DE4032505A1 - Use of dental filling compsn. with high filler content - to fix inlay, onlay or facing by high frequency vibration - Google Patents

Abstract

Dental filling compsns. with a high filler content are used to fix inlays, onlays and facings by high-frequency vibration. The vibration frequency is pref. 200 Hz-1MHz (at least 10,000 Hz), and is applied by an ultrasonic appts., esp. with an intermediate layer between the appts. and the part to be attached. The filling compsn. contains (a) 60-95 (70-90) wt.% of inorganic filler, (b) 4-39.99%(9-29.9%) of ethylenically unsatd. polymerisable monomers and/or polymers, (c) 0.01-3% (0.1-2%) of photoinitiators, and opt. (d) activators, initiators for a redox polymerisation, pigments, radiopaque additives and/or thixotropising agents. (a) The average grain size of the filler is not above 5 microns, and the upper limit is 25 microns. Esp., the average size is 0.02-0.06 microns, and 65-85% of the grains havee average size of 1-5 microns. (b) The component is a (meth)acrylic ester of a mono-or poly-alcohol. ADVANTAGE - The compsns. are transparent, mechanically strong, and low-shrink. By using high-frequency vibration, the compsns. are easy-flowing, give good wetting, and can be used in min. film thickness.

Description

The invention relates to the use of highly filled dental Filling materials (filling composites) for fastening inlays, Onlays, veneers and the like by means of high-frequency Vibrations.

For fastening inlays, onlays, veneers and the like. easy-flowing cement masses are usually used, which generally have a low inorganic content Possess fillers. Such cement compounds either harden by ion reactions, e.g. B. so-called zinc phosphate or Glass ionomer cements, or by polymerization reaction NEN, such as B. by radical polymerization of meth acrylic acid esters.

These latter materials are mainly used when it comes to sufficiently transparent inlays, onlays as well Facing shells, e.g. B. made of porcelain or plastic. By default, light-curing agents are preferred Materials used, some of which are based on a switched redox process is still post-curing.  

The European patent application 03 25 266 describes for example dental materials that are also used for cementing Inlays, onlays and veneers can be used, which are hardened in two steps. For this purpose, the Mass two different photoinitiators with under different light absorptions. Are in this patent Although highly filled dental fillings are described, cement masses that are produced according to this system usually less than 50% by weight fillers.

The US-PS 42 19 619 describes a vibrating dental instru inserting crowns and bridges. Here is by relatively low frequency vibration in the range 20-100 Hz usual, low-viscosity cement when inserting the crown by means of the vibrator-bite registration crown transmission chain liquefied. A liquefaction of highly viscous masses is not described here. Also a use of filling Composites or composite cements is not described. In addition, the process requires a special instrument which the dentist has to buy extra.

With the known relatively low-filled cementation masks These works can be attached very well due to the good flowability of the cement an intimate bond with the remaining tooth structure guaranteed. However, there is a gap in the gap Material that due to the low filler content only relatively low surface hardness, abrasion resistance and has a high polymerization shrinkage.

The object of the invention is therefore to provide a Systems with which inlays, onlays, veneers len and the like, which are sufficiently transparent, by means of highly filled, i.e. mechanically highly stressable and little Allow shrinking composite materials to attach to the tooth.  

The invention thus relates to the use of hochge filled dental filling materials for the attachment of inlays, Onlays, veneers or the like by means of high-frequency Vibrations.

The vibration is preferably carried out by means of an ultrasound device generates.

It has surprisingly been found that the Ver application of high-frequency vibrations when fastening of inlays, onlays and veneers, also highly viscous, highly filled masses become so easy to flow that the Benet the spare part and the remaining tooth structure is optimal and minimal film thickness of the cementation compo sites can be achieved.

Under high-frequency vibrations, there are those with understood more than 200 Hz. Frequencies with more than 1 MHz are no longer suitable for cementing.

High-frequency vibrations with more than 1000 Hz, preferably more than 5000 Hz, particularly preferred more than 10,000 Hz.

