Abstract: An instrument manipulator and a robotic surgical system including an instrument manipulator are provided. In one embodiment, an instrument manipulator includes a plurality of independent actuator drive modules, each of the plurality of actuator drive modules including an actuator output, wherein each of the actuator outputs are configured to independently actuate a corresponding actuator input of a surgical instrument without force input from another actuator output. The instrument manipulator further includes a frame housing the plurality of independent actuator drive modules, the frame including a distal end from which each of the actuator outputs distally protrude for engaging the corresponding actuator inputs of the surgical instrument.

Abstract: A method comprises displaying a surgical environment image. The surgical environment image includes a virtual control element for controlling a component of a surgical system. The method also includes displaying an image of a body part of a user used to interact with the virtual control element. The method also comprises receiving a user input from the user with a gesture based input device while the body part interacts with the virtual control element. The method also comprises adjusting a setting of the component of the surgical system based on the received user input.

Abstract: A stiffening assembly comprises a bulkhead including an inner surface defining a central lumen. The bulkhead further includes an outer surface surrounding the inner surface and includes a wall connecting the outer surface to the inner surface. The wall is shaped to form a plurality of holes spaced apart and surrounding the central lumen. The stiffening assembly further comprises a plurality of longitudinal beams. Each beam extends through a corresponding hole of the plurality of holes. The stiffening assembly further comprises a clamping assembly configured to contact the plurality of beams. The stiffening assembly is adjustable between a flexible state in which each beam is movable within the corresponding hole and a stiffened state in which the clamping assembly clamps the plurality of beams against the bulkhead such that a transfer of forces in a radial direction between the plurality of beams and the bulkhead stiffens the stiffening assembly.

Abstract: A method may include coupling a proximal end of a first cannula to a first manipulator of a surgical system, the first manipulator being configured to remotely actuate movement of the first cannula, wherein the first cannula comprises a rigid portion disposed between the proximal end and a distal end of the first cannula, the rigid portion having a curved longitudinal axis, and coupling a proximal end of a second cannula to a second manipulator of a surgical system, the second manipulator being configured to remotely actuate movement of the second cannula, wherein the second cannula comprises a rigid portion disposed between the proximal end and a distal end of the second cannula, the rigid portion having a curved longitudinal axis.

Abstract: Systems and methods for minimally invasive tele-surgery are described. For example, the disclosure describes methods for independently controlling motions of the robotic manipulator, cannula, and surgical instrument in various surgical contexts.

Abstract: Systems and methods for image detection during grasping and stapling include an end effector having a first jaw and a second jaw, an imaging sensor mounted to the end effector and configured to capture images of a material graspable by the end effector, and one or more processors coupled to the end effector and the imaging sensor. The one or more processors are configured to receive the images from the imaging sensor, determine one or more properties of the material based on the images, and display the one or more properties of the material on an interface. In some embodiments, the end effector is part of a medical tool and the material is anatomical tissue. In some embodiments, the end effector further includes one or more of a stapling mechanism configured to staple the material or a cutting mechanism configured to cut the material.

Abstract: A teleoperated surgical system is provided that comprises a support arm; a surgical instrument, moveably mounted to the support arm, including a housing a proximal end portion and a distal end portion and having an end effector at the distal end portion thereof; an actuator to impart movement to the surgical instrument; an optical fiber, including a proximal end portion and a distal end portion, mounted to the surgical instrument to emit first light from its distal end at the distal end portion of the surgical instrument; and a light source disposed to impart the first light to the proximal end of the optical fiber at a first angle within an acceptance angle of the optical fiber.

Abstract: A radiation finder tool assists in locating tissue of interest within a patient. The radiation finder tool includes a body and a plurality of radiation detectors. The body has a distal end, a proximal end. A lengthwise axis of the radiation finder tool extends between the proximal end and the distal end of the body. The plurality of radiation detectors is oriented serially along the lengthwise axis, e.g., stacked one after the other along the lengthwise axis. Each radiation detector of the plurality of radiation detectors has a different field of view for radiation detected by that radiation detector. Each field of view of the plurality of radiation detectors has the lengthwise axis at its center.

Abstract: An apparatus includes a reference fixture. The reference fixture includes a joint, and a joint tracker to track motion of the joint. The apparatus also includes a surgical instrument. A tether is connected between the joint and the surgical instrument. A shape sensor extends from the reference fixture through the joint, through the tether, and into the surgical instrument. The shape sensor is substantially free of twist. The joint tracker measures the motion of the joint. Information from the shape sensor in combination with information from the joint tracker provides absolute three-dimensional information relative to the reference fixture, i.e., provides absolute three-dimensional information in a fixed world reference frame.

Abstract: A surgical tool having an elongated shaft having a proximal end and distal end. A surgical end effector is located about the distal end. The surgical end effector has a plurality of effector mechanisms comprising a plurality of degree of freedoms. An effector body is located at the proximal end. The effector body includes a plurality of motor interfaces for driving the plurality of effector mechanisms. A transmission is coupled to the effector body.

