DE1815176A1 - Process for preparing tooth cement - Google Patents

Abstract

Tooth cement for filling and sealing teeth and forming crowns and bridges is prepd. by kneading finely divided material consisting mostly of one or more of ZnO, SiO2, or Al2O3 with oxides of Mg, Bi, Ca and Na and contg. up to 20% of a fluorine cpd. specifically CaF2 or NaF, with a fluid contg. H3PO4 and water to form a paste which, during the kneading or after applying to the teeth, is hardened by subjecting to the action of an electric field which may be super-imposed on a high frequency alternating fluid. The advantages of the cement lie in its improved mechanical and physical properties, a crushing strength of 2300-5400 Kg/cm2 after 1 hr. and 3200-9000 Kg/cm2 after 5 hrs. Infection is hindered and the gums are not harmed.

Description

Process for the preparation of dental cements The invention relates to the production of dental cements, in particular those cements in paste form that for filling tooth cavities, lining and sealing teeth, temporary Cementing of deposits, crown and bridge systems and the like. Serve.

The suggestions made in this field that are most widely applied can be divided into 3 groups, namely zinc phosphate, silicate and Silicophosphate cements. These cements are usually made by filling or kneading made of finely ground material, usually of certain oxides Metals, the exact composition of which depends on the type of cement desired, together with an aqueous phosphoric acid solution. For example, zinc phosphate is used cement made using zinc oxide as the main component of the powder, while silica cement consists mainly of mixed silica and aluminum oxide consists. Silicophosphate cement, which is a mixture of the previously described cements Deseichset can be, with addition of silica, aluminum oxide and zinc oxide. With each of these different cements is common a smaller amount of additives is given to the chemical reaction that is taking place Heat development between the oxides or other powdery substances and the phosphoric acid solution occurs during filling and subsequent hardening, to facilitate and control. In this respect, oxides of magnesium, bismuth, Silicon, calcium, copper, barium, sodium, potassium, beryllium and nickel, furthermore Barium sulfate, barium chromate, calcium silicate, calcium phosphate, aluminum phosphate and Phospentoxyd incorporated alone or in a mixture with each other in all types of cement been. The spatula of the mass, which is generally a reciprocating and Requiring rotating hand movement is important to that with who mixed liquid Process the powder so that the mixture forms a paste that immediately adheres to attached to the desired location in or on the tooth. Among others in Suggested cements there are the so-called copper cements, the copper oxide, Copper iodide or copper silicate with additives such as barium sulfate and / or talc in Contain zinc phosphate cement, also silver cements containing silver chloride or silver phosphate with similar additives in a similar cement.

In each case, these have conventional compositions and storage so far not fully met the requirements in the dental field ###### because of the low mechanical hardness of the resulting solid cement and lack of it Ability to attach to teeth or insoles, crowns or bridges.

Furthermore, the usual method is ineffective in preventing the disease Decay of the tooth body

It has also been proposed to add fluoride to the cements in order to reduce the However, it has been shown that even this measure can do little to help prevent tooth decay.

The aim of the invention is therefore a method for the production of cements, which are suitable for any type of dental treatment, the cements being improved mechanical and have physical properties.

Another aim of the invention is the manufacture of tooth centers, They prevent bacterial infection and prevent a damaged tooth from decaying prevent being chemically toxic without this or the roof of the mouth or other parts of the mouth to harm.

In addition, an object of the invention is a method of hardening a Dental cement applied in a desired amount, the formed cement is even further improved in its mechanical and germicidal effects.

Surprisingly, it has been found that customary compositions of dental cements obtained improved properties if they were used during manufacture at the time of the putty and / or during the hardening process following a be subjected to electrical effects.

The method according to the invention is accordingly characterized in that initially finely chopped up material, mainly made of oxides for the usual Phosphorus cements with up to about 20 percent by weight of one or more fluorine compounds is made, and that the powdery mixture with a phosphoric acid containing liquid is spatulated or kneaded, while an electric Potential is brought into effect on the leveled compound. The designation "Phosphorus cement" applies to all types of dental cement made from a mixture of oxide powder and phosphoric acid solution and includes the usual zinc phosphate, silicate, Silicophosphate, copper, silver systems and the like.

