A system for creating customized root canal obturation cores is provided. The system receives a 3D image data set representing one or more teeth. The system then displays an image of a tooth of the one or more teeth. After receiving at least one user input, the system constructs a 3D output data set from the 3D image data set based on the at least one user input. Next, the system converts the constructed 3D output data set to control data. A computer controlled manufacturing system can use the 3D output data set to manufacture a customized root canal obturation core.

Channels in a root canal of a decayed tooth are scaled with a Gutta Percha (GP) mini pellet located at the apical tip of the channel and tubular GP at the side channels. Thermostatic heat and/or ultrasonic vibration can be applied during placement. Further, real time x-rays can be taken to guide the placement and even to at least in part automate the process.

A dental device having an abutment body including a substantially radial mark on its external part, the abutment body adapted, to be connected, to an implant by a connecting member, such that the substantially radial mark is distinguishable from the abutment body in an image taken by an imaging device when the implant and abutment are installed.

An attachment member for mating with a dental implant includes a non-rotational structure and a body. The non-rotational structure is configured to mate with a corresponding non-rotational feature of the dental implant. The body extends from the non-rotational structure. The body has (i) an exterior side surface configured to at least partially engage gingival tissue adjacent to the dental implant, (ii) an exterior top surface that is exposed through the gingival tissue, (iii) a screw access bore for receiving a screw that attaches the attachment member to the dental implant in a removable fashion, and (iv) a set of radiopaque information markers that is located internal to the exterior side surface and the exterior top surface. The set of radiopaque information markers indicates information regarding the dental implant that is revealed in response to a scan from a computerized tomography (CT) scanner.

An apparatus, method and kit are provided for registering a human jaw with a CT image of the human jaw. The apparatus includes a moldable retainer and an arm having a moldable link portion and a rigid fixation portion. The link portion is attachable to the retainer and hardenable to maintain a fixed mapping between the fixation portion and the retainer. The fixation portion includes a CT marker connection region for detachably attaching a CT marker that includes a fiducial. The fixation portion also includes a tag connection region for detachably attaching a tag that is trackable by a pose measurement system. The pose of the tag connection region relative to a pose of the CT marker connection region is fixed prior to attaching either the tag or the CT marker, providing a known and fixed tag to fiducial coordinate mapping.

A dental device is described. The dental device includes a surgical template having one or more sites for drilling osteotomies in the maxillary or mandibular jaw and a false teeth set. The surgical template and false teeth set are configured to fit together to form a denture prosthesis that can be implanted in a patient. Also described are a method for creating a surgical dental template, a method for implanting a dental prosthesis, and a method for reducing jaw bone in a patient.

A scan body for intraoral scanning includes a snap-in retention capability for engagement with a dental implant having a first engagement section. The second engagement section is configured for a snap-in or frictional fit with the first engagement section to releasably secure the scan body to the implant.

An auxiliary instrument according to the present invention is an auxiliary instrument for dental use used as a reference of alignment for creating three-dimensional intraoral image data by connecting a plurality of pieces of three-dimensional image data obtained by three-dimensionally measuring an inside of an oral cavity, the auxiliary instrument including a sheet portion having a first surface and a second surface opposed to the first surface, and a plurality of identification portions formed in a thickness direction (Z direction) of the sheet portion from the first surface of the sheet portion, each of the plurality of identification portions having a three-dimensional shape configured to be identified.

A core for obturating a root canal includes a body that has a pre-formed contour that closely matches a contour of the root canal. When the core is inserted in the root canal with or without sealer, there are essentially no voids in the root canal. A method of making a customized root canal obturation core includes generating a three-dimensional image of a root canal. The method also includes manufacturing the customized root canal obturation core based on the three-dimensional image of the root canal. The customized root canal obturation core has a preformed contour that closely matches a contour of the root canal such that when the core is inserted in the root canal with or without sealer there are essentially no voids in the root canal.

A scan body for intraoral scanning includes a snap-in retention capability for engagement with a dental implant having a first engagement section. The second engagement section is configured for a snap-in or frictional fit with the first engagement section to releasably secure the scan body to the implant.