateral teeth on the holder fix the console in the form of a spring wire or tape, and the patient fixes the position of the removable tire by closing the jaws, with each force sensor attached to the removable tire through the connector with the possibility of forming a parallel channel, from each force sensor when pronouncing a functional test by a patient, an electrical signal is read for a selected period of time, integrated and the measured value is fermented in the average values of the pressure of the muscles of the tongue, removable tires, holders, force sensors and the connector are made interchangeable for each new measurement of the pressure of the muscles of the tongue, while the position, shape and dimensions of the holders are kept constant, each of the force sensors on the holder is located center of the holder or offset from the center.

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