Abstract: A surgical tool for use with a drill bit to prevent skiving at an implant insertion site on a bone includes a cannulated sleeve having a distal end defining a burr surface. The distal end may be detachable from a body of the cannulated sleeve. The tool may be used with more than one distal end, each of the distal ends defining a burr surface having a different cutting surface from the others. The tool may form a system that includes the drill bit.

Abstract: A surgical tool for use with a drill bit to prevent skiving at an implant insertion site on a bone includes a cannulated sleeve having a distal end defining a burr surface. The distal end may be detachable from a body of the cannulated sleeve. The tool may be used with more than one distal end, each of the distal ends defining a burr surface having a different cutting surface from the others. The tool may form a system that includes the drill bit.

Abstract: Tool assemblies and methods are disclosed, such as for robotic-assisted surgery with a robot. The tool assembly includes a working tool (44) sized to be coaxially movable within the dilator (60). A locking mechanism (70) releasably couples the working tool (44) and the dilator (60) to one another such that, in a locked configuration, the robot supports the tool assembly. An actuator (86) is configured to receive an input to move the locking mechanism to an unlocked configuration and permit axial movement of the working tool within the dilator. The dilator (60) may include at least one spike (104) disposed within the grooves (128) to penetrate bone. The dilator (60) may include an inner sleeve and outer sleeve coaxially movable relative to one another to move the tool assembly from an initial configuration to a deployed configuration in which the spikes are exposed beyond the sleeve(s). Methods of preparing a pedicle of the spine with the tool assembly with robotic assistance are also disclosed.

Abstract: A surgical tool for use with a drill bit to prevent skiving at an implant insertion site on a bone includes a cannulated sleeve having a distal end defining a burr surface. The distal end may be detachable from a body of the cannulated sleeve. The tool may be used with more than one distal end, each of the distal ends defining a burr surface having a different cutting surface from the others. The tool may form a system that includes the drill bit.

Abstract: A bone fixation screw device for implantation into a bone of a patient is disclosed. The screw device includes a screw body having an outer surface. A plurality of outer screw threads extends around the outer surface of the screw body. A plurality of apertures or passages is defined through the outer surface. A plurality of anchors can extend out of corresponding apertures in the screw body. The anchors can be inserted into a patient's bone to further fixate and purchase the bone screw within the patient's bone. The screw body can include an inner cavity, the plurality of apertures each being open to the inner cavity. The anchors can extend out of corresponding apertures from the inner cavity.

Abstract: A bone fixation screw device for implantation into a bone of a patient is disclosed. The screw device includes a screw body having an outer surface. A plurality of outer screw threads extends around the outer surface of the screw body. A plurality of apertures or passages is defined through the outer surface. A plurality of anchors can extend out of corresponding apertures in the screw body. The anchors can be inserted into a patient's bone to further fixate and purchase the bone screw within the patient's bone. The screw body can include an inner cavity, the plurality of apertures each being open to the inner cavity. The anchors can extend out of corresponding apertures from the inner cavity.

Abstract: A bone fixation screw device for implantation into a bone of a patient is disclosed. The screw device includes a screw body having an outer surface. A plurality of outer screw threads extends around the outer surface of the screw body. A plurality of apertures or passages is defined through the outer surface. A plurality of anchors can extend out of corresponding apertures in the screw body. The anchors can be inserted into a patient's bone to further fixate and purchase the bone screw within the patient's bone. The screw body can include an inner cavity, the plurality of apertures each being open to the inner cavity. The anchors can extend out of corresponding apertures from the inner cavity.