Abstract: A navigation system for use with a surgical manipulator operable in manual or semi-autonomous modes and a method for removing a volume of tissue from a patient. The navigation system includes a tracker for attaching to the patient and a localizer to receive signals from the tracker or transmit signals to the tracker. The navigation system includes a navigation processor that runs a plurality of software modules.

Abstract: Navigation systems and methods for reducing tracking interruptions during a surgical procedure. A virtual boundary generator generates virtual boundaries associated with tracking devices and a localizer. A collision detector evaluates movement of virtual objects relative to the virtual boundaries to detect collisions between the virtual objects and the virtual boundaries. A feedback generator responds to the collision detection to reduce tracking interruptions between the tracking devices and the localizer.

Abstract: A method for performing arthroplasty on a joint using a surgical navigation system and augmented reality techniques. Articular anatomical structures of the joint are located using the surgical navigation system. Using the augmented reality techniques, graphical information of implant components is superimposed at correct positions on the located articular anatomical structures of the joint. Also, constraint envelopes are displayed at correct positions relative to the located articular anatomical structures of the joint. The constraint envelopes constrain a manipulator to prepare the joint so that the implant components can be installed at correct positions in the prepared joint. The manipulator may be a passive manipulator, active manipulator, or telemanipulator, and may be mounted in-situ.

Abstract: A system is disclosed for determining a position and a change in the position of an anatomical structure. The system utilizes a surgical navigation system and a substrate that is capable of being removably mounted to an outer surface of a patient's body. The substrate includes a sensor that is tracked by the surgical navigation system and a positional device that determines the position of an anatomical structure relative to the sensor. The concatenation of the position of the sensor and the relative position of the anatomical structure allows a global position of the anatomical structure to be determined by a computer system and displayed to the user.

Abstract: A method is provided for detecting a disturbance as an energy applicator of a surgical instrument traverses a cutting path. The method includes determining actual torques for each active joint of an actuated arm mechanism and calculating expected torques for each active joint of the actuated arm mechanism, wherein the expected torques are calculated based on an angular position of each active joint and a commanded joint angle for each active joint. The method further determines estimated backdrive torques based on the expected torques and the actual torques, wherein the estimated backdrive torques indicate a disturbance along the cutting path.

Abstract: System and method for controlling a surgical manipulator to apply an energy applicator to a patient. The surgical manipulator cooperates with a navigation system to position the energy applicator with respect to a boundary so that the energy applicator is constrained from moving outside the boundary. The boundary is generated based on implant parameters measured after manufacture of the implant.

Abstract: A surgical manipulator for manipulating a surgical instrument and an energy applicator extending from the surgical instrument. The surgical manipulator further includes at least one controller configured to operate the surgical manipulator in a manual mode or a semi-autonomous mode. The at least one controller including a feed rate calculator configured to calculate an instrument feed rate. The instrument feed rate is a velocity at which a distal end of the energy applicator advances along a path segment of a tool path in the semi-autonomous mode.

Abstract: A system is disclosed for determining a position and a change in the position of an anatomical structure. The system utilizes a surgical navigation system and a substrate that is capable of being removably mounted to an outer surface of a patient's body. The substrate includes a sensor that is tracked by the surgical navigation system and a positional device that determines the position of an anatomical structure relative to the sensor. The concatenation of the position of the sensor and the relative position of the anatomical structure allows a global position of the anatomical structure to be determined by a computer system and displayed to the user.

Abstract: Robotic system and method for positioning an energy applicator extending from a surgical instrument. The robotic system includes a surgical manipulator operable in a manual mode or a semi-autonomous mode. The surgical manipulator moves the energy applicator along a tool path in the semi-autonomous mode, monitors output of a force/torque sensor as the energy applicator moves along the tool path, and reorients the surgical instrument based on the output in response to a user applying reorienting forces and torques to the surgical instrument.

Abstract: A surgical manipulator for manipulating a surgical instrument and an energy applicator extending from the surgical instrument. The surgical manipulator further includes a switch and at least one controller configured to control operation of the surgical manipulator in a first operating mode or a second operating mode. The at least one controller is also configured to determine a commanded pose to which the energy applicator is advanced based on a summation of a plurality of input forces and torques and transition between the operating modes by adjusting the plurality of input forces and torques in response to actuation of the switch.

