A tubular system is configured to transluminally deliver an implant comprising a tissue anchor having a coupling head and a distal helical tissue-engaging element, into a heart of a subject. The tissue anchor is slidable through a channel of the system, the channel being slidable within a catheter. An anchor driver is configured, while coupled to the coupling head of the tissue anchor, to drive the tissue anchor through the system and out the system's distal end, to anchor the tissue-engaging element to tissue of the heart. While a first electrode is in contact with the subject and a second electrode is inside the heart of the subject, a control unit receives an electrophysiological signal from the electrodes, and based on the electrophysiological signal, indicates a position of the second electrode inside the heart. Other embodiments are also described.

Disclosed herein are surgical tool systems and methods of using such to install a fixator in a biological tissue. The systems are capable of accurately measuring torque and rotational velocity and providing real time feedback to a user during surgery.

A manipulator system includes: a manipulator; a driving device to which the manipulator is detachably connected and which electrically drives the manipulator; a control device; a first sensor provided in the driving device; and a second sensor provided in the manipulator or the driving device. The control device is configured to perform a first step of confirming that the driving device operates normally according to electric power on the basis of an output of the first sensor, and a second step of confirming that the manipulator is connected to the driving device on the basis of an output of the second sensor. The first step includes checking whether the first sensor is normal, and the second step includes checking whether the second sensor is normal on the basis of the output of the first sensor that has been confirmed to be normal and the output of the second sensor.

Devices, systems, and methods for detecting unexpected movement of a surgical instrument during a robot-assisted surgical procedure are provided. The surgical robot system may be configured to measure forces and torques experienced by the surgical instrument during the surgical procedure and determine if the forces and torques are within an acceptable range. The robot system is further configured to notify the user of the presence of the unexpected movement.

Provided is a medical support arm system including a support arm that is a multilink structure having a plurality of links connected by a joint unit including an actuator, and supports a medical unit. The medical support arm system further includes a control device including an external force estimation unit to estimate an external force acting on the joint unit on the basis of a drive characteristic of the actuator, and a joint control unit to control drive of the joint unit on the basis of an external torque estimated by the external force estimation unit.

A surgical platform is disclosed. The surgical platform includes a component and a regional location tracking module configured to connect with an external device and receive geographic location data from the external device and implement geographic location specific functionality based on the geographic location data received from the external device.

A robotic surgical instrument comprising: a shaft; an articulation at a distal end of the shaft configured to articulate an end effector, the articulation driveable by a pair of driving elements; and an instrument interface at a proximal end of the shaft, the instrument interface comprising: an instrument interface element configured to drive the pair of driving elements, the instrument interface element displaceable over a displacement range, the pair of driving elements fast with the instrument interface element such that a displacement of the instrument interface element is transferred to the pair of driving elements; a tensioning mechanism configured to tension the pair of driving elements; and an alignment mechanism configured to set the displacement position of the instrument interface element to a predetermined alignment position when the end effector has a predetermined configuration, the alignment mechanism being independent of the tensioning mechanism.

Various exemplary systems, devices, and methods are provided for resisting torque in articulating surgical tools. In general, a surgical tool can include an elongate shaft having at a distal end thereof an end effector configured to engage tissue. The end effector can be configured to articulate relative to the elongate shaft. The surgical tool can include a cutting element configured to translate longitudinally along the end effector to cut the engaged tissue. When the end effector is articulated, the longitudinal translation of the cutting element along the end effector exerts a torque force on the end effector that urges the end effector away from its current angled orientation. The surgical tool can be configured to have a corrective tension or force applied thereto that counteracts the torque force.

[Object] To make it possible to perform gravity compensation with a more compact and lightweight configuration.

[Solution] There is provided a medical support arm apparatus including: an arm section including multiple joint sections, and configured such that a medical tool is provided on a front end; an actuator at least provided in a compensated joint section that is a target of gravity compensation among the joint sections, and including a torque sensor that detects a torque acting on the compensated joint section; and a gravity compensation mechanism that imparts to the compensated joint section a compensating torque in a direction that cancels out a load torque due to a self-weight of the arm section acting on the compensated joint section.

Disclosed are devices and methods for creating a bore in bone. The devices and methods described involve driving a rotating bit in an axial direction such that both rotation and linear movement are controlled and measurable. The instrument is useful for a surgeon to control and simultaneously measure the travel of the tool into the bone and prevent injury to surrounding structures.