An interactive control unit is disclosed. The interactive control unit includes an interactive touchscreen display, an interface configured to couple the control unit to a surgical hub, a processor, and a memory coupled to the processor. The memory stores instructions executable by the processor to receive input commands from the interactive touchscreen display located inside a sterile field and transmit the input commands to the surgical hub to control devices coupled to the surgical hub located outside the sterile field.

An endoscope includes: a protection sheath that forms an insertion unit; a pipe-like case that is connected to a proximal end side of the protection sheath; a distal end optical system that is provided at a distal end of the protection sheath and that defines a distal end side of a sealed space formed in the protection sheath and the case; a partition wall that is provided in the case, is perpendicular to an insertion axis of the insertion unit, and defines a proximal end side of the sealed space; a shaft member that is inserted into the protection sheath and that is rotatable relative to the protection sheath in a direction around the insertion axis; an image pickup unit that is provided at a distal end of the shaft member and that picks up an image of light passing through the distal end optical system; and a magnet coupling which includes a first magnet provided in the sealed space and a second magnet provided outside the sealed space with the partition wall interposed therebetween and of which the first magnet is connected to a proximal end side of the shaft member. The magnet coupling and the case are rotatable relative to each other in the direction around the axis.

An enhanced flexible robotic endoscopy apparatus includes a main body and flexible elongate shaft. The main body comprises a proximal end, a distal end and a housing that extends to the proximal end and the housing comprises a plurality of surfaces and a plurality of insertion inlets which reside on at least one of the surface of the housing at the proximal end of the main body, through which a plurality of channels for endoscopy are accessible. Each of the insertion inlets has insertion axis corresponding thereto, along which flexible elongate assemblies are insertable, with the insertion axes of the insertion inlets being parallel to the central axis of the flexible elongate shaft at the proximal end of the flexible elongate shaft.

A signal processing device includes: a connection detector that detects whether an endoscope including one or more operation members is connected; an input unit to which an operation state signal is input from an external input device including one or more buttons that correspond to the one or more operation members included in the endoscope when the endoscope is not connected; and an operation execution unit that executes an operation according to the operation state signal that is input to the input unit.

An endoscopic image capturing assembly is provided and includes a holder, an image sensing device, a conducting track, a cable and a lens set. The holder includes a first surface and a second surface perpendicular to the first surface. The image sensing device is mounted on the first surface and includes an electrical connecting component. The conducting track is formed from the first surface to the second surface of the holder and electrically connected to the electrical connecting component. The cable is mounted on the second surface. A terminal of the cable is electrically connected to the electrical connecting component of the image sensing device by the conducting track. The lens set is assembled with the image sensing device. An optical axis of the lens set is parallel to an extending direction of the cable. Furthermore, a related endoscopic device is provided.

Devices for assisting manipulation of input mechanisms of medical instruments are disclosed. According to an aspect, a device includes a body defining an interior shaped to substantially surround and attach to the input mechanism of a medical instrument. The device also includes multiple protrusions attached to the body and each extending in one or more directions towards the medical instrument.

An introducer for an endotracheal tube (50) has a bendable rod (10) with a video camera (15) and light source (16) mounted at its patient end (12) and connected by a cable (17) to an electrical connector (2) fixed at the machine end of the rod. The connector (2) has a narrow profile to allow the endotracheal tube (50) to be slid over it. In use, the camera (15) is connected to a video display (4) via a cable (5) and a mating connector (6), the rod (10) is bent to the desired shape and inserted into the trachea. The mating connector (6) is then disconnected to enable the endotracheal tube (50) to be slid to the correct position in the trachea along the rod (10) and over the connector (2) mounted at the machine end of the rod. The rod (10) is then removed to leave the tube (50) in position.

A multi-functional endosurgical device (1) comprises a tube (3), an end effector (21), and a device operating part (4). The tube (3) several lengthwise extending channels (9) for supplying a liquid and suction to the end effector (21) and to apply current to perform diathermy. A slide rail assembly (5) comprises at a main slide guide body (46) that accommodates an end effector slider (47) and a junction slider (48). The end effector slider (47) slides in the guideway (54) and is connected to the effector sleeve (17) through one of the lengthwise extending channels to operate said effector sleeve (17) in relation to the end effector. The junction slider (48) also slides in the guideway (54) downstream the end effector slider (47). The junction slider (48) is connected to the tube (3) to arrange at least a first lengthwise extending channel (9), a second lengthwise extending channel (10) and a third lengthwise extending channel (15) of the tube (3) in communication with the end effector (21).

A connector comprises an upper surface finger-resting portion that extends in the longitudinal axial direction on the outer periphery of the gripping portion, and on which the first finger is placed, a lower surface finger-resting portion on which the second finger or the third finger is rested when the connector is gripped by placing the first finger on the upper surface finger-resting portion, and a guide protrusion portion that is arranged on the same straight line as the upper surface finger-resting portion in the longitudinal axial direction and determines the position to be inserted, in which the connector is directly fitted into the receiving-side connector by directing the finger tip of the first finger that is placed on the upper surface finger-resting portion to the guide groove of the receiving-side connector and inserting the connector.

An endoscope coupler with a split focus ring having direct engagement between the focus ring and the lens cell. The endoscope coupler may also have a changeable lens cartridge which can be replaced when moisture penetrates and ruins a the previous lens cartridge. Additional features may include branding security key which prevents use of replacement parts from third parties.