CS258185B1 - Device for hard dental tissues' abrasion testing during teeth cleaning - Google Patents

Abstract

The device is intended for testing of toothpaste abrasiveness to be evaluated by abrasion of surface layers of samples teeth or dental materials, respectively Toothbrushes For Defined Testing conditions. The device is located in the closet in which the driving electric motor is mounted driving a bowl of tooth samples on which abrasive toothbrush set material such as paste, gel, etc. Shaft the electric motor is connected to the worm gearbox on whose output shaft the dish in which the plate is fixed with tooth samples on which the holder abuts fixed to the lower end of the shaft. Shaft it is mounted on the arm provided at the upper end with a load weight. The swing arm is mounted on the web, mounted on the top of the cabinet. Swinging the arm is provided at its free end balancing weights.

Description

BACKGROUND OF THE INVENTION The present invention relates to an apparatus for testing the abrasion of hard tubular tissues in cleaning teeth.

For several years there have been reports in the dental literature confirming the necessity of using abrasive substances in toothpastes, but at the same time draw attention to the possibility of damage to hard tooth tissues by these substances. Clinically observable changes in hard dental tissues can be small scratches, deep scratches or most commonly observed cevical abrasion, so-called wedge defects.

The Working Group of the International Dental Federation (FDI), which deals with oral hygiene and the means to provide it, in particular with toothpaste, has published a document summarizing current views on toothpastes and their abrasive effects. An active toothpaste that is able to remove deposits on the tooth surface must contain a certain percentage of abrasives. The abrasives currently used do not damage the enamel, but can affect dentine and cement exposed by the pathological process.

The degree of abrasion is determined by the size, shape and hardness of the abrasive particles and the strength and direction of movement of the toothbrushes, i.e. the way of brushing the teeth. The ideal toothpaste is considered to have a minimal abrasive effect on enamel, dentine and cement with maximum cleaning and polishing effect.

The CSSR has not yet established precise criteria to determine the abrasiveness of toothpastes. Neither have the preconditions for determining their abrasive effects on hard dental tissues.

Toothpastes are classified as cosmetic products. Their properties and composition must comply with the hygiene requirements laid down for these products by a separate directive.

Measurement of toothpaste abrasiveness is the subject of many observations. The main problem in evaluating the effects of toothpastes is the laboratory simulation of hard tooth tissue abrasion.

Basic studies were conducted on metallic materials such as antimony, silver and copper. The weight or size changes of the platelets of these metallic materials, caused by toothpastes, indicated their abrasiveness. Another material used was glass plates on which toothpastes were spread. Qualitative surface changes were then observed in both transmitted and reflected light.

Comparative studies have indicated that wear of metal or glass materials by toothpaste is hardly comparable to changes that occur on hard tooth tissues.

Efforts to mimic the conditions that exist in denture cleaning have led to human teeth being used for abrasion tests.

Already the first attempts indicated the problem of working with human teeth. Hard dental tissues have their specific properties. It has been shown that the hardness of both enamel and dentine varies depending on the type of tooth and the place measured. Tooth tissues are hydrated and measurement of weight loss induced by abrasion may be very inaccurate. Testing was performed using various types of instruments that mimic the movement of the toothbrush. The results of these different techniques were difficult to compare, the methods were laborious and lengthy.

Experience has shown that it is necessary to choose a simple and well-defined method of work in order to compare results. It is necessary to harmonize the grinding movement, grinding force, number of movements, size, shape, quality and length of the toothbrush bristles and precisely define the composition, size, hardness and smoothness of the abraded surface.

Methods for monitoring the cleaning performance of toothpastes and their abrasive effects are varied. Some authors measured changes in the size and contour of the tooth root, others registered a reduction in the height of the dental bumps or weight changes.

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In addition to quantitative methods of abrasion evaluation, methods of qualitative evaluation of tooth surface are also carried out, mainly by replica technique, by reflectometer or by profilometric method.

Manly, who has developed a grinding machine whose improved modification is still in use today, has great credit for improving the abrasion evaluation technique. This abrasive device brand.

The V-8 cross brushing machine has 8 straight-toothed toothbrushes, 8 fixed tooth-dental carriers and 8 glass or plastic cases in which the abrasive material to be tested is inserted. Tooth abrasiveness is determined from the weight changes of the tooth.

The toothpaste abrasion device according to the British standard for toothpaste - BSI 5 131 - 1974 works on a similar principle. The brushing head is connected to the drive arm of the brushing machine so that the long axis of the brushing head is in the horizontal plane at an angle of 4 to 5 ° with the reciprocating direction. The toothpaste abrasiveness is then evaluated by the radioactive or profilometric method (6).

The results of measuring the abrasiveness of toothpastes obtained by different types of brushing apparatus are considerably different. They depend on the speed of the instrument, the quality of the brushes and the measurement load.

The CSSR is designed for testing the quality of toothpaste ČSN 681 505 - Methods of testing toothpaste. According to this standard, the abrasiveness check is performed by spreading a toothpaste sample on a glass slide with a copper rod. The number and depth of scratches are evaluated, which is very inaccurate and subjective due to the methodology used.

Disadvantages of known methods and apparatuses for determination of abrasion of hard dental tissues are eliminated by the proposed device according to the invention, which is an apparatus for testing the abrasion of hard dental tissues during tooth cleaning. The apparatus consists of a box body in which a standing drive electric motor driving a holder with tooth samples is placed, which abuts brushes with abrasive material such as paste, gel or the like, whose essence is that the electric motor shaft is connected to the worm gear. On the output shaft of the gearbox there is a tray, in which a toothplate plate, supported by a brush holder, is mounted at the lower end of the shaft, mounted on the arm and provided with a load weight at the upper end. The swing arm is rotatably mounted on a web that is attached to the top plate of the housing. A balancing weight is located at the free end of the swing arm.

A schematic diagram of the tester is shown in the attached Figures 1 and 2.

In the housing 2 is arranged an electric motor 2, the worm gear 11, which is positioned above the tray 2 with the sample plate holder 2 has a lower part inserted three toothbrushes 2 and is fastened on the arm ⁸ two counterweight ninth arms 2 ^e 3 pivotably fastened 7 on the limb, the load on the brushes ³ and 2 applies a weight on the 10th housing 2 is provided on the upper plate cover 12 for protecting the measuring device.

Inside the cabinet 2 are the instrument controls, the main switch 13, the power indicator 14, the power button 12., the power button 16, the engine power indicator 17, the speed counter 22- the speed setting indicator 19, the speed setting button 20 and the mileage indicator. 11

Fig. 3 shows an example of the connection of the apparatus according to the invention. A power supply block 23 is connected to the inlet 22, to which both the switching relay 24, the manual control 25 and the counter control circuit 27 are connected. The electric relay 2 is connected to the switching relay 24. , which is also connected to the manual control box 25.

Claims (1)

Apparatus for testing hard dental abrasion in brushing teeth with abrasive brushes with an abrasive material applied as a paste, gel or the like consisting of a housing housing a standing drive electric motor driving a tooth sample holder supported by an abrasive brush set comprising characterized in that the shaft of the electric motor (2) is connected to a worm gear (11), on the output shaft of which a cup (3) is mounted, in which the tooth plate (4) is seated on the holder (5) mounted on the lower an end of a shaft mounted on the arm (8) and provided with a load weight (10) at the upper end, the swing arm (8) being mounted rotatably on a web (7) mounted on the top plate of the housing (1) and provided with a counterweight ( 9).