A surgical power drill system includes a housing unit, a driving unit, a tool holder, and a screw member. The driving unit is movably mounted in the housing unit and includes a motor and a motor shaft coupled to the motor. The driving unit is movable relative to the housing unit between a distal position, where the driving unit is distal from a front end of the housing unit, and a proximate position, where the driving unit is proximate to the front end of the housing unit. The tool holder is coupled to a first end portion of the motor shaft. The screw member is coupled to a second end portion of the motor shaft.

A jaw angle detection system for an end effector assembly includes a first electrical contact that connects to a first jaw member and connects to a generator. A sensor connects to a second jaw member (or an actuator) and connects to the generator, and configured to move relative to the first electrical contact upon movement of the second jaw member (or the actuator) when the first and second jaw members are moved to close about tissue disposed therebetween. Information relating to the position of the sensor relative to the first electrical contact is relayed back to the generator to determine an angle between the first and second jaw members.

A device sized and shaped for insertion into a body comprising: at least one mechanical limb comprising: a support segment; a first flexible section extending from the support segment and terminating in a coupling section; and a second flexible section extending from the coupling section and terminating in a tool or a connector for a tool; wherein a long axis of one or more of the flexible sections is bendable in a single bending plane; wherein a long axis length of the first flexible section is at least double a maximum extent of the first flexible section perpendicular to a flexible section long axis; wherein a long axis length of the second flexible section is at least double a maximum extent of the second flexible section perpendicular to a flexible section long axis.

An endoscopic capsule system comprising: an endoscopic capsule having magnetic characteristics; an extracorporeal guiding and moving apparatus having a moveable multi-hinged cantilever arm which is pivotably mounted at a support stand at one end and at an effector having magnetic characteristics at the other end to move the endoscopic capsule in accordance with movement of the effector; a controller device to define the position and orientation of the endoscopic capsule relative to the effector, and a force and/or moment generation device or a braking device to generate counter forces and/or counter moments or braking forces against moving and/or guiding forces that are manually applied to the cantilever arm and/or effector in accordance with the actually defined position and/or orientation of the endoscopic capsule relative to the effector.

An automated spatial frame is disclosed. The spatial frame may include a master controller unit arranged and configured as a centralized controller for exchanging data with a remote computing system, exchanging data with a plurality of automated struts, and delivering power to the automated struts. Thus arranged, the master-controller unit may be configured as a fully integrated, rechargeable power supply/controller unit for powering and controlling the automated struts. In one embodiment, the master-controller unit is coupled to an external surface of a platform. The platform acting as a conduit for coupling the master-controller unit to the automated struts. As such, at least one of the platforms provides integrated connectivity to the automated struts. In one embodiment, the struts may be wireless automated strut including a motor, a power source, and a wireless communications module for communicating with an external computing system.

The problem to be solved is to provide a new method and system for appropriately detecting a joint state from an acoustic of a joint. The present method comprises the step of obtaining, using a bio-acoustic sensor, an acoustic signal emitted by a joint during a time period that at least includes a first motion period wherein the joint changes from a first state to a second state, a pause period of the joint and a second motion period wherein the joint changes from the second state to the first state, the step of converting the obtained acoustic signal into time trend data that at least shows a relationship between an acoustic signal intensity and time, and the step of setting, from the time trend data, a basic threshold value regarding the acoustic signal intensity to calculate first acoustic information based on the basic threshold value, characterized in that the first acoustic information is an indicator of the joint state.

An instrument for establishing orientation of a pelvic prosthesis comprises a hub, a first arm attached to and extending from the hub, and a second arm attached to and extending from the hub. The first and second arms define a nominal plane of the apparatus, and may extend from the hub at an angle relative to each other. Distances between the first and second legs and between the first and third legs are adjustable. The first, second, and third legs have tips, and the tips of the first, second, and third legs define a plane having a predefined geometric relationship to the nominal plane of the apparatus.

The subject matter includes systems, methods, and prosthetic devices for joint reconstruction surgery. A computer-assisted intraoperating planning method can include accessing a first medical image providing a first view of a joint within a surgical site as well as receiving selection of a first component of a modular prosthetic device implanted in the first bone of the joint. The method continues by displaying a graphical representation of the first component of the modular prosthetic device overlaid on the first medical image, and updating a graphical representation of the first component based on receiving positioning inputs representative of an implant location of the first component relative to landmarks on the first bone visible within the first medical image. The method concludes by presenting a selection interface enabling visualization of additional components of the modular prosthetic device virtually connected to the first component and overlaid on the first medical image.

Devices, systems, and methods are provided for control over automated movement of catheters and other elongate bodies. Fluid and/or pull-wire drive systems can be used to provide robotically coordinated lateral bending motions and a processor of the system can generate synchronized actuator drive signals to move the tool along an at least partially laterally constrained path, with the path optionally extending along the axis of a virtual model of the catheter that has been driven in silico into alignment with a target tissue adjacent an open workspace such as an open chamber of the heart.

Robotic systems and methods are provided for trajectory guidance during surgical procedures, for example, robotically monitoring and identifying a desired trajectory of surgical access devices and implants for the purpose of preventing unintended injury to surrounding tissues, such as nerves, blood vessels, cartilage, or bone. The robotic systems and methods provided herein allow medical professionals to practice with little to no exposure of the medical professional to radiation.