A method of damping compressive, tensile, and lateral compressive and tensile forces on one or more prosthetic teeth and an implant recessed into jawbone through use of synthetic periodontal ligament fibers in the form of a damping membrane within a dental bridge assembly. An arcuate damping membrane positions on a full bar and a half-bar positions over the membrane; whereby the damping membrane is sufficiently resilient to enable lateral and axial movements by the prostheses affixed to the half-bar.

A force damping dental bridge assembly which damps compressive, tensile, and lateral forces on a prosthetic tooth and jawbone through use of synthetic periodontal ligament fibers in the form of a damping membrane. Multiple layers of arcuate components and Morse taper interconnections secure the assembly. A threaded implant that penetrates the jawbone defining a tapered, conical inner cavity which receives a shank protruding downwardly from a full bar. An arcuate damping membrane positions on the bar and a half-bar positions over the membrane; whereby the damping membrane is sufficiently resilient to enable lateral and axial movements by the prostheses affixed to the half-bar. A plurality of protuberances extend from an upper surface of the half-bar to enable sculpting and affixation of prostheses thereon; and whereby a plurality of fasteners detachably connect the prostheses to the bar and/or implants in a snap-fit relationship that can be detached with an implement adapted to unsnap the assembly from a patient's mouth.

A denture-securing device is provided that is usable to substantially secure a denture within a mouth. The denture-securing device may be used with top dentures, bottom dentures, or other configurations of dentures. The denture-securing device may advantageously secure dentures without requiring use of adhesives. The denture-securing device may also reduce the likelihood of food getting under dentures, provide a firm yet soft and comfortable fit, and minimize rocking of lower dentures. The denture-securing device may advantageously be secured to gums using a suction fit through saliva or other sources of moisture.

The dental plate liner includes: a paste (i) containing (A) a (meth)acrylic acid-based polymer, and a fluorine-containing (meth)acrylic acid-based polymerizable monomer in which (A) the (meth)acrylic acid-based polymer has a solubility of less than 20 mass %; and a paste (ii) containing a (meth)acrylic acid-based polymerizable monomer in which (A) the (meth)acrylic acid-based polymer has a solubility of 20 mass % or more, and a filler, in which at least one paste selected from the group consisting of the paste (i) and the paste (ii) contains a polymerization initiator, and in which the dental plate liner is used through mixing of the paste (i) and the paste (ii) immediately before use.

An apparatus and process whereby bite registration is used in the process of making removable or fixed over-implant dentures that makes patients look younger without plastic surgery. Various combinations of dentures may be used. The denture face lift system improves the look of virtually all or part of facial defects or aging wrinkles by opening proper vertical dimension in max, leaving at least 3 mm free way space between maxillary (upper) & mandibular (lower) teeth, for proper mastication and providing a proper (fuller) lip and chick support, which improves appearance and smile lines as called Anti-Aging.

A single denture model that includes both tooth and soft tissue portions (e.g., gums and palate) may be provided in a computer-aided design (CAD) or computer-aided manufacturing (CAM) modeling environment. By cutting back soft tissue surfaces of the virtual denture model within the modeling environment, cutback volumes are formed that provide space for the subsequent application of a soft tissue insert that mimics soft tissue. A denture base including these cutback volumes can be fabricated from the virtual denture model, e.g., by milling or three-dimensional printing, and soft tissue inserts (e.g., custom-fabricated or prefabricated inserts) can be assembled onto the denture base to form a complete denture.

A removable denture for an oral cavity of a human is disclosed. The removable denture includes a denture body and a supporting base. The supporting base is attached to mucosa on an edentulous alveolus and on palatine bones in the oral cavity. The denture body is joined to the supporting base. The denture body comprises a denture teeth for chewing. A central region of the supporting base is less flexible than a periphery region of the supporting base so as to maintain a high adhesion of the periphery region to the mucosa when the oral cavity is in chewing. The supporting base comprises an on-way venting device capable of improving the negative pressure effect between the supporting base and the mucosa so as to prevent the supporting base from falling off.

A dental bridge system (10) is provided, comprising a superstructure (14) having a teeth-mimicking portion at a distal end thereof, and at least one receiving cavity formed on a proximal side thereof, at least one support arrangement (12) configured for being fixedly secured, at a proximal side thereof, to an alveolar ridge of an individual, and being formed so as to be received, at a distal side thereof, within one of the receiving cavities to facilitate carrying of the superstructure (14), and a buffering arrangement (16) disposed between the superstructure (14) and the support arrangement (12), the buffer arrangement (16) being configured to damp shock impulses between the support arrangement (12) and the superstructure (14).

A method of damping compressive, tensile, and lateral compressive and tensile forces on one or more prosthetic teeth and an implant recessed into jawbone through use of synthetic periodontal ligament fibers in the form of a damping membrane within a dental bridge assembly. An arcuate damping membrane positions on a full bar and a half-bar positions over the membrane; whereby the damping membrane is sufficiently resilient to enable lateral and axial movements by the prostheses affixed to the half-bar.

A force damping dental bridge assembly which damps compressive, tensile, and lateral forces on a prosthetic tooth and jawbone through use of synthetic periodontal ligament fibers in the form of a damping membrane. Multiple layers of arcuate components and Morse taper interconnections secure the assembly. A threaded implant that penetrates the jawbone defining a tapered, conical inner cavity which receives a shank protruding downwardly from a full bar. An arcuate damping membrane positions on the bar and a half-bar positions over the membrane; whereby the damping membrane is sufficiently resilient to enable lateral and axial movements by the prostheses affixed to the half-bar. A plurality of protuberances extend from an upper surface of the half-bar to enable sculpting and affixation of prostheses thereon; and whereby a plurality of fasteners detachably connect the prostheses to the bar and/or implants in a snap-fit relationship that can be detached with an implement adapted to unsnap the assembly from a patient's mouth.