RU2640375C1 - Method for measurement of fixation force of complete removable plate lower jaw implant prosthesis and device for its implementation - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: group of inventions includes a method for measurement of the fixation force of the removable plate implant prosthesis for the lower jaw and a device for implementation, refers to dental medicine and can be used in dental prosthetics. Prior to prosthesis installation into the prosthetic bed, a fixing pasty substance is used to fix the prosthesis using on an intraoral element in the form of impression spoon connected to a power beam to the free end of which a force applied by the tensometric sensor to direct the prosthesis out of the prosthetic bed in a vertical or oblique direction. The position sensor records the angle of prosthesis inclination in the transversal plane relative to the initial position of the prosthesis. The tensometric sensor and the position sensor are connected to a multi-channel digital measuring device recording the readings of the applied force and the corresponding inclination angle, and at the time of detachment in the force vertical direction with a valid deviation from the vertical axis of ±1.5° fixation force, characterizing prosthesis retention is measured, and in other cases, in slanting direction - fixation force, characterizing prosthesis stabilization. The method is implemented by means of a device comprising an intraoral element in the form of impression spoon connected to a power beam the free end of which is attached to the tensometric sensor recording the force applied by the operator to direct the prosthesis out of the prosthetic bed up to detachment and is further provided with a position sensor to record the prosthesis inclination angle during direction out of the prosthetic bed. The free end of the power beam, together with the sensors, is installed in the handle-holder body. The sensors are connected to a multichannel digital measuring instrument that records the applied force and the corresponding angle of inclination.

EFFECT: inventions allow effective measurement of the fixation force of the complete removable lower jaw prosthesis by measuring its fixation force, depending on the angle of prosthesis inclination when directing it out of the prosthetic bed.

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Description

The group of inventions relates to medicine, namely to dental methods and devices that can be used to measure the fixation force of a complete removable laminar implant prosthesis (PSIP) of the lower jaw.

Currently, only methods are known for measuring the fixation force of a complete removable laminar denture (PSPP) of the toothless lower jaw, which is installed on the prosthetic bed without the use of implants.

A known method of measuring the force of fixation PSPP toothless lower jaw (patent RU 2513803, publ. 04/20/2014), which consists in the fact that installed on the patient’s mouth PSPP put on the intraoral element, made in the form of a clip type "bulldog" and connected to the power beam. The operator makes an effort to the power beam, trying to remove the prosthesis from the alveolar ridge, while the applied force is determined using a strain gauge.

The disadvantage of this method is that it can only be used for PSPP of the lower jaw. The “bulldog” type clamp does not provide the necessary fixation in the case of PSPIP. In addition, there is a bias in measuring the strength of fixation, since the direction of the applied force, which is determined by the angle of inclination of the prosthesis at the time of separation from its initial position in the oral cavity, is not taken into account.

Currently, no methods have been described to measure the fixation strength of the lower jaw PSPIP.

Also known is a device for measuring the fixation force of the PSPP of the edentulous lower jaw (patent RU 2513803, publ. 04/20/2014), consisting of an intraoral element in the form of a bulldog-type clamp connected to a power beam equipped with a strain gauge connected to a measuring instrument that records testimony.

This device does not provide the necessary fixation of it on the prosthesis, does not have the objectivity of measurement, since at the time of separation, when the force of fixation of the prosthesis is measured, the angle of inclination of the prosthesis relative to the initial position is not controlled.

At present, no devices have been described that make it possible to measure the fixation force of the lower jaw PSPIP.

The technical result of the group of inventions is the development of a method for measuring the fixation force PSPIP of the lower jaw and a device for its implementation, ensuring the objectivity of the measurement.

The indicated technical result is achieved in a method for measuring the fixation force of the lower jaw PSPIP, in which, before installing the prosthesis in the prosthetic bed, the prosthesis is fixed using a paste-like substance on an intraoral element made in the form of an impression spoon connected to a power beam, to which the measured tensometric is applied to the free end a force sensor aimed at removing the prosthesis from the prosthetic bed in a vertical or oblique direction, while the position sensor records the angle of inclination and the prosthesis in a transverse plane relative to the initial position of the prosthesis, and the strain gauge and position sensor are connected to a multichannel digital measuring device that records the indications of the applied force and the corresponding angle of inclination, and at the moment of separation in the vertical direction of the force with a permissible deviation from the vertical axis of ± 1.5 ° measure the fixation force characterizing the retention of the prosthesis, and in other cases with an oblique direction - the fixation force characterizing the stabilization of the prosthesis.

