RU2496447C1 - Device for determining pressure of teeth - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to field of medicine, namely to dentistry, in particular to diagnostic devices and can be applied in surgical, therapeutic, orthopedic dentistry and orthodontics. Device for determining teeth pressure includes tensometric sensor placed between double bar of equal strength, on free ends of which bite sites are placed. Device includes functional units and source of electric power. Double bars are connected to handle. Signal from tensometric sensor MLB13 is received in functional units, which consist of module of input of signals MV110-2224.1TD, operator panel SMI1, interfaces AC4 transformer and personal computer PC, which has USB port. Bite sites are made from hard leather or plastic. Handle is made from hollow titanium pipe.

EFFECT: claimed device makes it possible to obtain novel technical result - to immediately process, transmit and store examination data in electronic form, prevent dentition traumas during examination.

2 cl, 3 dwg, 1 ex

Description

The invention relates to medicine, namely to dentistry, in particular to diagnostic devices, and can be used in surgical, therapeutic, orthopedic dentistry and orthodontics.

According to various authors, the pathology of the temporomandibular joint ranks third among dental diseases after caries and periodontal diseases (Bulycheva EA, 2007). Diagnosis, a dynamic study of the treatment results in patients with diseases of the temporomandibular joint, especially in groups with a significant functional load on the speech apparatus, is an unresolved problem and is constantly discussed in the domestic and foreign literature (Anikeev Yu.M., 2004, Akhmetsafina A. N., 2010, Kobayashi Y., 1999).

The first gnatodynamometer was designed in 1895 by Black (Black G.V.) Zhulev E.N. Fixed prostheses: Theory, clinic and laboratory equipment. - N. Novgorod: Publishing house of the NMMD, 1995 .-- 365 p. The device consisted of two bite plates separated by a spring. When the plates were compressed with teeth, the arrow connected with the spring showed the force of chewing pressure in kilograms on the scale. In subsequent years, various modifications of this device were proposed. All of them recorded the load developed by the masticatory muscles during compression of the jaws. In this case, the load falling on the tooth was recorded only in the vertical direction.

The well-known electronic gnathodynamometer Vizir (Education, Science and Practice in Dentistry, M., 2004, Publishing House of the Moscow State Medical University, p.93-95) with autonomous power supply from a battery with a nominal voltage of 9.6 V, consisting of a strain gauge and functional units , equipped with digital indexing of the results of measurements of force in newtons.

The disadvantage of this device is that the result is fixed on the scale of the device, data is not saved. The amount of endurance of periodontal tissues to the maximum vertical load is expressed in newtons (N).

The most perfect is the proposed L.M. Perzashkevich and I.S. Ruby electronic gnatodynamometer (No. 6 (28) “Dentistry today” June 2003, p.5). It consists of a sensor placed between the teeth, which is connected to an electric generator and a microammeter. A design feature of the device is a sensor (bite pad) containing a flat brass plate and an inductor mounted in the supper. To determine the periodontal endurance of various teeth, a special tip is used, which is mounted on the sensor of the device. The working part of the tip, depending on the tasks of the study, can be softened with an elastic band or remain rigid (metal).

The disadvantage of this device is that the result is fixed on the scale of the device, data is not saved.

The closest is the GDM-1000 electrognathodynamometer, made in the form of a desktop device mounted on the table of a dentist. The gnatodynamometer consists of a strain gauge sensor, functional units located on three printed circuit boards, and a battery of batteries. On the back wall of the gnatodynamometer there is a plug for connecting the charger, which is powered by a network of 50 Hz 220 V. On the right side wall of the gnatodynamometer is a holder in which the sensor is placed. The main part of the sensor is an elastic element in the form of a double beam of equal resistance. At the free ends of the beam, bite pads are placed that are placed between the antagonizing sections of the dentition and perceive the force of the maxillofacial muscle apparatus on the sensor. The gnatodynamometer provides only two modes of measuring force: the mode of measuring the current value and the mode with fixing the maximum value (100-1000 N with a resolution of 10 N). The permissible relative error of the gnatodynamometer is ± 10%. Operating conditions at temperatures from +10 to +40.

The disadvantage is the measurement in Newtons, the massiveness of the device and the fact that the device is installed stationary.

The objective of the invention is the creation of a highly efficient device designed to record the pressure created by the teeth when performing chewing movements, with the ability to process the data by automatically recording and saving to a personal computer.

The task is achieved by a device for determining tooth pressure, including a strain gauge located between a double beam of equal resistance, at the free ends of which are located bite pads. The device includes functional units, a power source. Double beams attached to the handle. The signal from the strain gauge sensor MLB13 of TOKVES LLC enters the functional units consisting of the signal input module MB 110-2224.1TD of LLC PO Aries, the operator panel of the media1 LLC PO PO Aries, the converter of interfaces AC4 of LLC PO Aries, and a personal computer PC having a USB port. Bite pads are made of hard leather or plastic.

The handle is made of a hollow titanium tube.

The novelty of the invention.

- Double beams attached to the handle. It is convenient to keep when researching.

