An actuator (12) includes a moving member (18) pivotally connected to a base unit (14) for rotation about an axis. The driving force for rotation of the moving member (18) relative to the base unit (14) is provided by a pair of antagonistically operating shape memory alloy (SMA) wires (48, 50) and transmitted via a torsional spring (56). An endoscope, or a snake-like robot (66), may include one or more of the actuators (12).

A system and a method are disclosed for treating hepatic area vein occlusion problem. There are five major techniques, used in combined manner or separately, showing effective cure rate. The first technique is to use multiple types of guiding wire through-to-through skills. The second technique is to use one or more accessory hepatic veins (AHV) to drain hepatic blood into inferior vena cava for decreasing pressure inside the liver. The third technique is to puncture through occlusion of veins. The fourth technique is reverse direction membrane puncture. The fifth technique is thrombosis handling.

The various inventions relate to robotic surgical devices, consoles for operating such surgical devices, operating theaters in which the various devices can be used, insertion systems for inserting and using the surgical devices, and related methods.

Surgical instruments are disclosed that are couplable to or have an end effector or a disposable loading unit with an end effector, and at least one micro-electromechanical system (MEMS) device operatively connected to the surgical instrument for at least one of sensing a condition, measuring a parameter and controlling the condition and/or parameter.

Instrument device with an elongated, flexible shaft that is configured to both roll and articulate in a controllable manner. The claimed system and apparatus provides endoscopic rolling and articulating capabilities with minimal tradeoffs in control, allowing for greater ease of use and clinical efficacy.

A robotic arm according to various implementations includes: a tool driver configured to hold a surgical tool; a first section comprising a first end coupled to a base, a second end distal from first end; a first link that includes a motor configured to rotate at least a portion of the first section around a pitch axis; a second link coupled to the first link, the second link including a motor configured to rotate at least a portion of the first section around a roll axis; and a second section comprising: a first end coupled to the second end of the first section, a second end distal from the first end, a first link that includes a motor configured to rotate at least a portion of the second section around a roll axis, a second link coupled to the first link.

A surgical system includes a drive unit on a support. The drive unit includes motors or other actuators and a plurality of output elements arranged such that operation of each drive unit linearly translates a corresponding one of the output elements. A surgical device has actuation elements extending through an elongate shaft to a distal articulation section, and an input subsystem carried at the proximal end of the shaft. Linear translatable input elements or pistons of the input subsystem are each associated with a corresponding one of the actuation elements. The input and output elements are positioned such that operation of an actuator linearly translates an output element, causing linear translation of a corresponding input element and engagement of an actuation element. A sterile drape is positionable between the input elements and the output elements.

A device for establishing an access channel to a target location is presented. The device includes a plurality of cylindrical segments. A plurality of backbones each extends through a backbone channel of each segment to join the plurality of segments together. When joined together, the central bore of each of the plurality of cylindrical segments align to form an access channel. A distal segment is fixedly attached to each of the plurality of backbones such that an orientation of the distal segment can be adjusted by linear movement of one or more of the plurality of backbones through the plurality of cylindrical segments. Furthermore, when linear movement of the plurality of backbones is restricted, the shape of the access channel can be adjusted by external forces while maintaining the orientation of the distal segment.

A suturing instrument is provided. The suturing instrument comprises: a flexible shaft comprising an articulatable bending section; and a needle end effector located at a distal end of the bending section. The needle end effector comprises a toggle-based rotation mechanism to switch an orientation of a needle to engage and disengage the needle with a ferrule.

Devices, systems, and techniques for synchronized motion of independent surgical devices. An example first surgical instrument may have a movable component. The first surgical instrument may receive a motion control parameter. The motion control parameter may be one or more of: a force relative to a tissue contact shared between the first surgical instrument and the second surgical instrument; or a positional relationship between the first surgical instrument and the second surgical instrument. The first surgical instrument may sense a motion event caused by a user control input to a second surgical instrument. The first surgical instrument may autonomously adjust motion of the movable component based on the motion control parameter and the motion event.