RU2276972C2 - Method for recording mandible movements - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves measuring and recording articulation and incisor paths sagittal shift and transverse movements. Mandibular movements are recorded by means of special-purpose device. The articulation, incisor and sagittal paths are determined by means of the first gnathotransducer recording maximum right and left shifts of the mandible. The first gnathotransducer operating, the second one is idle. The gnathotransducers transform spatial displacements of the mandible into electric signals, register and save them. Device has T-shaped metal plates having upper parts rigidly connected to head phones and the lower parts to occipital and subocular arch, two rheostat gnathotransducer fixed on subocular arch in perpendicular to each other and connected to recording device and power supply source via switch, rigid sling having threaded bushing, probe and lock-nut connected to the T-shaped metal plates by means of rubber tie-rods.

EFFECT: high operation accuracy; improved dental prosthesis quality.

2 cl, 1 dwg

Description

The invention relates to medicine, namely to prosthetic dentistry.

The production of high-quality removable and non-removable dentures with full or partial adentia is impossible without accurate measurement and registration of the movements of the lower jaw: articular and incisal paths, sagittal shift, transverse movements. Subsequent reproduction of these movements in the articulator allows, in each case, to take into account individual physiological characteristics and to make dentures that meet modern requirements and do not cause inconvenience to patients during operation.

A known method of recording the movements of the lower jaw (Pat. No. 2139011 of the Russian Federation, IPC 6 A 61 C 11/00 "Individual articulator, a method for its adjustment and determining the position of the models of toothless jaws in the interframe space", bull. 28, 1998) using the profile teleretography of the head. Profile tele-roentgenograms are performed with the horizontal direction of the x-rays in the position of the subject sitting using diagnostic x-ray machines.

The disadvantage of this method is the complexity of protecting the patient from exposure to x-rays (the need to cover the patient with an apron of lead rubber, installing an aluminum filter, etc.).

There is a method for determining the severity of sagittal and transversal occlusal curves (Pat. No. 2218127 of the Russian Federation, IPC 7 A 61 C 19/04 "Method for determining the severity of sagittal and transverse occlusal curves and a device for its implementation", bull. 34, 2003), in which the Frankfurt horizontal is chosen as the base reference system, fix it with the help of the front arch and successively measure the distance from the point of the central fissure and the top of the tubercles to the front arch for each tooth. Using the data of these measurements, they are mathematically processed using the rules of the right triangle and trigonometric functions, and through the combination of these indicators for all the teeth studied they characterize the individual severity of sagittal and transverse occlusal curves.

The disadvantage of this method is that in a regular city clinic with a large flow of patients, it is rather difficult for a dentist to make all the necessary mathematical calculations and the process of manufacturing dentures can be unreasonably delayed.

A known method for determining the optimal height of the bite (Pat. No. 2070001 of the Russian Federation, IPC 6 A 61 C 19/04 "Method for determining the optimal height of the bite", bull. 34, 1996), which includes the registration of electromyographic impulses of the temporal muscles of the patient at various positions of the lower the jaw. To do this, gaskets of different heights are installed between the jaws, and pulses are recorded with each gasket. The results obtained are compared with each other and the optimal bite height is selected when the position of the gasket corresponds to the lowest intensity of the electromyographic pulses.

The disadvantage of this method is its limited application.

The closest, according to the authors, analogue (prototype) is a method for recording the movements of the lower jaw using the facial arch (Kopeikin V.N. et al. “Dental prosthetics”, M., Medicine, 1988, p. 51-55).

When using this method, the facial arch determines the central ratio of the toothless jaws, the angle of the lateral incisive path, the angle of the sagittal articular path, as well as the location of the gypsum models in the space of the articulator.

The central ratio of toothless jaws is established using wax or plastic bases with occlusal ridges. Pre-fit the occlusal roller of the base of the upper jaw in the nasal plane and determine the height of the lower part of the face. To record the lateral incisal path in the surface of the occlusal bead of the base of the lower jaw at the same level with it in the frontal section, a metal plate is attached. A metal plate with a pin mounted on a spring is attached to the wax occlusal roller of the base of the upper jaw also in the region of the anterior teeth from the vestibular side. A metal plate mounted on the occlusal roller of the base of the lower jaw is covered with a layer of molten black wax. To record on wax, the spring of the pin fixed on the basis of the upper jaw is released, the bases are inserted into the mouth and the patient is asked to move the jaw left and right. As a result of lateral movements of the lower jaw, a corner is drawn with a pin on the wax of the metal plate, the apex of which corresponds to the central position of the lower jaw relative to the upper, and the angle formed is the angle of the lateral incisor path (Gothic angle).

