Claims
- 1. Coated micromesh dental devices having a denier between about 300 and about 1000, containing from between about 10 and about 100 mg/yd of base coating, and having a biofilm-responsive particulate abrasive overcoating imbedded therein, wherein:
said particulate abrasive coating comprises from between about 2 and about 45 percent by weight of said device; said particulate abrasive coating has a Incidental Release Factor (IRF) of at least about 85 percent by weight; and the Perceived Abrasive Factor (PAF) for said device is at least between about 1.5 and about 4.0.
- 2. A method for removing, disrupting and controlling biofilms comprising flossing interproximal and subgingival areas with particulate abrasive, overcoated micromesh dental floss containing a saliva soluble base coating, wherein said base coating and imbedded particulate abrasive overcoating are released during flossing and cooperate with said micromesh dental floss to remove, disrupt and control biofilms.
- 3. A method for overcoating coated micromesh dental devices with particulate abrasive comprising impinging particulate abrasive onto heated liquid base, substantive coatings contained on said micromesh dental devices and subsequently passing said imbedded particulate overcoated, coated micromesh dental devices through a cooling zone, whereby said base coating solidifies entrapping said particulate abrasive onto said base coating.
- 4. Coated micromesh dental devices, overcoated with biofilm-responsive, releasable, particulate abrasives imbedded therein, wherein:
(1) said micromesh dental device is selected from the group consisting of nylon, polyethylene, polypropylene, polyester devices; (2) coatings for said micromesh dental devices are selected from saliva soluble, saliva insoluble emulsion, crystal-free coatings, and mixtures thereof; and (3) said imbedded particulate abrasives are selected from the group consisting of organic, inorganic, dental, active abrasives and mixtures thereof.
- 5. A coated micromesh dental device according to claim 1, wherein said imbedded biofilm-responsive particulate abrasive overcoating has an average particle size from between about 7 and 200 microns.
- 6. A coated micromesh dental device according to claim 1, wherein said imbedded biofilm-responsive particulate abrasive overcoating has a particle size distribution from between about 5 and about 300 microns.
- 7. Coated micromesh dental devices according to claim 1, wherein said overcoating also contains additional solid particulates selected from the group consisting of water soluble waxes, water soluble nonionic surfactants, MICRODENT® emulsions, ULTRAMULSION® emulsions and mixtures thereof.
- 8. Coated micromesh dental devices according to claim 1, wherein said micromesh dental floss is selected from the group consisting of dental flosses illustrated in FIGS. 1a through 1f.
- 9. Coated micromesh dental devices according to claim 1, wherein said coating contains a releasable antimicrobial.
- 10. Coated micromesh dental devices according to claim 1, wherein said biofilm-responsive particulate abrasive overcoating is a dental abrasive selected from the group consisting of silica, pumice, alumina, calcium carbonate, dicalcium phosphate dihydrate and mixtures thereof.
- 11. Coated micromesh dental devices according to claim 1, wherein said biofilm-responsive particulate abrasive overcoating is an active abrasive selected from the group consisting of whitening, tartar control, stain fighting, hypersensitivity treatment abrasives and mixtures thereof.
- 12. Coated micromesh dental devices according to claim 1, wherein said dental abrasive is pumice.
- 13. A method for removing, disrupting and controlling biofilms comprising flossing interproximal and subgingival areas with particulate abrasive, overcoated micromesh dental floss containing a saliva insoluble base coating, wherein said base coating imbedded with particulate abrasive overcoating functions as a soft abrasive oral sandpaper during flossing to remove, disrupt and control biofilms.
- 14. A coated micromesh dental device according to claim 1, wherein said base coating is saliva insoluble and said biofilm responsive particulate abrasive overcoating is insoluble.
- 15. A method for overcoating coated micromesh dental floss with particulates comprising impinging saliva soluble particulate abrasive onto a heated liquid base coating substantive to said micromesh followed by impinging particulate abrasive onto said heated liquid base coating, subsequently passing said imbedded particulate overcoated, coated micromesh dental floss through a cooling zone, whereby said base coating solidifies entrapping said particulates into said base coating and passing said particulate overcoated, coated micromesh dental floss through an imbedded particulate overcoating compression means.
- 16. A method according to claim 15, wherein each of said particulates are introduced from a fluidized bed means.
- 17. Coated, micromesh dental devices having a denier between about 300 and about 1000 containing from between about 10 and about 100 mg/yd of an emulsion base coating and having a biofilm-responsive particulate overcoating imbedded therein, wherein:
said particulate abrasive coating comprises from between about 2 and about 45 percent by weight of said device; said particulate abrasive coating has a Incidental Release Factor (IRF) of at least about 85 percent by weight; and the Perceived Abrasive Factor (PAF) for said device is at least between about 1.5 and about 4.0.
- 18. Coated, micromesh dental devices according to claim 17, wherein said emulsion base coating is MICRODENT®.
- 19. Coated, micromesh dental devices according to claim 18, wherein said biofilm-responsive particulate overcoating contains a whitening substance.
- 20. Coated, micromesh dental devices according to claim 17, wherein said base coating and said particulate overcoating each contain a tartar control substance.
- 21. A method for overcoating coated micromesh dental floss with particulate, wherein said particulate abrasive overspray is collected and recycled using a vacuum cyclone recovery means.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application is a continuation-in-part of U.S. patent application Ser. No. 10/073,682, filed Feb. 11, 2002, entitled, “Micromesh Interproximal Devices; and this application is copending with U.S. patent applications Ser. Nos. 10/bbb,bbb and 10/ccc,ccc (Docket Nos. 5369/00027 and 5369/00028), each filed on the same date of this patent application, and entitled respectively, “Coated Monofilament Dental Devices Overcoated with Imbedded Particulate”, and “Coated Multifilament Dental Devices Overcoated with Imbedded Particulate”. The disclosures of these applications are hereby incorporated herein by reference.
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
10073682 |
Feb 2002 |
US |
Child |
10331800 |
Dec 2002 |
US |