- The signal from the strain gauge enters the functional units, consisting of the signal input module MB 110-2224.1TD LLC “PO Aries”, the operator panel of the media1 LLC “PO Aries”, the AC4 interface converter LLC “PO Aries” and a personal computer that has a USB port . Functional nodes are designed for bi-directional data exchange between USB and RS485 interfaces with automatic detection of transmission direction. When connecting the device to a PC, the virtual COM port appears in the latter, which allows using additional information systems (SCADA, configurators) working with the hardware COM port without additional adaptation.

The bite pads are made of hard leather or plastic for the prevention of chipped teeth and gum damage when the bite pads slide off the dentition during examination.

The handle is made of a hollow titanium tube, which reduces its weight and provides strength.

The significance of the differences of the claimed device to achieve the task is confirmed by the absence in the patent and scientific literature of information about a similar device with the same set of features.

The proposed device allows you to get a new technical result - to instantly process, transmit and store research data in electronic form, to prevent injuries of the dentofacial system in the study.

The data obtained allow us to create a database for the analysis of the mechanism of development of masticatory apparatus dysfunction in static and dynamic aspects.

The device is presented in Fig.1 and Fig.2, Fig.3a and Fig.3b.

Figure 1 presents a General view of the strain gauge and functional units.

Figure 2 - diagram of the operation of the device.

On figa is a diagram with the results of the examination from a computer display before treatment of the patient.

On figb - chart with the results of the examination from a computer display after treatment of the patient.

At the free ends of the beams 1 there are bite pads 2, which are placed between the teeth - antagonists, perceiving the strength of the masticatory muscles, which the patient develops when pressed until pain occurs in the temporomandibular joint (TMJ). The beams 1 are attached to the handle 3. When pressing the teeth on the bite pad 2, the elastic element of the sensor 4 deforms, which leads to a change in electrical resistance. An electrical signal occurs, which from the 4 MLB 13 sensor of TOK-VES LLC enters the functional blocks of the device, consisting of the input block of the strain gauge sensor 4, intended for bidirectional data exchange between USB interfaces, from the 5 MB 110-224.1 TD of LLC Aries LLC and RS485 of blocks 5 and 6. Block 5 measures the signal of the strain gauge sensor 4 and converts the measurement data into a physical quantity and transferring the measurement results to the RS485 network. Interface converter 7 AC 4 "Aries", with automatic detection of transmission direction. The signal enters the panel 6 of the media operator 1 "Aries", designed to display and edit the values of parameters received via the RS485 network. Block 7 is designed for mutual electrical conversion of signals from USB and RS485 interfaces with galvanic isolation of inputs between each other. The device automatically determines the direction of data transfer, which eliminates the need for additional control of data exchange and significantly reduces the time intervals (timeouts) between data frames. The device allows you to connect a personal computer with a USB port to the RS485 industrial network, while the device is powered from the USB bus. When connecting the device to a personal computer 8, the virtual COM port appears in the latter, which allows the use of information systems (SCADA, configurators) working with the hardware COM port without additional adaptation.

The device operates as follows. After checking the operation, in which the zero display of the digital display of the media operator’s panel 1 “Aries” is monitored, the bite areas of the sensor are installed between the antagonizing teeth or groups of teeth, and the subject maximizes the grip of the teeth. To increase the endurance of the periodontium of the dentition to the arising pressure of the masticatory muscles, a block of teeth is formed by applying special mouth guards to a group of functionally oriented antagonists: front teeth on the right and left side of the jaw. Since when combining teeth into blocks, periodontal endurance in relation to pressure increases sharply. The patient under study can stretch the muscles to the limit without any pain from the periodontium. The results of the study are recorded on a digital display in kg and are duplicated on a computer screen in the form of a graphic image shown in Fig.3. The norm is the pressure developed by the jaws of more than 30 kg. A computer file is created that is saved in the computer memory in Excel. After treatment, the study is repeated and the results obtained are compared.

Example 1. Patient S., applied for dental care with complaints of pain in the buccal region on the left, limitation of opening the mouth, for two weeks. The pain appeared after a long speech load. Locally, palpation of the masticatory muscle on the left revealed soreness, radiating to the left ear. The pain intensified when the head moved left and right. Based on complaints, anamnesis, clinical examination methods and an additional examination using a gnatodynamometer, the diagnosis was made: muscular-articular dysfunction. The pressure force of the teeth in all departments is reduced, especially on the left with respect to the norm of FIG. A computer file was created in the computer memory in Excel with the results of the examination before treatment of the patient. After the course of treatment and rehabilitation, including: splinting of the jaws, physiotherapy, myogymnastics and the complex of recommended exercises for chewing muscles, the patient has no complaints. According to the indicators of the gnatodynamometer, the pressure developed by the jaws is normal Fig.3b. A computer file was created in the computer memory in Excel with the results of the examination after treatment of the patient. Comparison of the obtained data before and after treatment.

Thus, the data of the indicators of the device allow for a clear, objective and reliable assessment of the treatment.

Claims (2)

1. A device for determining tooth pressure, including a strain gauge located between a double beam of equal resistance, on the free ends of which are placed bite pads, functional units, a power source, characterized in that the double beams are attached to the handle, the signal from the strain gauge MLB13 is transmitted functional units consisting of an MB 110-2224.1TD signal input module, a media1 operator panel, an AC4 interface converter and a PC personal computer with a USB port, bite areas ki made of rigid plastic or leather. 2. A device for determining tooth pressure according to claim 1, characterized in that the handle is made of a hollow titanium tube.

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