A dental abutment core with a prosthetic connection, a pillar and a shoulder located between the prosthetic connection and the pillar. The pillar has anti-rotational elements for preventing a custom body from rotating with respect to the dental abutment core. The pillar has a first portion adjacent to the shoulder, a second portion adjacent to the first portion, and a third portion farthest from the shoulder. A cross section of at least part of the first portion is circular and has an outer diameter which is lower than a cross section dimension of the second portion. The anti-rotational elements are located in the third portion. A method for manufacturing a dental abutment with such dental abutment core is also described.

An implant fixture is disclosed. The implant fixture contains an elongated shaft section, and a head section comprising a concavity along the head section's perimeter, wherein the concavity provides an area for bone growth therein to compensate for jawbone deterioration adjacent to the implant fixture due to craniofacial growth.

A method for creating a digital model of a denture for a patient, where the denture includes a gingival part and artificial teeth, includes obtaining digital models of artificial teeth representing the artificial teeth; obtaining a 3D scan comprising a digital representation of at least part of the patient's existing gingiva; digitally modeling a gingival part of the digital model of the denture using the 3D scan and the digital artificial teeth; digitally determining a first offset defining a first thickness of a first portion of the gingival part of the digital model of the denture that extends from the digital representation of the at least part of the patient's existing gingiva; and digitally determining a second offset defining a second thickness of a second portion of the gingival part of the digital model of the denture that extends from the digital artificial teeth.

A dental implant including an implant body having a top surface, and at least one non-annular cutaway portion longitudinally extending downwardly from the top surface along one side of the body and outwardly to the periphery, and a method for making the implant. The implant body preferably includes a body portion and a head portion integrally formed with the body portion, the body portion has a periphery and the head portion has a non-circular periphery, and the periphery of the head portion is smaller than the periphery of the body portion.

A dental restoration method comprising a step of determining a positioning of a dental implant (60), integrated into a bone structure (62) of an individual, from the identification and positioning of a one-piece healing member (10), attached at one of the ends of same in the implant (60), the healing element (10) comprising a side surface (13) intended to be integrated into a gum in order to shape the gum during the healing of same, and an end surface (14), a part of the side surface (13) and of the end surface (14) forming an emergent surface, intended to remain outside the gum, that is asymmetrical relative to at least a perpendicular median plane.

A method for creating a digital model of a denture for a patient, where the denture includes a gingival part and artificial teeth, includes obtaining digital models of artificial teeth representing the artificial teeth; obtaining a 3D scan comprising a digital representation of at least part of the patient's existing gingiva; digitally modeling a gingival part of the digital model of the denture using the 3D scan and the digital artificial teeth; digitally determining a first offset defining a first thickness of a first portion of the gingival part of the digital model of the denture that extends from the digital representation of the at least part of the patient's existing gingiva; and digitally determining a second offset defining a second thickness of a second portion of the gingival part of the digital model of the denture that extends from the digital artificial teeth.

An implant fixture is disclosed. The implant fixture contains an elongated shaft section, and a head section, wherein the head section contains at least one concave area for bone growth therein.

A dental restoration system for a full-mouth dental replacement may include a dental restoration device having integrally formed teeth portions corresponding in number to a number of post-extraction tooth sockets of an entire maxillary or mandibular arch of a patient and abutment holes extending through teeth portions having a longitudinal axis that is substantially coaxially aligned with a tooth portion axis; straight implants secured within post-extraction tooth sockets having an implant axis that is substantially coaxially aligned with a tooth socket axis; abutments received within corresponding abutment holes and securable to corresponding implants by passing an abutment screw through each abutment and threadably securing the abutment screw within a threaded opening of a corresponding straight implant, wherein upon securing each of the abutments to the corresponding straight implants, an ovate pontic portion of the dental restoration device body seals against keratinized gingiva of the corresponding post-extraction tooth socket.

In some aspects, the techniques described herein relate to a dental restoration device for a full-mouth dental replacement, including: a body extending between a gingival side and an occlusal/incisal side, wherein the body includes a plurality of teeth portions each having a tooth axis extending between the gingival side and the occlusal/incisal side that is offset from vertical; an ovate gingival contour defined on each tooth portion on the gingival side of the body; and at least first and second abutment holes extending through at least first and second teeth portions from the gingival side to the occlusal/incisal side, wherein each of the first and second abutment holes includes a longitudinal axis that is substantially coaxially aligned with the tooth axis of the first and second teeth portions, respectively.

A process for preparing one of a patient's upper and lower jaw for a full arch teeth replacement may include extracting every tooth in a patient's arch to define a corresponding number of post-extraction root sockets, wherein each tooth is extracted atraumatically to substantially maintain the patient's original alveolar bone and original keratinized gingiva, waiting a period of time to allow for tissue healing and substantial osteoblast/osteoclasts interaction and remodeling such that newly ossifying bone fills space in each of the post-extraction root sockets, installing a plurality of socket-sized implants less than the number of post-extraction root sockets into corresponding post-extraction root sockets, and allowing for osseointegration of each of the socket-sized implants into the newly ossifying bone of the corresponding post-extraction root sockets.