초록 ▼

The dental filling material for a permanent dental filling contains up to 87 percent by weight of a mixture of bioactive glass particles capable of forming a hydroxylapatite layer and conventional non-bioactive dental glass particles surrounded or embedded in a matrix material. The glass particles h

The dental filling material for a permanent dental filling contains up to 87 percent by weight of a mixture of bioactive glass particles capable of forming a hydroxylapatite layer and conventional non-bioactive dental glass particles surrounded or embedded in a matrix material. The glass particles have an average particle size (d50) less than 50 μm. When the index of refraction of the glass particles at least approximately matches the index of refraction of the matrix material a particularly attractive appearance results when the resulting filling material is used to make a dental filling. When the bioactive glass particles contain fluoride, protection against further caries is provided. The invention also includes a method of making the dental filling material, the dental filling made with it and a binder for binding the dental filling to a tooth.

대표청구항 ▼

The invention claimed is: 1. A dental filling material for an aesthetic permanent dental filling, said dental filling material containing a resin matrix and up to 87 percent by weight of glass particles, wherein said glass particles have an average particle size (d50) less than 50 μm, said gla

The invention claimed is: 1. A dental filling material for an aesthetic permanent dental filling, said dental filling material containing a resin matrix and up to 87 percent by weight of glass particles, wherein said glass particles have an average particle size (d50) less than 50 μm, said glass particles comprise bioactive glass particles and non-bioactive dental glass particles, said bioactive glass particles are capable of forming a hydroxylapatite layer and comprise a bioactive glass material in which calcium is replaced in part with strontium and/or barium. 2. The dental filling material as defined in claim 1, wherein said resin matrix contains at most 20 percent by volume of said bioactive glass particles. 3. The dental filing material as defined in claim 1, wherein said resin matrix contains from 2 to 40 percent by volume of said bioactive glass particles. 4. The dental filling material as defined in claim 1, wherein said resin matrix has an index of refraction approximately equal to an index of refraction of said bioactive glass particles and/or an index of refraction of said non-bioactive dental glass particles. 5. The dental filling material as defined in claim 1, wherein said non-bioactive dental glass particles have an index of refraction of from 1.48 to 1.65. 6. The dental filling material as defined in claim 1, wherein said bioactive glass particles and/or said non-bioactive dental glass particles are silanized for binding into the resin matrix. 7. The dental filling material as defined in claim 1, further comprising opacifiers and/or colored pigments. 8. The dental filling material as defined in claim 7, wherein said opacifiers comprise TiO2. 9. The dental filling material as defined in claim 1, wherein said bioactive glass particles and said non-bioactive dental glass particles are embedded in said resin matrix, and wherein at least one of said resin matrix, said bioactive glass particles and said non-bioactive dental glass particles contain a radioopaque substance. 10. The dental filling material as defined in claim 1, wherein said resin matrix comprises an acrylate binder. 11. The dental filling material as defined in claim 10, wherein said acrylate binder is polymethyl methacrylate and/or bis-GMA. 12. The dental filling material as defined in claim 1, wherein said average particle size (d50) is less than 5 μm. 13. The dental filling material as defined in claim 1, wherein said average particle size (d50) is less than 4 μm. 14. The dental filling material as defined in claim 1, wherein said average particle size (d50) is less than 2 μm. 15. A permanent dental filling made from the dental filling material as defined in claim 1. 16. A dental filling material for an aesthetic permanent dental filling, said dental filling material containing up to 87 percent by weight of glass particles, wherein said glass particles have an average particle size (d50) less than 50 μm and said glass particles comprise bioactive glass particles and non-bioactive dental glass particles, wherein said bioactive glass particles are capable of forming a hydroxylapatite layer, wherein said bioactive glass particles contain from 2 to 10 percent by weight fluoride. 17. A dental filling comprising a dental filling material and a binder for binding the dental filling material to a tooth, wherein said binder contains bioactive glass particles and said dental filling material contains a resin matrix and up to 87 percent by weight of glass particles, wherein said glass particles have an average particle size (d50) less than 50 μm and said glass particles comprise said bioactive glass particles and non-bioactive dental glass particles, wherein said bioactive glass particles are capable of fanning a hydroxylapatite layer and said resin matrix includes up to 40% by volume of said bioactive glass particles. 18. A composite-reinforced glass-ionomer cement for dental applications, said cement containing bioactive glass, wherein said bioactive glass is capable of forming a hydroxylapatite layer. 19. A method of making a dental filling material for an aesthetic permanent dental filing, said method comprising the steps of: a) providing a matrix material for the dental filling material and ascertaining an index of refraction of the matrix material; b) providing non-bioactive dental glass particles consisting of a non-bioactive dental glass having an index of refraction approximately equal to the index of refraction of the matrix material; c) mixing bioactive glass particles and said non-bioactive dental glass particles in the matrix material to form the dental filling material with up to 87 percent by weight of said glass particles; wherein the glass particles have an average particle size (d50) less than 50 μm, said bioactive glass particles are capable of forming a hydroxylapatite layer and said bioactive class particles comprise a bioactive class material in which calcium is replaced in part with strontium and/or barium. 20. The method as defined in claim 19, further comprising silanizing said bioactive glass particles and said non-bioactive dental glass particles prior to said mixing. 21. The method as defined in claim 19, wherein the matrix material contains up to 40 percent by volume of said bioactive glass particles.