Dental implants may be designed using a three-dimensional scan of an extracted tooth root and/or a corresponding socket site. The dental implant may include three portions: a root segment designed to sit below the patient's gum line, a connector portion positioned above the root segment and designed to sit above the gum line, and an abutment portion positioned above the connector portion upon which a temporary or permanent crown may be placed. The root segment may include three sections that correspond to three areas of a three-dimensional scan of an extracted tooth root. The first and third sections of the implant may have a size and shape that corresponds to a first and third portions of the three-dimensional scan, respectively. A circumference of the second section of the implant may be smaller than a corresponding circumference of the second section of the three-dimensional scan of the tooth root.

A biomimetic composite material includes a bioactive cement material, an autologous dentin matrix, and an inorganic nano-reinforcement material. A dental implant includes a body including a biomimetic composite material, wherein the biomimetic composite material includes a bioactive cement material, an autologous dentin matrix, and an inorganic nano-reinforcement material.

A dental implant for supporting periodontal tissue and the supporting bone is provided. The dental implant includes an implant member with inner canal for insertion into a periodontal bone socket, and an anchoring assembly. The anchoring assembly includes a first fastening element and radially equidistant cylindrical members. The first fastening element engages the implant member within the hollow axial cavity. The root section includes through-holes for radially and forcibly sliding the cylindrical members through them. When the first fastening element apically advances within the hollow axial cavity, the cylindrical members generate an anchoring force to anchor the dental implant.

Various embodiments described herein generally relate to apparatuses and methods for performing bone implants such as, but not limited to, dental implants, knee and joint replacements, and various types of bone anchored prosthesis. For a better understanding of how the various apparatus and methods can be used for bone implants, an example will be given herein with respect to dental implants.

A dental implant for supporting periodontal tissue and the supporting bone is provided. The dental implant includes an implant member with inner canal for insertion into a periodontal bone socket, and an anchoring assembly. The anchoring assembly includes a first fastening element and radially equidistant cylindrical members. The first fastening element engages the implant member within the hollow axial cavity. The root section includes through-holes for radially and forcibly sliding the cylindrical members through them. When the first fastening element apically advances within the hollow axial cavity, the cylindrical members generate an anchoring force to anchor the dental implant.

A custom implant fixture which comprises a first fixture part having a first transverse section determined by a shape covered by an alveolar bone of a tooth to be extracted; and a second fixture part formed so as to extend from the first fixture part, determined from the position and the direction of a root portion of the tooth with respect to the alveolar bone, and having a second transverse section.

A root portion of a root-analog dental implant may include a core positioned in an approximate center of the root portion of the dental implant. The core may provide mechanical strength and/or support for the dental implant and may include one or more struts. The root-analog dental implant may further include a porous surface positioned on a portion of a vertically oriented exterior surface of the core. The struts may be configured and arranged to provide mechanical strength and/or support for the root-analog dental implant.

Dental implants may be designed using a three-dimensional scan of an extracted tooth root and/or a corresponding socket site. The dental implant may include three portions: a root portion designed to sit below the patient's gum line, a connector portion positioned above the root portion and designed to sit above the gum line, and an abutment portion positioned above the connector portion upon which a temporary or permanent crown may be placed. The root portion may include three sections that correspond to three areas of a three-dimensional scan of an extracted tooth root. The first and third sections of the implant may have a size and shape that corresponds to a first and third portions of the three-dimensional scan, respectively. A circumference of the second section of the implant may be smaller than a corresponding circumference of the second section of the three-dimensional scan of the tooth root.

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.

A dental implant and a method of dental restoration. In one embodiment, the dental implant includes at least one root adapted to be inserted into a hole of a mandibular bone or a maxillary bone, and an abutment on top of the root adapted to mate with a crown. Each root may be a lattice scaffold configured to house bone grafting material. A bone grafting material may be inserted within the lattice scaffold to occupy vacant space within the root and the hole of the mandible/maxilla. A method of dental restoration may include obtaining an image of at least a portion of a mandibular bone or a maxillary bone of a patient, drilling a hole into the mandibular bone or maxillary bone, inserting a one-piece dental implant with an abutment and one or more non-threaded roots into the hole, and installing a crown on the abutment of the one-piece dental implant.