Fixation of the prosthesis is a total concept, including retention and stabilization of the prosthesis. With the vertical removal of the prosthesis, the fixation force characterizing its retention is determined, with the oblique direction (angle of inclination of the prosthesis), the excretion determines the fixation force,

Fixation of the prosthesis is a total concept, including retention and stabilization of the prosthesis. With vertical removal of the prosthesis, the fixation force characterizing its retention is determined, with an oblique direction (the angle of inclination of the prosthesis), the excretion determines the fixation force characterizing stabilization of the prosthesis (Trezubov V.N., Scherbakov A.S., Mishnev L.M. Orthopedic dentistry. Propaedeutics and the fundamentals of a private course: Textbook for medical universities / Edited by Prof. V.N. Trezubov. - St. Petersburg: SpetsLit. - 2014. - 324 p.).

Registration of the angle of inclination of the prosthesis in the transverse plane relative to the initial position of the prosthesis at the time of separation from the prosthetic bed allows taking into account retention and stabilization of the prosthesis to make an objective measurement of the fixation force of the lower jaw.

Studies have shown that in the vertical direction of excretion, the angle of inclination of the prosthesis is from -1.5 ° to + 1.5 ° from the original position, while ensuring the maximum force of separation of the prosthesis from the prosthetic bed (maximum force of fixation of the prosthesis that characterizes its retention). With the oblique direction of the removal of the prosthesis, the angle of inclination of the prosthesis increases, and the fixing force characterizing its stabilization decreases.

The fixing paste-like substance provides a reliable connection of the intraoral element with the prosthesis.

The above technical result is also achieved in the device for measuring the fixation force PSPIP of the lower jaw, characterized in that according to the invention it contains an intraoral element made in the form of an impression spoon with the possibility of filling it with a fixing paste-like substance connected to a power beam, the free end of which is fixed to strain gauge sensor, which records the force exerted by the operator on the power beam to remove the prosthesis from the prosthetic bed until separation, and additionally bzhen position sensor registering the angle of inclination of the prosthesis when the prosthesis excretion of prosthetic bed, the free end of the beam power together with the sensors mounted in the housing, the handle holder, and the sensors are connected to a multichannel digital measuring instrument registering indications applied force and corresponding angle of inclination.

The intraoral element in the form of an impression tray, which is filled with a fixing paste-like substance before installing the prosthesis in the prosthetic bed, provides a reliable connection with PSPIP. The impression spoon allows the use of a fixing substance, such as gypsum, which provides the necessary degree of adhesion to the prosthesis and does not chemically interact with the material of the prosthesis.

This device allows you to make an objective measurement of the force of fixation of the prosthesis, since at the time of its separation, the angle of inclination of the prosthesis in a transverse plane relative to the initial position is recorded.

As a sensor measuring the angle of the prosthesis, a position sensor was used: an inclinometer based on micromechanical accelerometers of capacitive or convection type.

The essence of the group of inventions is illustrated by the drawings in FIG. 1-3, where:

in FIG. 1 shows a General view of the device;

in FIG. 2 - graphs of changes in the applied force and the angle of inclination of the prosthesis until the moment of separation in the vertical direction of removal of the prosthesis;

in FIG. 3 - graphs of changes in the applied force and the angle of inclination of the prosthesis to the point of separation with an oblique direction of the removal of the prosthesis.

The proposed method is carried out, for example, as follows.

The intraoral element 1 of the device is filled with a fixative substance (gypsum) in a pasty state. The prosthesis is immersed to a depth of height of the crowns of artificial teeth, followed by exposure of the prosthesis in a fixing pasty substance until it is completely cured. A device with a prosthesis fixed to the intraoral element 1 is inserted into the patient’s oral cavity and the prosthesis is pressed tightly against the prosthetic bed. The operator makes an effort to the power beam 2, lifting it by the body of the handle-holder 3 in the vertical or oblique directions, and removes the prosthesis from the prosthetic bed until it detaches from the prosthetic bed of the lower jaw. The applied force is recorded using a strain gauge 4. At the same time, the sensor 5 records the angle of inclination of the prosthesis in a transverse plane relative to its original position. Measure the force of fixation of the prosthesis, as the force that is recorded by the sensor 4 at the time of separation, and at the same time, the sensor 5 records the angle of inclination of the prosthesis in a transverse plane relative to its initial position. As the sensor 4, a strain gauge type sensor is used, for example, the FSS series from Honeywell. As the sensor 5, a position sensor is used, for example a 3-axis accelerometer ADXL335, manufactured by Analog Devices, which provides a measurement of vertical deviation in the range from -90 ° to + 90 °. Changes in the force of separation and inclination of the prosthesis during the removal process and at the time of separation are recorded in time and displayed on the MPC 6 display in the form of graphs and / or integral estimates of force and angles.

