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Low shrinkage dental material and method

a dental material and low shrinkage technology, applied in dental prosthesis, impression caps, prosthesis, etc., can solve the problem that prior art does not disclose a wax-like polymerizable material for forming dentures or other high-tough products

Inactive Publication Date: 2006-08-31
SUN BENJAMIN JIEMIN +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0006] The filler particles have a range of particles sizes from 0.001 micrometers to 10 micrometers. The filler particles preferably include organic and / or inorganic particles, and preferably reduce polymerization shrinkage, improve wear resistance and modify the mechanical and physical properties. Preferred fillers are glasses formed from or including, barium, calcium, strontium, lanthanum, tantalum, and / or tungsten silicates and aluminates and / or aluminosilicates, silica, quartz, ceramics, nanoparticles. Peferably the filler particles have a range of particle sizes of from 0.001 micrometers to 10 micrometers.
[0007] The polymerizable dental materials of the invention are quickly and easily reshaped, for example by warming, and shaping it while warm and then allowing it to cool to body (37° C.) or room temperature (23° C.). The cooled polymerizable dental materials may be worked for example by packing, molding, shaping, and / or carving. The worked polymerizable dental materials are cured.
[0013] Polymerizable dental materials of the invention are preferably rapidly partially recrystallizable. Rapid recrystallizability provides the densification of the polymeric products and a combination of flowability and dimensional stability, depending on its temperature prior to polymerization. When polymerized, the crystallized phase melts effective resulting in volume expansion, which offsets polymerization shrinkage. The combination of volume expansion from phase change and ring-opening process ensures the low polymerization shrinkage or even polymerization expansion. Thus, the polymeric products are low shrinkage and low stress restorations and devices. “Crystallinity” as used herein refers to regularity and order within a material resulting in a heat of fusion of at least 1.0 J / g at and below 50° C. Heat of Fusion as used herein refers to enthalpy of fusion as determined by ASTM 793-95. Percent crystallinity is determined by measuring the heat of fusion using differential scanning calorimetry according to ASTM test method E 793-95.
[0020] A preferred embodiment of the invention provides a prepared cavity in a tooth in a patient's mouth, which is then filled by positioning in the prepared cavity a composition including at least 40 percent by weight filler and a polymerizable dental material selected from the group consisting of wax-like polymerizable dental material and restorative paste wax polymerizable dental material. Then the polymerizable dental material is light cured to form dental polymeric material with a shrinkage during polymerization of less than 2 percent by volume. The polymerizable dental material includes a portion of crystals, which melt during polymerization. The crystals are believed to be crystals of oligomer and / or crystals of monomer. The volume of the liquid formed by melting the crystals is greater than the volume of the crystals. This expansion reduces the shrinkage of the polymerizable dental material caused by polymerization. In addition, the wax-like polymerizable materials of this invention showed low polymerization shrinkage due to the ring opening process involved. This invention provides low polymerization shrinkage materials with and without fillers. Furthermore, low polymerization shrinkage materials offer low stress restorations and low stressed cured dental devices.
[0021] Moreover, the compositions of this invention provide a system with two types of initiators to initiate rapid free radical polymerization and relatively slower cationic polymerization. The incorporation of cationic polymerization slows down the complete polymerization conversion process, so as to reduce polymerization stress and more effective introduction of stress reduction by volume expansion from melting phase change and ring opening process.

Problems solved by technology

The prior art does not disclose a wax-like polymerizable material for forming dentures or other high toughness products.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

example 1a

Preparation of Epoxy Oligomer

[0023] Epoxy oligomer was prepared by mixing of 0.2 gram of 2-methylimidazole and 41.25 grams of bis(3,4-epoxy-6-methylcyclohexylmethyl)adipate, and 26.0 grams of 1,10 decanediol. Then the mixture is stirred under nitrogen for 8 hours at temperatures between 120 to 150° C. After the reaction, resin is collected as yellow liquid and cooled down to room temperature to form gel-like waxy solid.

example 1b

Preparation of Epoxy Oligomer

[0024] Epoxy oligomer I was prepared by mixing of 0.12 gram of 2-methylimidazole and 29.3 grams of bisphenol A proxylate diglycidyl ether, 16.2 grams of 1,10-decanediol in a three-neck flask. Then the mixture is stirred under nitrogen for 8 hours at temperatures from 100 to 150° C. After the reaction, light yellow resin is collected and cooled down to room temperature to form soft wax-like resin.

example 2a

Preparation of Monomer

[0025] A reaction flask was charged with 700 grams of 1,6-diisocyanatohexane and heated to about 70° C. under a positive nitrogen pressure. To this reactor were added 1027 grams of 2-hydroxyethyl methacrylate, 0.75 gram of catalyst dibutyltin dilaurate and 4.5 grams of butylated hydroxy toluene (BHT). The addition was slow and under dry nitrogen flow over a period of two hours. The temperature of the reaction mixture was maintained between 70° C. and 90° C. for another two hours and followed by the addition of 8.5 grams of purified water. One hour later, the reaction product was discharged as clear liquid into plastic containers and cooled to form a white solid and stored in a dry atmosphere.

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Abstract

The invention provides a low polymerization shrinkage dental composition and a polymerizable dental material selected from the group consisting of wax-like dental material that undergoes ring open polymerization. The dental composition is useful as restorative material and for making artificial teeth, dentures, restoratives, crowns and bridges of high strength dental polymeric material.

Description

RELATED APPLICATIONS [0001] This application claims the benefit of U.S. Provisional Application Ser. No. 60 / 627,199 filed on Nov. 12, 2004.TECHNICAL FIELD [0002] The invention relates to wax-like polymerizable materials. This wax-like polymerizable dental material is quickly and easily reshaped. The shaped wax-like polymerizable dental material is cured to form dental products, such as crowns, bridges, dentures, and other restoration devices and appliances. BACKGROUND OF THE INVENTION [0003] Volkel et al in U.S. Pat. No. 6,057,383 (and Canadian Patent Application 2207351), assigned to Ivoclar, disclose wax-like polymerizable material for making entire dental products. The prior art does not disclose a wax-like polymerizable material for forming dentures or other high toughness products.DETAILED DESCRIPTION OF THE INVENTION [0004] The invention provides wax-like polymerizable dental material and restorative paste wax polymerizable dental material. Wax-like polymerizable dental materi...

Claims

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Application Information

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IPC IPC(8): A61K6/083A61K6/884
CPCA61K6/0017A61K6/0023A61K6/0038A61K6/087C08L63/10A61K6/54A61K6/891A61K6/30A61K6/20
Inventor SUN, BENJAMIN JIEMINLICHKUS, ANDREW MURRAY
Owner SUN BENJAMIN JIEMIN
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