A Fast-Setting Moisture-Tolerant Root Canal Retrofilling and Repair Material
Improved physical properties in dry and moist environments compared to commonly used MTA Good biocompatibilityPossible promotion of osteogenesis in surrounding areaLower cost component materials compared to MTALight curable and easy to manipulate
Root repair and retrofilling material for endodontic therapy, including: Root end-fillingPerforation repairTreatment of resorptive defectsTreatment of vital exposed pulpsObturation of immature non-vital teeth
Professor White and colleagues have developed a new endodontic root-end filling, repair, obturating, and pulp capping material. The filling material has none of the disadvantages of currently used materials, such as mineral trioxide aggregate (MTA) and resin-modified glass-ionomers. Yet, it boasts additional advantages such as moisture friendliness a quick light-cure command set, wide clinical application, and low cost. The technology has applications in dental offices as an alternative to existing materials for root end-filling during root canal surgery and other dental procedures.
9889071
State Of Development Prototype materials in this class have been fabricated. Testing and characterization of materials is underway. Background Root canal therapy and other dental repair procedures often require a material to repair and cap the root. This cap material is necessary to prevent the leakage of irritants which may ultimately cause failure of the root canal. Root capping materials must therefore have excellent leakage resistance. A significant challenge is finding a material that exhibits good leakage resistance while also exhibiting good biocompatibility, good durability, and short setting times. Mineral trioxide aggregate (MTA) is a widely used material due to its stability and biocompatibility. However, MTA has low abrasion and dissolution resistances and requires several hours to set. Other, resin-based materials have improved physical properties and fast light curability, but suffer from low biocompatibility. Calcium sulfate has a long history of use in dentistry due to its low cost and biocompatibility. However, calcium sulfate is relatively soluble and would be a poor material for moist environmental applications, such as root caps. The development of a technology that can provide the desired benefits without the drawbacks of current materials would allow for lower cost and lower maintenance endodontic therapy. Tech ID/UC Case 24618/2013-309-0 Related Cases 2013-309-0
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