An intervertebral implant includes opposing upper and lower endplates that are configured to engage respective vertebral surfaces in an intervertebral space. The implant carries a plurality of bone fixation spikes that extend out from each endplate. The spikes define a plurality of outer surfaces that extend from a base to a tip. The spikes are laterally staggered, and have a height that increases along a longitudinal direction from the front toward the rear of the implant, and a define recess formed in at least one outer surfaces.

Impact instrument for joining prosthetic implants, comprising a housing which accommodates a striker pin, a first spring element associated with the striker pin, a release device and, at least in part, a striking piece, wherein the striking piece projects from the housing at an end face, wherein the release device is movable between a fixing position and a release position, wherein the striker pin is spaced apart from the striking piece the fixing position, wherein the release device moves automatically from the fixing position to the release position when the striking piece moves axially into the housing, in order to release the striker pin once the release position has been reached, so that the latter moves in the direction of the striking piece, accelerated by the first spring element.

Disclosed is a system to assist in a procedure. During the procedure an object may be moved relative to a subject, such as being positioned and/or placed within a subject. The system and related method may be used to assist in displaying and/or determining a pose of the object relative to a subject, such as rigid portions of a subject.

A shoulder implant system comprising a glenoid implant; a baseplate comprising an implant facing surface to face the glenoid implant; wherein the glenoid implant comprises at least one fixation element configured to engage with at least one fixation element of the baseplate; wherein the at least one fixation element of the glenoid implant comprises a center post having a distal end; wherein the at least one fixation element of the baseplate comprises a center post receptacle; wherein the baseplate comprises an outer periphery; wherein the implant facing surface of the baseplate comprises a channel which extends from the outer periphery of the baseplate to the center post receptacle of the baseplate; and wherein the channel is configured such that, during an assembly of the glenoid implant and the baseplate, the distal end of the post is movable in the channel from the outer periphery of the baseplate to the center post receptacle of the baseplate.

An artificial replacement disc includes a pair of substantially parallel plates formed to occupy a space defined by vertebral endplates, each of the plates including a plurality of spikes on a first surface and a concave trough formed on a second surface opposite of the first surface. A mobile core includes a core rim with opposing convex surfaces extending from opposite sides of the core rim, the mobile core being capable of being disposed between the pair of plates to permit the vertebral endplates to move relative to one another. The spikes on each of the plates extend substantially away from the mobile core and the convex surfaces are formed to integrally fit within the concave trough of at least one of the plates. The core rim limits lateral movement of the mobile core relative to the parallel plates. One or more insertion tools for inserting and implanting the replacement disc are also described.

Disclosed are systems, methods and devices for a surgeon to carryout different spinal methods using a robotic and/or navigational assistance to increase the accuracy of surgical access to the targeted vertebral segment, vertebral bony preparation, selecting the proper implant size and/or implant positioning, which will optimize the restoration of spinal alignment and/or range of motion to a desirable degree.

A human shoulder replacement that includes a housing with a narrow bearing articulator that can rotate to achieve the range of motion of a normal shoulder joint. The narrow bearing articulator contains a partially spherical bearing. The narrow bearing articulator fits into a housing that itself is recessed into a cavity cut into the Glenoid Fossa. The housing is typically a short cylindrically shaped receptacle that is screwed into the bone. The bearing has a shaft that passes through a drilled hole in the Humerus. The shaft is bolted at its distal end with a head that can be recessed into the Humerus. A penetrating screw is driven through a plate attached to the Humerus, through the Humerus itself, and through a hole in the shaft in the interior of the Humerus.

A baseplate for implantation into a scapula includes a first circular portion, a second circular portion, and a third circular portion, wherein the first circular portion, the second circular portion, and the third circular portion define an upper surface a projection extending from the third circular portion in a direction away from an upper surface and configured to be received with an aperture created in the scapula; an aperture extending through the projection and configured to receive a bone screw such that a portion of the bone screw extends beyond an end of the projection and into the scapula, and wherein the aperture is configured to receive a projection of an artificial joint such that the artificial joint is coupled to the baseplate.

A system can form a pilot hole to secure a securable element, such as an acetabular cup. A saddle can removably attach to the securable element. The saddle can confine a translator and allow the translator to move along a translator axis between a first translator position and a second translator position. A punch element can be movably coupled to the saddle and the translator such that when the saddle is removably attached to the securable element, moving the translator from the first translator position toward the second translator position can advance a tip of the punch element from the saddle through the securable element along a punch axis that is angled with respect to the translator axis. An impaction stem can be coupled to the translator by a joint, such as a ball-and-socket joint, and can impart motion to the translator.

Expandable fusion devices, systems, and methods. The expandable fusion device includes one or more integrated deployable retention spikes configured to resist expulsion of the device when installed in the intervertebral disc space. The implant may include upper and lower main endplates, an actuator assembly configured to cause an expansion in height of the upper and lower main endplates, and a sidecar assembly including a sidecar carrier, an upper carrier endplate pivotably coupled to an upper spike, and a lower carrier endplate pivotably coupled to a lower spike such that forward translation of the sidecar carrier pushes against the upper and lower carrier endplates, thereby deploying the upper and lower spikes.