A surgical item counting station for providing organization and efficiency in counting items and communicating information. The surgical item counting station comprises a top plate having a diameter forming a table top surface and being adjacent and perpendicular to a display screen mounted on an adjustable column mounted on a base terminating at feet. The display screen is adapted to receive and display information about at least one item and general communications. A shelf having a substantially equal diameter to the top plate and being located below and in parallel to the top plate is provided. The shelf includes shelf side walls with a mounting means adapted for mounting at least one container device below the top plate. Preferably the container device is a sponge count bag. Preferably the shelf is a rotational shelf while the top plate or table top is non-rotational.

An endoscopic surgical tool organizer includes a holder section having an upper surface, a substantially flat lower surface, and at least one peripheral edge. The upper surface has a plurality of slits or channels, each having an entry point and an exit point on the at least one peripheral edge, and each dimensioned to hold at least a portion of a length of an endoscopic insertion tube or endoscopic tool wire or tube. The lower surface is provided with a non-slip material, finish, or adhesive. The holder section is dimensioned to fit on a tray of a mayo stand. In some cases, two or more of the plurality of slits or channels have substantially parallel paths, or paths serve to spread out or concentrate the wires and/or tubes.

An endoscopic surgical tool organizer includes a holder section having an upper surface, a substantially flat lower surface, and at least one peripheral edge. The upper surface has a plurality of slits or channels, each having an entry point and an exit point on the at least one peripheral edge, and each dimensioned to hold at least a portion of a length of an endoscopic insertion tube or endoscopic tool wire or tube. The lower surface is provided with a non-slip material, finish, or adhesive. The holder section is dimensioned to fit on a tray of a mayo stand. In some cases, two or more of the plurality of slits or channels have substantially parallel paths, or paths serve to spread out or concentrate the wires and/or tubes.

A smart IV pole is provided for supporting a variety of equipment utilized by the anesthesiology care team and critical care staff. The smart IV pole includes a lower section, a middle section affixed to the lower section, and an adjustable upper section movably mounted to the middle section. The lower section includes a transport base, an uninterrupted power supply and cover mounted on the transport base, and a retractable cable reel in the base. The middle section includes a plurality of pivotable infusion pump arms. The adjustable upper section includes a plurality of hooks for suspending solution bags. The smart IV pole additionally includes a rail on the transport base, an auxiliary tray, and a blood reservoir.

A smart IV pole is provided for supporting a variety of equipment utilized by the anesthesiology care team and critical care staff. The smart IV pole includes a lower section, a middle section affixed to the lower section, and an adjustable upper section movably mounted to the middle section. The lower section includes a transport base, an uninterrupted power supply and cover mounted on the transport base, and a retractable cable reel in the base. The middle section includes a plurality of pivotable infusion pump arms. The adjustable upper section includes a plurality of hooks for suspending solution bags. The smart IV pole additionally includes a rail on the transport base, an auxiliary tray, and a blood reservoir.

The invention relates to a floor stand for an optical detection device, having a foot part comprising multiple bearing points or a planar standing surface that span a base plane, having a first stand arm which is pivotably connected to the foot part by a first joint on the foot part, and which is connected to a second stand arm by a second joint remote from the foot part, wherein the length of the first stand arm is dimensioned such that the distance between the base plane and the second joint is smaller than the sum of the maximum value for the eye level when seated and the maximum value for the length of the lower leg including the foot when the first stand arm is aligned at 45 degrees in relation to the base plane.

A system for performing at least one impedance measurement on a biological subject, the system including a measuring device having a first housing including spaced pairs of foot drive and sense electrodes provided in electrical contact with feet of the subject in use, a second housing including spaced pairs of hand drive and sense electrodes provided in electrical contact with hands of the subject in use, at least one signal generator electrically connected to at least one of the drive electrodes to apply a drive signal to the subject, at least one sensor electrically connected to at least one of the sense electrodes to measure a response signal in the subject and a measuring device processor that at least in part controls the at least one signal generator, receives an indication of a measured response signal from the at least one sensor and generates measurement data indicative of at least one measured impedance value and a client device in communication with the measuring device, the client device being adapted to receive measurement data allowing the client device to display an indicator associated a result of the impedance measurement.

A system for performing at least one impedance measurement on a biological subject, the system including a measuring device having a first housing including spaced pairs of foot drive and sense electrodes provided in electrical contact with feet of the subject in use, a second housing including spaced pairs of hand drive and sense electrodes provided in electrical contact with hands of the subject in use, at least one signal generator electrically connected to at least one of the drive electrodes to apply a drive signal to the subject, at least one sensor electrically connected to at least one of the sense electrodes to measure a response signal in the subject and a measuring device processor that at least in part controls the at least one signal generator, receives an indication of a measured response signal from the at least one sensor and generates measurement data indicative of at least one measured impedance value and a client device in communication with the measuring device, the client device being adapted to receive measurement data allowing the client device to display an indicator associated a result of the impedance measurement.

A storage assembly for a surgical robotic arm includes a stand, legs configured to be coupled to a bottom end portion of the stand, and a handle slidably coupled to the stand. The stand is configured to receive and support a surgical robotic arm therein when in vertical and horizontal positions.

A storage assembly for a surgical robotic arm includes a stand, legs configured to be coupled to a bottom end portion of the stand, and a handle slidably coupled to the stand. The stand is configured to receive and support a surgical robotic arm therein when in vertical and horizontal positions.