Disclosed is a console for operating an actuating mechanism, relating to the technical filed of automatic control, and being for use in resolving the technical problem of shift of a controller under the influence of gravity. The console for operating an actuating mechanism includes a controller and a support base. The controller is constrained in both the longitudinal direction and the vertical direction, so that connection between the controller and the support base is tight and reliable, and no displacement would occur in any of three directions (i.e., the longitudinal direction, the horizontal direction, and the vertical direction). Thus, the phenomenon that position information given by the controller is inaccurate due to shift of the controller under the influence of the gravity after long-term usage can be avoided, thereby removing the factors affecting success of surgery, and ensuring the success rate of the surgery.

A control console for control of a medical surgical device comprising at least one surgical mechanical arm, which control console comprising: a control console base; at least one user support coupled to said control console base; a processor configured to receive data regarding a selected surgical configuration of said at least one surgical mechanical arm and at least one camera; an input arm support coupled to said control console base; at least one input arm comprising a plurality of sections sequentially coupled by joints, coupled to and extending from said input arm support where a direction of extension of said input arm, with respect to said at least one user support is adjustable to match an input arm configuration to said selected surgical configuration, a camera view of said at least one surgical mechanical arm thereby corresponding to a user view of said input arm.

A foot pedal apparatus for use with a workstation operated by a seated user in controlling a robotic surgery system is disclosed. In some embodiments, the apparatus includes a platform mountable to the workstation proximate a floor surface on which the workstation is located. The apparatus also includes a first pedal mounted on the platform and having an upwardly disposed actuation surface, and a second pedal mounted vertically elevated with respect to the first pedal and having an upwardly disposed actuation surface, the second pedal having at least a proximate portion vertically overlapping a distal portion of the first pedal such that the first and second pedals have a mounted depth in a direction away from the user that is less than a sum of the respective individual depths of the first and second pedals.

Disclosed are devices and methods suitable for application of a curable fluid composition to a bodily organ, such as to a lower portion of a bodily organ. The device comprises a monolithic piece of material having a lower surface, two spaced-apart sides, and two spaced-apart walls connecting the two spaced-apart sides. A receptacle for containing the curable fluid composition is defined by the lower surface, the two sides, and the two walls. At least a portion of the height of the two walls is less than the height of at least a portion of the two sides. The device is deployable underneath the bodily organ such that a lower portion of the bodily organ is supported by at least a portion of each of the two walls.

An endoscope control system comprises one or more sensors located in a headrest and configured to detect an input at the headrest. The one or more sensors include at least one of an array of pressure sensors positioned adjacent to a forehead rest surface, a joystick controller mounted in the headrest, or a slip plate mounted to the headrest. The endoscope control system further comprises an endoscope control module configured to receive one or more sensor signals from the sensors indicating movement of the headrest or pressure applied to the headrest and providing an indication of intended movement of an image provided by an endoscope. The endoscope control system further comprises an endoscope manipulation module configured to receive the indication of intended movement from the endoscope control module and generate one or more actuation signals to activate one or more actuators configured to cause the intended movement of the image.

Disclosed herein is a unique surgical device that assists medical practitioners to stabilize and support their hand while conducting a surgical procedure. Specifically exemplified is a hand stabilizing device that includes a stem, having a shaft, a bent portion, and a base portion. The device may also be flexible. The device serves to support and stabilize the hand during a surgical procedure.

Surgical support instruments are described herein that can couple to, e.g., an implanted anchor and provide a platform for coupling other surgical implements thereto. In one embodiment, an instrument can include an elongate body having opposed projections extending laterally from a distal portion thereof that can at least partially surround a shank of an implantable anchor such that a longitudinal axis of the elongate body is laterally offset from a longitudinal axis of the anchor. The instrument can further include a lock configured to exert a drag force on a head of the anchor to control polyaxial movement of the instrument relative to the anchor. Further, a proximal portion of the elongate body can be configured to receive a retractor assembly including a plurality of tissue manipulating implements and selectively lock the retractor assembly at any of a plurality of positions along a length of the elongate body.

Surgical support instruments are described herein that can couple to, e.g., an implanted anchor and provide a platform for coupling other surgical implements thereto. In one embodiment, an instrument can include an elongate body having opposed projections extending laterally from a distal portion thereof that can at least partially surround a shank of an implantable anchor such that a longitudinal axis of the elongate body is laterally offset from a longitudinal axis of the anchor. The instrument can further include a lock configured to exert a drag force on a head of the anchor to control polyaxial movement of the instrument relative to the anchor. Further, a proximal portion of the elongate body can be configured to receive a retractor assembly including a plurality of tissue manipulating implements and selectively lock the retractor assembly at any of a plurality of positions along a length of the elongate body.

Surgical robotic systems including a user console for controlling a robotic arm or a surgical robotic tool are described. The user console includes components designed to automatically adapt to anthropometric characteristics of a user. A processor of the surgical robotic system is configured to receive anthropometric inputs corresponding to the anthropometric characteristics and to generate an initial console configuration of the user console based on the inputs using a machine learning model. Actuators automatically adjust a seat, a display, or one or more pedals of the user console to the initial console configuration. The initial console configuration establishes a comfortable relative position between the user and the console components. Other embodiments are described and claimed.

An apparatus that supports a user in a variety of positions to comfortably perform tasks, such as applying one or more tattoos to skin of a subject is herein disclosed. The apparatus can be reconfigured to optimally position and support the arms and/or chest of the user. A method for using a stool can involve rotating armrests of the apparatus from a stowed position to a deployed position. The armrests can support the user's forearms while supporting the user's chest such that the user can comfortably perform tasks in front of a chest support of the stool.