Abstract: Systems and methods for arranging objects in an operating room in preparation for a surgical procedure. The objects are arranged based on surgical procedure information provided to a guidance station. The surgical procedure information dictates the desired placement of the objects. Placement of the objects is then guided according to their desired placement using one or more tracking elements.

Abstract: A camera and drape assembly for use with tracking elements of a surgical system includes a camera unit and a drape covering the camera unit. The camera unit includes a casing presenting a face for facing the tracking elements. Optical sensors are supported by the casing and are exposed through the casing for detecting the tracking elements. The drape covers the camera unit such that light signals from the tracking elements can be received by the optical sensors.

Abstract: Systems and methods for establishing and tracking virtual boundaries. The virtual boundaries can delineate zones in which an instrument is not permitted during a surgical procedure. The virtual boundaries can also delineate zones in which the surgical instrument is permitted during the surgical procedure. The virtual boundaries can also identify objects or structures to be treated by the instrument or to be avoided by the instrument during the surgical procedure.

Abstract: A method is provided for detecting a disturbance as an energy applicator of a surgical instrument traverses a cutting path. The method includes determining actual torques for each active joint of an actuated arm mechanism and calculating expected torques for each active joint of the actuated arm mechanism, wherein the expected torques are calculated based on an angular position of each active joint and a commanded joint angle for each active joint. The method further determines estimated backdrive torques based on the expected torques and the actual torques, wherein the estimated backdrive torques indicate a disturbance along the cutting path.

Abstract: Navigation systems and methods used to track objects moving in space. One navigation system and method employs trackers having light emitters for indicating when line-of-sight between tracking elements on the trackers and sensors is obstructed or for other errors. Another navigation system and method instructs users on how to place a tracker with respect to an object to reduce line-of-sight issues during a surgical procedure.

Abstract: Methods and systems are disclosed for relating additional spatial information associated with one volume data set of an anatomical structure with another volume data set of the anatomical structure where the spatial information is not available. A unique spatial characteristic of the volume data set is identified, such as an image moment of inertia, and an arbitrary reference frame is assigned to the volume data set and correlated with the unique spatial characteristic. The additional spatial information is also correlated with the arbitrary reference frame. The additional spatial information is then correlated to a second volume data set of the anatomical structure by registering the first and second volume data sets based on the unique spatial characteristic. The methods and systems allow registration of different volume data sets of the same anatomical structure and transfer of the additional spatial information without establishing a local reference frame based on predefined landmarks.

Abstract: Methods and systems are disclosed for relating additional spatial information associated with one volume data set of an anatomical structure with another volume data set of the anatomical structure where the spatial information is not available. A unique spatial characteristic of the volume data set is identified, such as an image moment of inertia, and an arbitrary reference frame is assigned to the volume data set and correlated with the unique spatial characteristic. The additional spatial information is also correlated with the arbitrary reference frame. The additional spatial information is then correlated to a second volume data set of the anatomical structure by registering the first and second volume data sets based on the unique spatial characteristic. The methods and systems allow registration of different volume data sets of the same anatomical structure and transfer of the additional spatial information without establishing a local reference frame based on predefined landmarks.

Abstract: A navigation system for use with a surgical manipulator operable in manual or semi-autonomous modes. The navigation system includes a tracker for attaching to the patient and a localizer to receive signals from the tracker or transmit signals to the tracker. The navigation system includes a navigation processor that runs a plurality of software modules.

Abstract: A surgical manipulator for manipulating a surgical instrument and an energy applicator extending from the surgical instrument. The surgical manipulator further includes at least one controller configured to determine a commanded pose to which the energy applicator is advanced, wherein the commanded pose is determined based on a summation of a plurality of force and torque signals.

Abstract: A surgical tool system for fitting an implant to a patient. The system includes a handpiece that is used to fit the implant. The handpiece is capable of reading data from a memory integral with the implant. The system includes a surgical navigation system capable of monitoring the position of the handpiece relative to the patient. Based on the data read by the handpiece from the memory of the implantable device and the data regarding the position of the implant the navigation system presents information regarding the procedure. This information includes data regarding the position of the implant relative to the patient or textual information based on the type of implantable device. If the implant is being improperly position, the surgical navigation system presents a warning or inhibits actuation of the handpiece.