Abstract: A method for producing a bone replacement, a cavity or a bone being detected in a fully automated manner and the bone replacement being produced based on the detection also in a fully automated manner. It is also possible to produce information in relation to medical instruments or navigation information in a fully automated manner.
Abstract: A position capturing device for tooth implants in a patient's mouth includes multiple position capturing units, each with an elongated transfer post with a shank. The device includes a tooth implant interface and a bore configured to receive a tooth implant screw. The device includes a carrier unit, configured to interconnect the position capturing units, that includes a carrier element and first and second fixing elements. The first fixing element includes a fastening element configured to pivotably and lockably attach to the carrier element, a shank-receiving element with a sleeve-shaped portion configured to be plugged onto the shank, and a clamping screw connecting the fastening element and the shank-receiving element to be rotatable relative to each other. The fastening element includes a sleeve-shaped portion configured to surround the carrier element and allow a displacement of the fastening element along the carrier element.
Abstract: The invention relates to a tooth implant analog 10 with an elongated cylindrical body 11, of which the distal end 12 has a connection interface 20 for an abutment and of which the proximal end 16 has an outer thread 28, with an indexing element 22, which is attached to the outer face of the body, and with a depth stop element 18, which is provided on the outer face of the body.
Abstract: The invention relates to a tooth implant analog 10 with an elongated cylindrical body 11, of which the distal end 12 has a connection interface 20 for an abutment and of which the proximal end 16 has an outer thread 28, with an indexing element 22, which is attached to the outer face of the body, and with a depth stop element 18, which is provided on the outer face of the body.
Abstract: A scan body for determination of a positioning and orientation of a dental implant, including a base part having an interface, including a three-dimensional scan region comprising at least four different scan areas, including a transition region axially between the scan region and the interface, as well as including a fastening screw for fixing the scan body in the implant, characterized in that the base part comprising the interface on the one hand and a scan element comprising the scan region including the transition region on the other hand are separately produced components, which are connected to one another by means of a non-positive and/or a positive connection.
Abstract: Scanbody for detecting the position and orientation of a dental implant. A scanbody including a bottom section capable of being connected to an implant, and also a three-dimensional scannable region having an asymmetrical geometry permitting unequivocal detection of its surface from different scanning directions in relation to a longitudinal center axis of the scanbody. The scannable region is provided, on its peripheral cylindrical surface, with scannable sections that are radially offset outwardly and/or inwardly in relation to the peripheral cylindrical surface, each of which scannable sections is differently shaped from the other scannable sections.