Abstract: An instrument manipulator may comprise a frame comprising an outer shell and an inner frame, the inner frame being movably coupled to the outer shell. The instrument manipulator may also include a plurality of actuator outputs protruding in a distal direction from the frame and an instrument support feature coupled to the outer shell. The instrument manipulator may further comprise a latching mechanism, the latching mechanism being configured to move the inner frame, the outer shell, or both relative to one another, so as to operably engage the plurality of actuator outputs with a plurality of actuator inputs of an instrument supported by the instrument support feature.

Abstract: A cannula can include a body with proximal and distal portions and a lumen extending through the body, the distal portion configured for insertion into a patient anatomy. An energy interface can be positioned in the proximal portion, and a light emitting device can be coupled to the energy interface and configured to emit light from the body. A system can include the cannula, a support structure, and an energy source. The support structure can include another energy interface that transfers energy to/from the energy interface. The energy source can be coupled to the cannula via the energy interfaces, where the light emitting device emits light from the body in response to energy received from the energy source via the energy interfaces. One or more cannulae can be used to illuminate the patient anatomy.

Abstract: A robotic system includes a processor that is programmed to determine and cause work site measurements for user specified points in the work site to be graphically displayed in order to provide geometrically appropriate tool selection assistance to the user. The processor is also programmed to determine an optimal one of a plurality of tools of varying geometries for use at the work site and to cause graphical representations of at least the optimal tool to be displayed along with the work site measurements.

Abstract: A surgical system comprises a surgical instrument having distal and proximal portions. The surgical system also comprises a reference fixture positioned in a first reference frame and a shape sensor extending from the distal portion through the proximal portion to the reference fixture. The surgical system also comprises a processor configured to perform a registration step to register the first reference frame to a fixed world reference frame. The registration step includes receiving a set of shape information of the shape sensor with a distal point of the surgical instrument located at a patient reference point. A first portion of the shape sensor is in a known geometrical shape at a fixed location along a length of the shape sensor. The registration step also includes computing a location of the patient reference point and computing a pose of the first reference frame relative to the fixed world reference frame.

Abstract: Robotic surgical systems and methods of coupling a surgical instrument to a manipulator arm are provided. In one embodiment, a system includes a base; a setup link operably coupled to the base, the setup link locating a remote center of motion for the robotic surgical system; a proximal link operably coupled to the setup link; and a distal link operably coupled to the proximal link. A plurality of instrument manipulators are rotatably coupled to a distal end of the distal link, each of the instrument manipulators including a plurality of actuator outputs distally protruding from a distal end of a frame.

Abstract: A robotic system includes a processor that is programmed to determine and cause work site measurements for user specified points in the work site to be graphically displayed in order to provide geometrically appropriate tool selection assistance to the user. The processor is also programmed to determine an optimal one of a plurality of tools of varying geometries for use at the work site and to cause graphical representations of at least the optimal tool to be displayed along with the work site measurements.

Abstract: A surgical tool having an elongated shaft having a proximal end and distal end. A surgical end effector is located about the distal end. The surgical end effector has a plurality of effector mechanisms comprising a plurality of degree of freedoms. An effector body is located at the proximal end. The effector body includes a plurality of motor interfaces for driving the plurality of effector mechanisms. A transmission is coupled to the effector body.

Abstract: A system comprises a first cannula comprising a proximal end and a cannula opening at the proximal end. The system further comprises a teleoperated surgical instrument, and a manually operated surgical instrument configured to be inserted into the cannula opening. The system further comprises a teleoperated manipulator, a controller, and a first position sensor coupled to the teleoperated surgical instrument, the first position sensor configured to provide a first sensor input to the controller. The system further comprises a second position sensor coupled to the manually operated surgical instrument, the second position sensor configured to provide a second sensor input to the controller, the second sensor input comprising an insertion depth of the manually operated surgical instrument into the first cannula.

Abstract: A teleoperational medical system comprises an input device and a manipulator configured to couple with and move an instrument. The system also comprises a control system including one or more processors. In response to a determination that the instrument is inserted into an instrument workspace in a corresponding direction to a field of view of the workspace, the control system is configured to map movement of the input device to movement of the instrument according to a first mapping. In response to a determination that the instrument is inserted into the instrument workspace in a non-corresponding direction to the field of view, the control system is configured to map movement of the input device to movement of the instrument according to a second mapping. The second mapping includes an inversion of the first mapping for at least one direction of motion of the instrument.

Abstract: An image capturing device comprises an elongated body, an imaging window coupled to a distal end of the elongated body, and a heat source within the elongated body. The heat source is configured to apply heat to the imaging window to remove condensation from or prevent condensation from forming on the imaging window.