An articulating patient support table comprises first and second patient support sections hingedly connected together along respective hinge ends. A longitudinal translation subassembly connected to a base by a position adjustable pedestal supports the first patient support section in cantilevered relationship. The position adjustment assembly includes a lift mechanism operable to raise and lower the longitudinal translation subassembly relative to the base and a pivot assembly operable to pivot the longitudinal translation subassembly fore and aft and side to side relative to the base.

An automated EP analysis apparatus for monitoring, detecting and identifying changes (adverse or recovering) to a physiological system generating the analyzed EPs, wherein the apparatus is adapted to characterize and classify EPs and create alerts of changes (adverse or recovering) to the physiological systems generating the EPs if the acquired EP waveforms change significantly in latency, amplitude or morphology.

An automated EP analysis apparatus for monitoring, detecting and identifying changes (adverse or recovering) to a physiological system generating the analyzed EPs, wherein the apparatus is adapted to characterize and classify EPs and create alerts of changes (adverse or recovering) to the physiological systems generating the EPs if the acquired EP waveforms change significantly in latency, amplitude or morphology.

A system deployable in post-mortem rooms and other facilities for facilitating medical examinations, including autopsies. A system as described includes a corpse-receiving station and an organ dissecting station, each being in some embodiments substantially rectangularly shaped and having a longest length dimension. The corpse-receiving station and organ dissecting station are in some embodiments arranged so their longest length dimensions are oriented substantially perpendicularly, having a formation resembling an L-shape when viewed from an overhead perspective. A system of the instant technology eliminates the necessity for pathologists and technicians of having to lift a subject or corpse, by virtue of the corpse-receiving station being configured and equipped to be selectively height-adjustable, which also eliminates the need for step-stools and the like. Moreover, the organ dissecting station is configured and equipped to be selectively height-adjustable and selectively adjustable laterally with respect to its base. The combination of the features and elements provided enables 360 degree access to a corpse residing on the corpse-receiving station, while greatly lessening un-necessary walking and essentially eliminating hazards associated with biological fluids falling onto the floor surface of the work area. Hygiene is increased by provision of a ventilation system integrated into the components of systems provided herein.

A system deployable in post-mortem rooms and other facilities for facilitating medical examinations, including autopsies. A system as described includes a corpse-receiving station and an organ dissecting station, each being in some embodiments substantially rectangularly shaped and having a longest length dimension. The corpse-receiving station and organ dissecting station are in some embodiments arranged so their longest length dimensions are oriented substantially perpendicularly, having a formation resembling an L-shape when viewed from an overhead perspective. A system of the instant technology eliminates the necessity for pathologists and technicians of having to lift a subject or corpse, by virtue of the corpse-receiving station being configured and equipped to be selectively height-adjustable, which also eliminates the need for step-stools and the like. Moreover, the organ dissecting station is configured and equipped to be selectively height-adjustable and selectively adjustable laterally with respect to its base. The combination of the features and elements provided enables 360 degree access to a corpse residing on the corpse-receiving station, while greatly lessening un-necessary walking and essentially eliminating hazards associated with biological fluids falling onto the floor surface of the work area. Hygiene is increased by provision of a ventilation system integrated into the components of systems provided herein.

Surgical robotic systems may guide a user to align an instrument's insertion axis with a camera field of view. A surgical robotic system can include a first robotic arm coupled to a camera and a second robotic arm coupled to a surgical tool. The surgical tool can have a tool insertion axis along a shaft of the surgical tool. The surgical robotic system can be configured to determine whether the tool insertion axis overlaps with a field of view of the camera and provide a notification to a user in accordance with a determination that the tool insertion axis does not overlap with the field of view of the camera.

A surgical table having a tabletop to be rotatable about a trend axis, the trend axis extending in a transverse direction across the tabletop; and an actuator mechanism coupled to the movable framework and arranged to raise and lower the movable framework relative to the column and to raise and lower the trend axis and to rotate the movable framework about the trend axis, and a control mechanism arranged to control the actuator mechanism to cause (i) the height of the trend axis to be translationally variable within a first dimensional range having a lowermost position, at which the trend axis extends through the column, and an uppermost position, at which the trend axis is above the upper end of the column the trend axis and is spaced at spacing height above the upper end of the column, and, simultaneously and/or independently (ii) the location of the trend axis in a lateral direction orthogonal to the trend axis to be translationally variable within a second dimensional range extending between first and second end positions.

A patient support system includes independently adjustable end columns supporting a centrally hinged, jointed or breaking patient support structure. At least one column includes a powered rotation assembly. The patient support includes at least two sections. A coordinated drive system provides for both upwardly and downwardly breaking or jointed orientations of the two sections in various inclined and tilted positions. Cable, cantilevered and pull-rod systems are included.

A patient support system includes independently adjustable end columns supporting a centrally hinged, jointed or breaking patient support structure. At least one column includes a powered rotation assembly. The patient support includes at least two sections. A coordinated drive system provides for both upwardly and downwardly breaking or jointed orientations of the two sections in various inclined and tilted positions. Cable, cantilevered and pull-rod systems are included.

A robotic system can include a surgical instrument with a wrist that allows N degrees of freedom of movement. The N degrees of freedom can be controlled by N+1 cable segments. The wrist can include a first set pulleys configured to rotate about a first axis and a second set of pulleys configured to rotate about a second axis. The wrist can further comprise one or more pulleys configured to engage two of the cable segments, wherein at least one of the pulleys is shared by a first cable segment and a second cable segment. The first cable segment and the second cable segment that share the pulley can be independent from one another. In some circumstances, the surgical instrument can be actuated N+1 degrees of movement by advancing or retracting at least two of N+1 cable segments.