Disclosed are various embodiments for improved surgical devices and methods of using the same in connection with bariatric and gastroesophageal surgery. The present disclosure includes a lighted bougie device that can include an elongate member and a light source. The light source can be configured to emit near-infrared light. The light source can also be positioned about the bougie such that light emitted from the light source illuminates along a portion of the bougie.

A multi-stage dilator and cannula assembly for use in surgical procedures, including minimally invasive surgical procedures, to provide tissue dilation and opening of a portal to enable the surgeon to access and provide treatment to anatomical feature of interest.

A fiducial marker to be tracked by a surgical navigation system. The fiducial marker is to be affixed to an object during a surgical procedure. The fiducial marker including a casing for attachment to the object; a light emitting component attached to the casing; a power source within the casing; a signal receiver to receive a signal from the surgical navigation system; and control logic to control the light emitting component in response to the signal from the surgical navigation system. The object to-be-tracked may include a plurality of the fiducial markers arranged in geometric pattern, and the markers may include a first active fiducial marker having a first light emitting component that emits light having a first spectral bandwidth, and a second active fiducial marker having a second light emitting component that emits light having a second spectral bandwidth different from the first spectral bandwidth.

Coupling devices and related methods are disclosed herein, e.g., for coupling a surgical instrument to a navigation array or other component. The coupling device can reduce or eliminate movement between the instrument and the navigation array, improving navigation precision. The coupling device can be quick and easy to use, reducing or eliminating the need for extra steps or additional tools to attach or detach the instrument from the coupling device. In some embodiments, the single step of inserting an instrument into the coupling device can automatically lock the instrument within the coupling device in a toggle-free manner. The coupling device can include features for consistently attaching instruments thereto at a known or predetermined location and/or orientation.

A robot-assisted surgical system comprises a plurality of robotic system components independently positionable relative to a patient in a room, at least one of the robotic system components being a robotic manipulator configured for robotic positioning of a surgical instrument in a body cavity. Other robotic system components may include a second robotic manipulator and/or a patient bed. A camera is positioned to generate an image of a portion of the room, including the robotic manipulator, or an instrument carried by the robotic manipulator as it is moved within the body. Image processing is used to detect the robotic system components on the image captured by the camera, or the tracked portion of the instrument. Once the robotic components or tracked portion of the instruments are detected in the image, the relative positions of the bases within the room may be determined.

A multi-stage dilator and cannula assembly for use in surgical procedures, including minimally invasive surgical procedures, to provide tissue dilation and opening of a portal to enable the surgeon to access and provide treatment to anatomical feature of interest.

A method of rendering medical image data includes: obtaining an image, having a plurality of voxels, of a volume of patient tissue having a plurality of tissue types; for each of the plurality of voxels: determining a first type indicator value indicating a likelihood that the voxel depicts a first one of the tissue types; storing the first type indicator value in association with the voxel; setting a first type indicator threshold for the first tissue type; rendering the image on a display and applying a first visual filter to a first subset of the voxels having type indicator values that satisfy the first type indicator threshold; and updating the rendering, responsive to receiving input data specifying a modified first type indicator threshold, to apply the first visual filter to an updated first subset of the voxels having first type indicator values that satisfy the modified first type indicator threshold.

Embodiments are directed to a medical robot system including a robot coupled to an end-effectuator element with the robot configured to control movement and positioning of the end-effectuator in relation to the patient. One embodiment is a method for removing bone with a robot system comprising: taking a two-dimensional slice through a computed tomography scan volume of target anatomy; placing a perimeter on a pathway to the target anatomy; and controlling a drill assembly with the robot system to remove bone along the pathway in the intersection of the perimeter and the two-dimensional slice.

Markers and related systems and methods are provided for localizing lesions within a patient's body, e.g., within a breast. The marker includes one or more photosensitive diodes for transforming light pulses striking the marker into electrical energy, one or more antennas, and a switch coupled to the photodiodes and antennas such that the light pulses cause the switch to open and close and modulate radar signals reflected by the marker back to a source of the signals. The antenna(s) may include one or more wire elements extending from a housing, one or more antenna elements printed on a substrate, or one or more chip antennas. Optionally, the marker may include a processor coupled to the photodiodes for identifying signals in the light pulses or one or more coatings or filters to allow selective activation of the marker.

A method of determining a boundary of a cancer of a bone of a patient includes imaging the patient's bone. A bone density ratio of interest may be obtained from the image of the bone, the bone density ratio of interest being a ratio of a first density of the bone at a first location in the image to a second density of the bone at a second location in the image. The obtained bone density ratio of interest may be compared to a reference bone density ratio of interest of a reference bone without bone cancer. Based on the comparison, it may be determined whether the cancer of the bone of the patient is present at the first location in the image or the second location in the image. The imaging may be CT imaging, and the imaging may include a first plurality of images in a first plane.