Recording of the sagittal articular pathway is also carried out on occlusal ridges using the facial arch attached to the occlusal roller of the lower jaw. Record of the sagittal articular path is made with stylus on paper. The leads are strengthened in the area of the articular heads, then they offer the patient to move the lower jaw with sliding occlusal movements. After recording the movements of the lower jaw, they are transferred to the articulator for modeling.

The disadvantage of this method is some lack of accuracy in recording the movements of the lower jaw using lead and facial arches due to the average location of the arc, as well as the fact that this method can be applied only in the manufacture of dentures in the complete absence of teeth.

The objective of the invention is to increase accuracy, reduce the complexity and time spent on recording the movements of the lower jaw, provide the possibility of manufacturing high-quality dentures taking into account the physiological characteristics of the patient with both full and partial adentia.

This is achieved by the fact that the headphones are rigidly connected to T-shaped metal plates, to which the occipital and zygomatic arches are attached, while two rheostat gnatosensors are connected mutually perpendicularly to the zygomatic arch, connected through a switch to a recording device and a power source; A rigid sling with a threaded sleeve, a dipstick and a lock nut is applied to the chin and connected to the T-shaped metal plates using rubber rods. In the case of toothless jaws, after determining the central ratio of toothless jaws using wax bases, T-shaped metal tubes with an inner diameter of 3.5 mm are placed on the heated wax roller of the base of the lower jaw in accordance with the central incisal line, followed by tight closing of the patient's jaws; metal pins, rigidly fixed on the zygomatic arch, are inserted into the T-shaped metal tubes without backlash, after which the zygomatic arch is disconnected from the headphones and the wax bases with T-shaped metal tubes are removed from the oral cavity.

When implementing the proposed method (see drawing), headphones are put on the patient’s head. Headphones 1 with nuts 2 and 3 on both sides are connected to T-shaped metal plates 4, 5. After this, a sling 6 is installed in the chin area with a probe sleeve 7, 8 and rubber is connected to the headphones through the upper section of the T-shaped plates with rubber rods 9. In the lower part of the T-shaped plates, an occipital 10 and a zygomatic arch 11 are fixed. The zygomatic arch runs along the edge of the lower jaw. On the zygomatic arch, two rheostatic gnatosensors 12 are installed, which are connected through a switch 13 to a power source 14 and a recording device 15.

Pressure sensors are connected to the electrical network through a transformer. The voltage in them is 12 V. Installing a system for recording the movements of the lower jaw and connecting to the electric network takes no more than 5-6 minutes. After that, a probe is inserted into the sling and brought to the lever of the first gnatosensor working to register the extension of the lower jaw (articular, incisal and sagittal paths are determined). Then the probe is brought to the lever of the second pressure sensor, while the first pressure sensor is turned off. The second gnatosensor registers the maximum shifts of the lower jaw to the right and left (transversal movements). The registration system (headphones, occipital and zygomatic and arches, etc.) is disassembled in the reverse order and does not take much time (2-3 minutes). The proposed method can significantly reduce the complexity and time spent on recording movements of the lower jaw. After recording and transferring data on the movements of the lower jaw to the articulator, modeling and manufacturing of dentures is carried out by known methods.

The rheostat gnath sensors used in the proposed method convert the spatial movements of the lower jaw into electrical signals that are recorded on the scale of the recording device and recorded. The sensor is a slide rheostat. A change in the position of the lower jaw causes a change in the movable contact of the rheostat, while the resistance and current strength in the electric circuit changes. As a recording device, a pointer device, for example, a voltmeter, recorder with simultaneous recording of data on paper or a personal computer, can be used. In the latter case, using an analog-to-digital converter, changes in the voltage in the electric circuit when changing the position of the levers of the blood pressure sensors are reproduced on a computer monitor to reflect the full picture of the movements of the lower jaw.

