Patent application number | Description | Published |
20110070558 | DENTAL IMPLANT FIXTURE - The present invention relates to a dental implant fixture, and more particularly, to a dental implant fixture which rotates about a central axis thereof, and thus is inserted into a bone tissue constituted by a cortical bone and a spongy bone to form an artificial tooth root, wherein the dental implant fixture includes a first portion, a second portion, and a third portion. The first portion is inserted into the cortical bone and has an outer surface with a first screw thread whereon first vertices and first valleys are alternately arranged. The second portion is disposed beneath the first portion and inserted into the spongy bone, has an outer surface with a second screw thread whereon second vertices and second valleys are alternately arranged. The distance between the adjacent second vertices of the second screw thread is larger than the distance between the adjacent first vertices of the first screw thread. The third portion is disposed beneath the second portion, and has an outer surface with a third screw thread whereon third vertices and third valleys are alternately arranged, and a first cutting part which is hollowed such that the first cutting part is closer to the central axis than the third valleys. The lower outer diameter of the second screw thread is smaller than the upper outer diameter of the second screw thread. | 03-24-2011 |
20140166509 | AMPOULE FOR STORING IMPLANT CAPABLE OF MAINTAINING HUMIDITY - An ampoule for storing an implant capable of maintaining humidity includes: a container capable of airtight sealing at least momentarily or temporarily; a partition member which divides an accommodation space inside the container into two spaces, first and second spaces, and allows vaporized water molecules to be transported between the divided spaces; and a water molecule supply source which is accommodated in the first space of the two spaces divided by the partition member and supplies the vaporized water molecules. Therefore, the invention enables the construction of an environment which allows the hydrophilicity of the implant to be maintained for a long time, wherein the hydrophilicity is imparted to and protected from the surface of the implant or a coating layer formed on the surface of the implant. | 06-19-2014 |
20140199657 | MEMBRANE FOR ALVEOLAR BONE REGENERATION - A membrane for alveolar bone regeneration to guide bone generation by adapting to a bone graft material, which fills a bone defect area, includes a central hole through which an implant is inserted into an alveolar bone, wherein the membrane includes: a coupling part to couple the membrane with the implant; a side bending part that is downwardly bent from the coupling part to have an overall curved shape with a gentle slope; and lateral covering parts that protrude from edges of the side bending part and are bent and curved toward an alveolar bone defect area, wherein the side bending part and the lateral covering parts are pre-formed in three-dimensions to fit a final shape of the alveolar bone that is to be regenerated. | 07-17-2014 |
20140349251 | DENTAL MEMBRANE - A dental membrane disposed in a deficient region of an alveolar bone to form a space for regeneration of the alveolar bone or to surround a bone graft, wherein the dental membrane is fixed by an insert inserted and fixed in the alveolar bone and a cover member combined to the insert, the dental membrane including: an upper portion surrounding a top surface of the deficient region of the alveolar bone; and a side bending portion bended downward from the upper portion and surrounding a side surface of the deficient region of the alveolar bone, wherein the upper portion includes: a combined portion combined to the insert and the cover member to be fixed; and a protruding portion extending and protruding upward from the combined portion. | 11-27-2014 |
20140356814 | DENTAL IMPLANT HAVING ENHANCED EARLY STABILITY AND METHOD FOR MANUFACTURING SAME - The present invention relates to a dental implant having an enhanced early stability and a method for manufacturing same, and more specifically to a dental implant and a method for manufacturing same which assure early stability and fixation power of an implant by suppressing early osteolysis after an implant procedure, and allowing better bone coherence of the implant surface during an osteogenic period by controlling the speed of bone remodeling. | 12-04-2014 |
20150374597 | DENTAL BLEACHING COMPOSITION - A dental bleaching composition includes a dental bleaching agent, a binder, a tartrate, and a solvent. | 12-31-2015 |
20160058528 | DENTAL IMPLANT COATED WITH A MIXED SOLUTION OF CHEMICAL BUFFERING AGENT AND ORGANIC AMPHIPHILIC SUBSTANCE AND A PREPARATION PROCESS THEREOF - A bioactive-type of hydrophilic dental implant which is made of titanium or titanium alloy having a rough surface, wherein a coating layer of a mixed solution comprising i) an organic pH buffering agent and/or inorganic pH buffering agent and ii) an organic amphiphilic having sulfonic group is formed on the rough surface which was pre-treated to remove a contaminant. The present invention has effects preventing that the dental implant is exposed to air before it is inserted into the alveolar bone and the implant surface is re-contaminated; improving the biocompatibility of the implant, fluid- and blood-affinity, and the initial osseointegration performance; and shortening the osseointegration period, and the surface of the dental implant can be maintained as being hydrophilic for at least 3 years by using a mixed solution of pH buffering agent and organic amphiphilic substance having sulfonic group as a surface coating solution. | 03-03-2016 |
20160058920 | Method for Treating Surface of Implant - Disclosed is a method for treating a surface of an implant. The disclosed method for treating the surface of the implant comprises the steps of: coating a surface treatment composition containing an organic material having a hydrophilic group on the surface of the implant (coating step); and drying the coated surface treatment composition (drying step). | 03-03-2016 |