The high-frequency vibrations are suitably associated with So-called "Sonic Scalers" and / or "Ultrasonic Scalers" for Attachment applied. Such devices are used in the dentist practice for removing tartar and excess fillings used for a long time. When applying the ultrasound For this purpose, cooling is carried out via a water supply reached. In the use according to the invention, it is before partial to turn this water cooling off with the rounded one Scaler middle part on the surface of the inlay, onlay or the veneer to act with low pressure so that sink it into the cavity filled with composite can.  

It is advantageous here between the ultrasound device and z. B. Inlay surface an intermediate layer, e.g. B. paper, wax paper or the like, to prevent injury to the inlay area via the energy input of the ultrasound device avoid. This can also be done in a cheap version form happen by the fact that a Plastic sleeve is guided. The use of highly elastic rule, rubber-like materials such. B. Bite registration materials, is not suitable for this, as this quent vibrations no longer transmit but absorby ren.

The composite filler materials preferably contain the following Components:

• a) 60-95, preferably 70-90, wt .-% inorganic filler fabrics
• b) 4-39.99, preferably 9-29.8,% by weight of ethylenic unsaturated polymerizable monomers and / or polymers
• c) 0.01-3, preferably 0.1-2, wt .-% photoinitiators
• d) and optionally activators, initiators for initiation a redox polymerization and pigments, x-ray opaque Additives and / or thixothopia aids

The inorganic fillers preferably have a medium one Grain distribution <5 µm and an upper grain limit of 25 µm. So-called hybrid composites are particularly advantageous used, which 5-25 wt .-% fillers with an average ren grain size of 0.02-0.06 µm and 65-85 wt .-% packed per included with an average grain size of 1-5 microns. Inorganic fillers can, for example, be ground quartz ne glasses, silica gels and pyrogenic silicas or their Be granules. X-ray opaque are particularly preferred Fillers, at least partially, also used. these can on the one hand be x-ray opaque glasses, i.e. glasses which, for. B.  Contain strontium, barium or lanthanum, or part of the Packing consists of an X-ray opaque additive, as with for example yttrium fluoride, strontium hexafluorozirconate or Fluorides of rare earth metals.

For better installation in the polymer matrix, it is advantageous to hydrophobize the inorganic fillers. Usual Water repellents are silanes, for example trimeth oxymethacryloyloxypropylsilane.

As ethylenically unsaturated monomers or polymers that are suitable for dental purposes, for example, the monomeric and polymeric acrylates and methacrylates are emphasized. In the case of polymerizable dental compositions, the long-chain monomers of US Pat. No. 3,086,112 based on bisphenol-A and glycidyl methacrylate or derivatives thereof obtained by addition of isocyanates are often used in particular. The acrylic acid or methacrylic acid esters of mono- or preferably polyhydric alcohols, for example triethylene glycol dimethacrylate and the like, are also particularly suitable. The diacrylic and dimethacrylate esters of bishydroxymethyltricyclo- (5.2.1.0 ^2,6 ) - decane mentioned in DE-PS 28 16 823 are also particularly suitable. The reaction products of diisocyanates and hydroxyalkyl (meth) acrylates, as described for example in DE-OS 23 12 559, can also be used. Mixtures of suitable monomers or unsaturated polymers produced therefrom can of course also be used.

All substances can be used as photoinitiators those who after exposure to UV or visible light Trigger polymerization, for example benzoin alkyl ether, Benzyl ketals, acylphoshin oxides or aliphatic and aromatic 1,2-diketone compounds, e.g. B. campferquinone, the Light polymerization by adding activators such as tertiary ren amines or organic phosphites, in known per se Way can be accelerated.  

Suitable initiator systems to initiate the polymerization The systems are, for example, via a redox mechanism Peroxide / amine or peroxide / barbituric acid derivatives u. at Using such initiator systems, it is useful to Initiator (e.g. peroxide) and a catalyst component (e.g. amine) separately. The two components become homogeneous with each other shortly before cementing mixed.

example

From 70 parts by weight of bisacryloxymethyltricyclo- (5.2.1.0 ^2.6 ) decane and 30 parts by weight of 2,2-bis-4- (3-methacryloxy-2-hydroxypropoxyphenyl) propane, 0.3 part by weight of Campferchi non and 3 parts by weight of N, N- Dimethylaminoethyl methacrylate is mixed into a homogeneous solution.

