This disclosure provides a patient support for supporting a patient. The patient support comprises a crib assembly comprising a support material with a cover assembly disposed over the crib assembly. The cover assembly defines a recess and comprising a patient support surface having an outer periphery. The patient support further comprises a connector assembly for connecting the patient support to a fluid source with the connector assembly comprising a connector with a plurality of ports. The assembly defines a three dimensional interior corner adjacent the recess in the cover assembly. The connector assembly is disposed in the recess of the cover assembly such that the plurality of ports of the connector are presented for connection to the fluid source at the three dimensional interior corner and inside the outer periphery of the patient support surface.

An apparatus support, intended for fastening a mobile medical apparatus such as a defibrillator, an oxygen apparatus, a ventilator, a monitor, an infusion apparatus, an inhalation apparatus, an electrocardiograph, a transfusion pump, a life support system, an extracorporeal system, and a heart-lung machine, has a wall holder and a mounting plate. In the intended mounting state, the apparatus is oriented at least substantially or exactly horizontally and has upper and lower faces and side edges. The mounting plate has a fastening device for fastening a medical apparatus that is to be arranged on the upper face, and a damping device via which the mounting plate is fixed on the wall holder. The invention further relates to a medical assembly having such an apparatus support and having a medical apparatus as described above.

The invention relates to a movement-tolerant wiring arrangement (10), more particularly for a stand device (1) configured for arrangement in an operating room, comprising a mounting apparatus (20) for movement-tolerant mounting of at least one line (70), more particularly a cable, about an axis of rotation (D) between two connection components (3; 4; 104) that are displaceable, more particularly twistable, relative to one another; and a fastening apparatus (30; 130) for arranging the at least one line relative to one of the connection components (3; 4; 104), more particularly at a socket of the stand device; wherein the mounting apparatus (20) is fixable to the fastening apparatus (30; 130) and configured for movement-tolerant, in particular, rotation-tolerant guidance of the at least one line about the axis of rotation and/or in the direction at least approximately parallel to the axis of rotation. Furthermore, the invention relates to a rotary joint, a socket or a stand device, respectively, with such a wiring arrangement, and the use of such a wiring arrangement (10) at a stand device (1), more particularly in the operating room.

The present disclosure provides a coupling system for coupling a medical accessory to an accessory support is provided. The present disclosure also provides a system for powering a medical accessory with an accessory support.

The invention relates to a support arm system (10) for movably holding at least one medical device, including at least one movably supported support arm (18, 20, 22, 24) which is configured to hold the at least one medical device, having at least one load detection device (26) which is configured to detect the respective load data of the support arm system (10) during usage thereof; in particular configured by moving the support arm (18, 20, 22, 24), and which is formed with at least one storage device (46) which is configured to store the detected load data. Further, the invention relates to a method for operating a support arm system (10) and method for designing a support arm system (10).

Method and system allowing more accurate detection and identification of unwanted arcing include novel processing of signal voltage representing recovered power-line current. In one implementation, arc-faults are detected based on numerical analysis where individual cycles of line voltage and current are observed and data collected during each cycle is processed to estimate likelihood of presence of arc-event within each individual cycle based on pre-defined number of arc-events occurring within pre-defined number of contiguous cycles. In another implementation, fast transient current spikes detection can be done by: computing difference values between consecutive line-current samples collected over a cycle, average of differences, and peak-to-peak value of line-current; comparing each difference value to average of difference; comparing each difference value to peak-to-peak value; and, based on calculation of composite of two comparisons, using thresholds to determine if arcing is present within processed cycle.

A delayed cord-clamping surface is provided that includes a newborn platform having a recessed surface configured to receive a chemical warming mattress, where the chemical warming mattress includes a conformable surface, where the newborn platform includes a detachable platform support that is configured to position the newborn platform proximal to a surgical region of a C-section patient, where the newborn platform is configured to support a newborn baby while an umbilical cord remains connected between the newborn and the C-section patient for draining from a placenta, where the newborn platform is configured to fitably mount with a warming table when the newborn platform is in a detached state from the detachable platform support.

SA surgical room power system including at least one source of power wired to a power source for a surgical room, the at least one source of power being wired to the surgical room; at least one power receiver; and a surgical power consumer wired to the at least one power receiver, the surgical power consumer being configured to assist a surgeon during a surgical procedure on a patient. The at least one source of power wirelessly transfers power to the at least one power receiver for powering the surgical power consumer.

A mattress system is provided that is optimized for the hospital setting and includes a guiderail system that accepts a variety of accessories for attachment thereto. The guiderail system may have integrated data lines, power lines, gas lines, and/or fluid lines. Also provided are radioabsorbant shields, trays and other components designed for optimal use with the mattress system.

Floating electromagnetic field generator systems and methods are provided. The system comprises a surgical bed portion. The system also comprises a brace component disposed within the surgical bed portion. Additionally, the system comprises a first arm that is attached to the brace component. The first arm is positioned adjacent to the surgical bed portion. Additionally, the first arm has at least one field generator coil embedded therein. The system also comprises a second arm that is attached to the brace component. The second arm is positioned adjacent to the surgical bed portion. Additionally, the second arm has at least one field generator coil embedded therein. The second arm is positioned parallel to the first arm.