Techniques for retracting an instrument into an entry guide include receiving a retraction command for the instrument, the retraction command commanding movement of the instrument into the entry guide; causing, in response to the retraction command and using an instrument manipulator, movement of a rotational joint of the instrument that is external to the entry guide toward a distal end of the entry guide; actuating, after the rotational joint reaches a minimum distance from the distal end of the entry guide, the rotational joint to orient a link of the instrument so that the link can be retracted into the entry guide, the link being adjacent to and distal to the rotational joint; and causing, after the link is oriented so that the link can be retracted into the entry guide and using the instrument manipulator, further movement of the rotational joint toward the distal end of the entry guide.

A surgical system includes an overtube, a sheathing tube, a syringe, a tube, an inner needle, and a storage case that has individual storage parts for individually storing the overtube, the sheathing tube, the syringe, the tube, and the inner needle, respectively. The storage case fixes a first instrument, which is any one of the overtube, the sheathing tube, the syringe, the tube, or the inner needle, to the individual storage part corresponding to the first instrument by using at least one of second instruments which are other instruments stored in the individual storage parts.

Surgical visualization systems and related methods are disclosed herein, e.g., for providing visualization during surgical procedures. Systems and methods herein can be used in a wide range of surgical procedures, including spinal surgeries such as minimally-invasive fusion or discectomy procedures. Systems and methods herein can include various features for enhancing end user experience, improving clinical outcomes, or reducing the invasiveness of a surgery. Exemplary features can include access port integration, hands-free operation, active and/or passive lens cleaning, adjustable camera depth, and many others.

Pressure conditioning systems for supplying insufflation gas to an open-ended body conduit such as a rectal cavity during a transanal minimally invasive surgery (TAMIS) procedure can reduce billowing of walls of the body conduit. A pressure conditioning system can include a pressure storage component, an accumulator, and a flow restrictor. The pressure storage component can include a variable volume reservoir that is biased to a relatively low volume state. The flow restrictor can include insufflation tubing with a restrictor plate having a relatively low diameter orifice. The pressure storage component, accumulator, and flow restrictor can be fluidly connected in various orders in series or as side branches from a gas flow conduit. Despite a pulsed or otherwise discontinuous insufflation gas flow and leakage and absorption from the body conduit, the pressure conditioning system can maintain a constant pressure within the body conduit.

One embodiment provides a device, method, and wireless endoscope. The wireless endoscope includes a light integrated in a first portion. The wireless endoscope also includes a lens positioned proximate the light in the first portion. The light and the lens are inserted into a body. The wireless endoscope also includes a connector physically securing the first portion to the second portion. The second portion is not inserted into the body. The wireless endoscope also includes a camera capturing video content received through the lens. The wireless endoscope also includes a wireless transmitter transmits the video content to a receiver associated with a displaying device. The first portion and the second portion are cylindrically shaped and flexible for shaping the wireless endoscope.

Surgical visualization systems and related methods are disclosed herein, e.g., for providing visualization during surgical procedures. Systems and methods herein can be used in a wide range of surgical procedures, including spinal surgeries such as minimally-invasive fusion or discectomy procedures. Systems and methods herein can include various features for enhancing end user experience, improving clinical outcomes, or reducing the invasiveness of a surgery. Exemplary features can include access port integration, hands-free operation, active and/or passive lens cleaning, adjustable camera depth, and many others.

Techniques for retracting an instrument into an entry guide include an entry guide manipulator configured to support an entry guide and an instrument manipulator configured to support an instrument. The robotic system is configured to receive a command indicating a commanded movement of the entry guide in a direction parallel to an insertion axis of the entry guide; in response to the commanded movement of the entry guide being greater than a threshold distance in the direction parallel to the insertion axis, cause a response comprising one or more actions selected from the group consisting of: movement, using the instrument manipulator, of one or more rotational joints of the instrument external to the entry guide toward a distal end of the entry guide; and actuation of the one or more rotational joints to straighten the instrument so that the instrument can be retracted into the entry guide.

Adjustable-length surgical access devices are disclosed herein, which can advantageously allow an overall length of the access device to be quickly and easily changed by the user. The access devices herein can reduce or eliminate the need to maintain an inventory of many different length access devices. In some embodiments, the length of the access device can be adjusted while the access device is inserted into the patient. This can reduce or eliminate the need to swap in and out several different access devices before arriving at an optimal length access device. This can also reduce or eliminate the need to change the access device that is inserted into a patient as the depth at which a surgical step is performed changes over the course of a procedure. Rather, the length of the access device can be adjusted in situ and on-the-fly as needed or desired to accommodate different surgical depths.

A cannula can comprise a main body portion having an outer peripheral surface, a longitudinal axis, a transverse axis that is perpendicular to the longitudinal axis, and opposing first and second ends that are spaced relative to the longitudinal axis. A through-bore can extend through the main body portion. The through bore can comprise a first guide bore, a second guide bore spaced from the first guide bore relative to the transverse axis, and a connecting portion that extends between the first bore and the second bore. A tip portion can extend from the second end of the main body portion relative to the longitudinal axis. The tip portion can comprise a bore therethrough that is coaxial with the first guide bore.

Various devices are provided for allowing multiple surgical instruments to be inserted through a single surgical access device at variable angles of insertion, allowing for ease of manipulation within a patient's body while maintaining insufflation. Safety shields and release mechanisms are also provided for use with various surgical access devices.