From the graphs of changes in the applied force and the angle of inclination of the prosthesis to the moment of separation, shown in FIG. 2, it can be seen that the maximum force of separation (fixation) of the prosthesis from the prosthetic bed is ensured by the vertical removal of the prosthesis (the angle of inclination of the prosthesis is from -1.5 ° to + 1.5 °). With oblique removal of the prosthesis, the angle of inclination increases and the fixing force that characterizes the stabilization of the prosthesis decreases (Fig. 3).

The proposed device (Fig. 1) contains an intraoral element 1, made in the form of an impression tray, connected to the power beam 2. The free end of the power beam 2 is installed in the housing of the handle holder 3, mounted on a strain gauge 4 and equipped with a sensor 5 that records the angle of inclination the prosthesis in a transverse plane relative to the initial position of the prosthesis when removing the prosthesis from the prosthetic bed. The free end of the power beam 2 is installed in the housing of the handle-holder 3 together with the sensors 4 and 5. The sensors 4 and 5 are connected to a multi-channel digital measuring device (MCIP) 6, which records the indications of the applied force and the corresponding angle of inclination of the prosthesis.

The proposed device is implemented in the above method.

The invention is confirmed by a clinical example.

Example. Patient N., 65 years old. The patient underwent orthopedic treatment of PSPIP. To assess the quality of fixation of the prosthesis on implants, the fixation strength of PSPIP was measured using the proposed method and device. For this, the intraoral element of the device was filled with gypsum in a pasty state. The prosthesis was immersed in gypsum to a depth of height of the crowns of artificial teeth until completely cured. Then the device with the prosthesis was inserted into the oral cavity. To remove the prosthesis from the prosthetic bed, an effort was applied to the power beam of the device in the vertical and oblique directions. The fixation force characterizing the prosthesis retention at an angle of inclination of the prosthesis of 1.5 ° (vertical direction) was 750 g. The fixation force characterizing stabilization of the prosthesis at an angle of inclination of the prosthesis of 8 ° (oblique direction) was 180 g. Thus, the retention and stabilization of the prosthesis (Fig. 2, 3).

The proposed group of inventions: the method and device for its implementation, allow you to measure the strength of the fixation PSPIP lower jaw using a different number of implant supports and different types of lock mounts of implant heads. The method and device provide measurement objectivity by measuring the force of fixation of the prosthesis depending on the angle of inclination of the prosthesis when it is removed from the prosthetic bed, that is, it allows to evaluate the retention and stabilization of the prosthesis. The method and device can be used for PSPP.

Claims (2)

1. The method of measuring the fixation force of a complete removable laminar implant prosthesis of the lower jaw, which consists in the fact that before installing the prosthesis in the prosthetic bed, the prosthesis is fixed with a paste-like substance on an intraoral element made in the form of an impression spoon connected to a power beam to a free the end of which is applied the force measured by a strain gauge aimed at removing the prosthesis from the prosthetic bed in a vertical or oblique direction, while the angle of inclination of the prosthesis in a transverse plane relative to the initial position of the prosthesis, and the strain gauge and position sensor are connected to a multichannel digital measuring device that records the readings of the applied force and the corresponding angle of inclination, and at the moment of separation in the vertical direction of the force with a permissible deviation from the vertical axis of ± 1 , 5 ° measure the fixation force characterizing the retention of the prosthesis, and in other cases with an oblique direction, the fixation force characterizing stabilization of the prosthesis. 2. A device for measuring the fixation force of a complete removable laminar implant prosthesis of the lower jaw, characterized in that it contains an intraoral element made in the form of an impression spoon with the possibility of filling it with a fixing pasty substance connected to a power beam, the free end of which is fixed to a strain gauge, the recording force applied by the operator to the power beam to remove the prosthesis from the prosthetic bed until separation, and is additionally equipped with a position sensor, egistriruyuschim angle denture prosthesis during injection of prosthetic bed, the free end of the beam power together with the sensors mounted in the housing, the handle holder, and the sensors are connected to a multichannel digital measuring instrument registering indications applied force and corresponding angle of inclination.

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