21 parts by weight of this solution are mixed with 55 parts by weight silanized, tooth-like colored quartz with a average grain size distribution of 1.5 µm and 5 parts by weight silanized, pyrogenic silica with a medium Grain distribution of 0.04 µm and 19 parts by weight of silani based yttrium fluoride with an average grain size distribution of 1 µm kneaded into a homogeneous paste. The paste has one highly viscous pasty consistency, which "per se" is not suitable for cementing.

The composite paste produced in this way becomes an inlay cavity completely filled. Then it is demonstrated Composite Inlay (made from the same composite paste material, but already fully hardened) pressed into the cavity filled with the paste. Then A "Ultrasonic Scaler" (10,000 Hz) (Cavi tron, company Dentsply) and turned off water cooling with light pressure on the inlay surface of the inlay filled cavity sunk. Liquefied by the ultrasound  the composite paste so that all surpluses well out of the cementation gap and the inlay up to is pressed into the cavity for complete fitting. The surpluses are then removed using a probe and Dental floss is removed due to the high viscosity of the Paste in turn is very easy. Then with all side exposure over 60 sec. with a commercially available dental radiation device (Elipar, company ESPE) the cement polymerized. Then the cement surface and polished the inlay. There are no transitions the inlay fits perfectly.

If the procedure is carried out with the same material on the same inlay, but without the influence of ultrasound, this means that the inlay cannot be completely inserted into the cavity introduce. There are transitions from the tooth surface to the inlay recognizable, which are easily detectable with a probe.

Measurement of film thickness

Between a flat metal plate and a glass plate 100 mg each of the composite described above and ver evenly to an initial layer thickness of 500 µm Splits. Then with the surface of the middle part of the above "Ultrasonic Scaler" on the top a pressure of 0.5 kP was applied to the glass plate. The Pressure is left for 10 sec., Each time with formwork teter and with vibration switched off. When switched on Ultrasound device achieves a film thickness of 10 µm. Without when the ultrasound unit is switched on, the film thickness is 400 µm. Even when exposed to higher pressures (e.g. 10 kP) above longer times (e.g. 30 sec.) becomes a film thickness of 50 microns not undercut.

Claims (10)

1. Use of highly filled dental filling materials for fastening inlays, onlays, veneers and the like. By means of high-frequency vibrations. 2. Use according to claim 1, characterized in that the vibration is generated by an ultrasound device. 3. Use according to claim 1 or 2, characterized in that that the vibration frequency in the range of 200 Hz to 1 MHz lies. 4. Use according to claim 3, characterized in that the vibration frequency is at least 10,000 Hz. 5. Use according to claim 1, characterized in that the filling material contains the following components.

• a) 60-95% by weight of inorganic fillers,
• b) 4-39.99% by weight of ethylenically unsaturated polymerizable monomers and / or polymers
• c) 0.01-3 wt .-% photoinitiators
• d) and, if appropriate, activators, initiators for initiating redox polymerization, and pigments, radiopaque additives and / or thixothopic aids.

6. Use according to claim 5, characterized in that the proportion of inorganic fillers 70-90 wt .-%, the Proportion of the ethylenically unsaturated monomers and / or Polymers 9-29.9 wt .-% and the proportion of photoinitiators 0.1-2% by weight. 7. Use according to claim 1 to 6, characterized in that  that the inorganic packing has a medium grain size of 5 and the upper grain limit of 25 µm exhibit. 8. Use according to claim 7, that 5-25 wt .-% of Fillers an average grain size of 0.02-0.06 and 65-85% the fillers have an average grain size of 1-5 µm exhibit. 9. Use according to claim 5, characterized in that component b) is acrylic or Methacrylic acid ester is monohydric or polyhydric alcohols. 10. Use according to claim 2, characterized in that between the ultrasound machine and the part to be attached an intermediate layer is provided.