The fluorides preferably used are calcium or sodium fluoride, however, S-liumfluotitanat, sodium fluosilicate, sodium fluoaluminate or Magnesium fluoride should be in a finely divided form, which can be applied with a larger spatula Amount of main powder can be mixed.

The main powder (powder before the addition of the fluoride) can be known Way to be made. If a zinc phosphate is to be used, the main powder can be used consist mainly of zinc oxide and, as additives, oxides of magnesium, silicon, Contain bismuth and the like. For a silicate cement, it can mainly consist of silicon dioxide (silica) and aluminum oxide with a lower proportion of additives such as calcium oxide, Calcium, fluorine, sodium oxide, sodium, phosphorus pentoxide, etc. consist. For one Silicophosphate cement can be made up mainly of zinc oxide, aluminum oxide and silicon dioxide with a smaller amount of additives such as magnesium oxide, calcium and sodium phosphates exist. for a copper cement it can mainly consist of zinc oxide with a little Content of copper oxide, copper iodide or copper sulfate and other other additives such as barium sulfate or talc. A copper cement is used for a silver cement the Kupferveroindun.g replaced by silver chloride or silver phosphate.

The fluoride-containing powder can then be trowelled in a known manner The liquid used as a solvent or chemical reagent Can be a common for this powder. Should e.g. produce a zinc phosphate cement orthophosphoric acid with added water and aluminum phosphate solution can be used Success to be used. For the production of a silicate cement, zinc and / or Magnesium phosphates are added to such a liquid composition, the The amount of orthophosphoric acid and aluminum phosphate is considerably decreased. A similar liquid can be used for silicophosphate cement, copper cement and silver cement to be used.

In contrast to the well-known way of working, the putty is applied Mixture of powder and liquid according to the invention essentially simultaneously with the action of an electric field on the leveled compound during 1 - Performed 10 minutes. For this purpose, a pair of electrodes is placed next to one another A mixture of powder and liquid applied to form a paste was found that when relatively weak electrical energy is applied to the plastic forming Mixture is applied, the resulting fat element excellent mechanical Shows properties as fracture strength and surface adhesion to teeth, metal, Porcelain and other bodies are measured, values as they are in the usual way are not reachable.

Albeit an exact theory about what happens in the process Processes could not yet be started, so it turns out that the electrical Affect the formation of some unique grain products including fluoride compounds and / or connections develop or interfacial surfaces of the individual particles relieved by affinity with the leftover crystal grains formed and / or connect with core formations. Furthermore, it was found that the results Can be improved even further if a high-frequency alternating or periodic Itential to a direct current for the electrical influence of the paste is stored 0 The electrical action can take place even at the time of hardening, when the cement paste is brought to the tooth and the coagulating reaction is partial or is completely finished.

Furthermore, it has been shown that the cement so formed as active Anti-germ agent for a treated tooth without simultaneous chemical Toxicity works. While the mere introduction of fluorides into the cement composition has little effect, the electrical treatment in this regard leads to one surprising result, although the exact mechanism this process a germ-preventing effect and preventing the killing of the tooth nerve is not clearly recognizable, it seems z. At the moment, that the electrical energy is the formation of compounds that are able to carry fluorine or fluoride ions on the To expose the surface of the cement tooth filling. Although the amount of the verifiable True ions may be very small, it can be assumed that they deal with organic ones Combine substances or contaminants on or near the surfaces and convert them into inactive or degraded substances, causing bacterial infection the teeth is prevented0 Example 1: For the production of a conventional zinc phosphate cement became a powder consisting of 88 percent by weight zinc oxide and an addition of 10% magnesium oxide and 2% bismuth oxide mixed. The solvent contained 56 percent by weight free orthophosphoric acid, 13.5% aluminum phosphate and 30.5% water. The mixture the powder with the liquid was at 24 ° C and a relative humidity Troweled from 40 ffi to the formation of a paste, the viscosity of which is a stretch More than 8 cm of ojrne breakage allowed. Under the same atmospheric conditions the paste was solidified. Its crushing strength was 2300 kg / cm² after 1 hour and 3200 kg / cm² after 5 hours.

The adhesion force to the tooth (calcium phosphate) was 3.5 gk / cm².