T-shaped metal plates are used for rigid fixation of headphones, occipital and zygomatic arches. The zygomatic and occipital arches are made of polymer material. A sling is attached using rubber rods in the temporomandibular joint, which allows us to take into account the physiological characteristics of each patient when recording movements of the lower jaw. T-shaped processes are connected to the zygomatic arch at an angle corresponding to the angle formed by the lower jaw and the line of the temporomandibular joint. For most people, this angle is 90-100 °, although in some cases it can be 160 °. To take this feature into account, on the zygomatic arch for fastening T-shaped plates on both sides there are three holes, with which you can set the desired angle in each case. To increase accuracy when placing gypsum models in the interframe space of the articulator, T-shaped metal tubes with an internal diameter of 3.5 mm are used, which play the role of “memory”.

The application of the proposed method for recording the movements of the lower jaw can reduce by 50% the time spent on recording and recording the movements of the lower jaw. Due to the fact that when recording the movements of the lower jaw, the individual characteristics of each patient are taken into account, it is possible to increase the service life of prostheses with a complete absence of teeth by 2–3 times, while dentures do not cause discomfort in patients.

Example. Patient N. asked about the manufacture of removable dentures in the complete absence of teeth on the upper and lower jaws. The patient had atrophy of the alveolar processes and general functional disorders of the dentition. Was recorded movements of the lower jaw by the proposed method.

At the first visit, the doctor put on headphones with rubber earplugs on the patient’s head, a sling with a probe sleeve, an occipital and zygomatic arch. Rubber sling was attached to the headphones through the T-shaped plates. Then, the doctor connected the occipital and zygomatic arches to the lower part of the T-shaped plates. This procedure took 2-3 minutes. After the installation of rheostatic blood pressure sensors on the zygomatic arch and their attachment to the power source and recording instrument (switch instrument), movements of the lower jaw were recorded and recorded. The registration system was disassembled in the reverse order, which amounted to 2-3 minutes. A total of 8-10 minutes were spent per patient.

To simulate a denture, an articulator of articulated-elliptical type SHET was used (application No. 2004101366 dated January 21, 2004 “Individual articulator”). Transferring the recording of the movements of the lower jaw to the articulator was carried out as follows: the doctor removed rubber earplugs from the headphone pins, the headphone pins were inserted into the bushings located at the edges of the SHET articulator, which also had holes for the cotter pin. After aligning the holes, a rigid assembly is formed. A zygomatic arch with rheostatic blood pressure sensors was connected to the T-shaped plate of the headphones. A T-shaped probe was inserted into the rack sleeve on the lower frame of the articulator, which was led alternately to the first and second pressure sensors. According to the switch instrument and the recorded results, the doctor achieved the same articular movement in the articulator as the patient, and fixed it with restrictive screws. The procedure was repeated for lateral movements. It takes 8-9 minutes to set up the articulator and prepare it for work.

During the second visit, after determining the central ratio of the jaws using wax bases and ridges, the doctor fixes the location of the wax bases with ridges in the patient’s mouth using the “memory” and brings probes to it, fixing them on the zygomatic arch. “Memory” is a hollow metal tube welded at right angles with an internal diameter of 3.5 mm, used to determine the location of gypsum models in the articulator. After removing the rubber jaws and connecting the headphones to the articulator, the doctor introduces the trimmed gypsum models into the wax bases so that they are freely located in the interframe space. Further work on the manufacture of prostheses is carried out in the dental laboratory using existing technologies.

Claims (2)

1. The method of recording movements of the lower jaw during prosthetics, including measuring and recording the articular and incisal paths, sagittal shift and transverse movements, characterized in that the registration of movements of the lower jaw is carried out using the device according to claim 2, wherein the articular, incisal and sagittal paths determined by the first gnatosensor, registering the maximum shifts of the lower jaw to the right and left, and during operation of the first gnatosensor the second is turned off, gnatosensors transform spaces The movements of the lower jaw into electrical signals that register and record. 2. Device for recording the movements of the lower jaw, including T-shaped metal plates, the upper part of which is rigidly connected to the headphones, and the lower one to the occipital and zygomatic arches, two rheostatic gnathosensors, which are fixed to the zygomatic arch mutually perpendicularly and connected via a switch to the recording device and power supply, a rigid sling with a threaded sleeve, a probe and a lock nut, connected with rubber rods to T-shaped metal plates.