A dental implant that facilitates insertion includes a body having a coronal end and an apical end opposite the coronal end. An implant-prosthetic interface region is provided adjacent the coronal end. A tapered region is adjacent the apical end. A variable profile helical thread extends along the tapered region. The thread becomes broader in the apical-coronal direction and higher in the coronal-apical direction. The threads include an apical side, a coronal side and a lateral edge connecting them. The variable profile thread includes an expanding length of the lateral edge while the distance of the lateral edge from the base is reduced in the direction of the coronal end. The implant also has a gradual compressing tapered core, a self drilling apical end with a spiral tap, and a coronal end with and inverse tapering.

A bone-bonded artificial tooth structure for fixing to a patient's partially atrophied and gum covered alveolar bone includes a base portion having opposed lower and upper connecting sections located below and above a peak of the atrophied alveolar bone, respectively, the lower connecting section being in contact with the atrophied alveolar bone, and one side of the upper connecting section opposed to the atrophied alveolar bone defining a connecting surface; a tooth portion fixed to the connecting surface; and a dental anchor having an anchoring section inserted into the atrophied alveolar bone and another anchoring section inserted in the base portion to restrict the base portion from displacing relative to the alveolar bone. The bone-bonded artificial tooth structure fixed to the alveolar bone can immediately provide good supporting strength for chewing food without needing to wait for a long time for the osseointegration of the bone with the base portion.

A method for producing an adaptive element for dental implantation includes: creating a 3D virtual model including a crown part and a root part; obtaining a boundary curve between the crown part and the root part; defining a boundary plane on the root part perpendicular to a vertical axis of the 3D virtual model and spaced apart from the boundary curve; projecting the boundary curve on the boundary plane in a direction parallel to the vertical axis; generating a tubular model having a predetermined thickness based on the boundary curve, a virtual surface connected from the boundary curve to the cutting plane, and the cutting plane; and producing the adaptive element according to the tubular model.

Aspects of the present invention include a screw device configured for implantation into human bone for dental and bone restoration purposes, or animal long bone. More particularly, embodiments of the present invention include a surgical screw having a surgical pinpoint tip, a head, a set of threads having a dynamic surgical region including quantified progressing minor diameters and a stabilizing surgical region including a substantially equal and parallel minor diameter between threads, and in some embodiments, an annular region and/or a tapered region. The set of threads are surgically sharp at the crest. The combination of these features enables the screw to be implanted without use of a drill or osteotome and without breaking.

An Oroantral Prosthetic Attachment placed in the remaining bone to anchor in the antral zone of the paranasal sinuses using the internal cortical of the paranasal sinuses and the external cortical of the crestal zone is described. This makes the implant not to migrate to the paranasal sinuses since a supreme anchorage is performed compacting the bone with no injury, and avoids previous bone regeneration surgeries in the paranasal sinuses.

Intraosseous dental implant comprising a shaft (11) provided with a first end (12), a second end (13) opposite the first end (12), and at least one threading (14) made on the external surface of the shaft (11).

Plug-(1,9,10) is a solid shape, fabricated by 3D printers from dental resin, designed in Cylindrical-(1), Conical-(9) and Double Cylindrical-(10) shapes with straight leveled top heads-(2) and with 3 inclined leveled top heads of 30 (3), 45 (4) and 60 (5) for (1,10) with in the center of the top head a shallow Sinkhole-(8) as guidance point and at 0.25 mm a Handling Pin-(6,7) for transport, with a narrow Neck-(7) at the bottom as breaking point after positioning. Plug (1,9,10) is used to close the holes, that are left open after screwing abutments, and prosthetic reconstructions on implants. These screw holes have to be closed. If material obstructs the screw head, it is impossible to unscrew when needed, as screwdrivers will not fit. Plugs are Fabricated precisely in the diameters of the internal walls of the holes, thus creating a friction and a vacuum when placed, and insuring a precise fit without other aids.

A dental implant fixture is proposed. The dental implant fixture is configured to be implanted in a straight alveolar bone perforation hole without inclination, and includes: a head to which an abutment is coupled; a self-tapping portion extending from the head and having a ridge diameter of cutting blades that is larger than an inner diameter of the alveolar bone perforation hole; and a guide extending from the self-tapping portion and having a diameter corresponding to the inner diameter of the alveolar bone perforation hole.

An osteo-implant is provided, having a fixing segment and an implant end. The fixing segment is provided with a thread and at least one bone healing chamber. The bone healing chamber is located at a thread root of the thread. The bone healing chamber is a chamber inwardly depressed from a surface of the fixing segment. The fixing segment has a central axis. In the same section of the fixing segment, an area of a section, which is parallel to and passes through the central axis, of the at least one bone healing chamber closer to the implant end is smaller.

In this invention one or more intermittent turned/smooth/machined/hybrid sub-collar/s (Rezaa Ring/s) feature/s are added. This can be done around any shape, size or type of dental implant. The sub-collars (Reza Rings) can be added at any point or location below the platform of a dental implant. The purpose is to halt or slow down the progression of peri-implantitis. In addition the prognosis of the infected dental implant is improved due to the presence of this added smooth surface; be it either merely due to the presence of this smooth surface or as the result of treatment in the presence of this smooth surface. Its appearance on a radiograph also serves as a demarcation point for both the clinicians and patients alike.