Furthermore, the cement was at 37 0 and 70% relative humidity under the same conditions as held in the mouth. After a hold time of 165 A development of bacteria in the cement could be observed for hours.

Example 2; A similar zinc phosphate cement was made with the addition of 6 percent by weight calcium fluoride (Ca F2) to the main powder of the composition Example 1 given and mixed with the soldering according to Example 1 and trowelled. The cement had a fracture hardness of 2800 kg / om2 after 1 hour and of 4500 kg / om2 after 5 hours. The force of adhesion to the tooth was 4 kg / cm².

After 165 hours there was a development of bacteria in the Watch cement.

Example 3: A zinc phosphate cement according to the invention was made from 95 % of the main powder according to Example 1 with an addition of 5% calcium fluoride and the Phosphoric acid composition prepared according to Example 1. During a spatula the powder-liquid mixture was a direct current of 5 volts and 30 volts Milliampere current strength between a molybdenum electrode and a tin electrode formed, the juxtaposed relationship on the cement paste 5 minutes have been created for a long time. Under the same conditions as in Examples 1 and 2 were Test samples carried out. The cement had Brucli hardnesses of 4700 kg / cm2 after 1 hour and 6700 kg / cmZ after 5 hours. The adhesive force on the tooth was 14.2 kg / cm2. To No bacterial development was found after 165 hours.

Example 4: A high frequency alternating current of 50 milliamps with 5 volts and 385 kHz was applied to a direct current of 30 milliamps for 5 minutes with 3 volt voltage for treating the troweled powder-liquid mixture superimposed according to example / 3. The resulting cement had fracture strengths of 5400 kg / cm² after 1 hour and 8800 kg / cm² after 5 hours. The 2 force of adhesion on the tooth was 13.1 kg / cm. No bacterial development was observed after 165 hours.

Example 5: The cement paste produced according to Example 4 was in Usually placed in a tooth cavity and a direct current of 3 volts and 30 Milliamps with superimposition of a high-frequency alternating current potential of 385 kHz, 5 volts and 10 milliamps to the cement via a molybdenum and a tin electrode created. The electrical treatment was carried out for 5 minutes. The resulting Cement had fracture hardness of 5100 kg / cm² after 1 hour and 9010 kg / cm² after 5 hours. The bonding force to the tooth was 44.2 kg / cm². It was over no bacterial development was observed after 165 hours.

Example 6 A zinc phosphate cement was made from 90% main powder according to example 1 with an addition of 10% sodium fluoride (Na F).

The solution used was the same as in Example 1. During the The powder-liquid mixture was applied with a spatula by an electric direct current of 3 V, 30 mA with a superimposed alternating current of 5 V, 50 mA and 550 kHz A molybdenum and a zinc electrode were used during 5 minutes. The cement paste thus treated was filled into a tooth cavity and another electrical treatment in the mouth using a colybdenum and zinc electrode with a direct current of 3 V and 15 mA, to which an alternating current of 5 V, 20 mA and 550 kHz is superimposed. The resulting cement had fracture strengths of 5020 kg / cm² after 1 hour and 7200 kg / cm² after 5 hours. The force of adhesion at the tooth cavity was 48 kg / cm2. No bacterial contamination was found.

Of course, further modifications are possible, oiine via the To go beyond the scope of the subject matter of the invention characterized in the claims.

Requests

Claims (6)

New claims 1. A method for producing and hardening dental cement, characterized in that a finely comminuted material with a larger one Content of at least one oxide from the group consisting of zinc oxide, silicon dioxide and aluminum oxide and containing up to about 20 percent by weight of at least one fluoride compound mixed with a liquid containing phosphoric acid and water and formed a paste is applied, and that during the spatula and / or after the Applying the cement paste to or in the tooth or tooth part, an electric field is brought to act on the cement paste. 2. The method according to claim 1, characterized in that the fluoride compound consists of calcium fluoride. 3. The method according to claim 1, characterized in that the fluoride compound consists of sodium fluoride. 4. The method according to claim 1, characterized in that the powder mixture Contains oxides of magnesium, bismuth, calcium and sodium. 5. The method according to claim 1, characterized in that as electrical Field a rectified field is applied. 6. The method according to claim 5, characterized in that the rectified Field a high-frequency alternating current field is superimposed.