A stationary communication unit is adapted to be mounted to a headwall of a healthcare facility and enable wireless communication between a patient support apparatus and a nurse call system. The unit also performs one or more additional functions, such as, but not limited to: determining when a healthcare worker enters/exits the room; determining when the patient support apparatus exits/enters the room; storing/retrieving medical device data associated with a patient; directing medical device data to one or more displays in the room; auto-updating, auto-retrieving, and/or auto-displaying data upon healthcare worker entry into the room; auto-muting room sounds during nurse-patient communication; and auto-directing a healthcare workers electronic device to data associated with the patient in that room. In alternative embodiments, one or more of these additional functions are incorporated into a patient support apparatus.

A patient support apparatus includes a first transceiver adapted to wirelessly communicate with a second transceiver of a headwall interface that is positioned off of the patient support apparatus. A communication link is automatically established between the first and second transceivers without requiring a user of the patient support apparatus to activate a designated control and without requiring the user to identify the headwall interface. The first transceiver includes a unique identifier assigned to the headwall interface in its messages to the headwall interface. The first transceiver may also automatically transmit a disconnect signal to the headwall interface indicating the termination of the communication link is not accidental. The disconnect signal is sent based on one or more of the following: (1) a brake being off, (2) an A/C power cord being unplugged; and/or (3) a signal strength between the transceivers decreasing.

A patient support system for supporting a patient includes a core support structure which includes supportive foam. The support structure has an upper surface and a lower surface. A radar apparatus, including at least one antenna situated beneath the upper surface and spatially separated therefrom, is adapted to emit a pulse which travels through the support structure and is reflected, by either the upper surface or a surrogate thereof, as a reflected signal back to the radar antenna. The emitted pulse and reflected signal comprise a ranging signal. The patient support system also includes circuitry that determines a life parameter of the core support structure as a function of at least the ranging signal. The patient support system also includes an RFID tag having a memory. The RFID tag is in communication with the circuitry.

A magnetic field pad location system is provided with dual elongated field generation pads with self-tracking. Each pad comprises magnetic coils operable to generate magnetic fields. The pads include a mechanism for securing the two pads in place on a patient table to prevent movement of the pads. A processor executes a process for installation of the two pads, comprising correlation of the magnetic fields generated by the coils to define a reference magnetic field for sensing. In one embodiment, each pad includes a same number of magnetic coils in each spatial direction. In one embodiment, the magnetic coils are tri-axial coils placed at corners of the pads. In another embodiment, each pad includes an array of six single coils.

A patient support apparatus includes a support surface adapted to support a person, a display, a plurality of controls, a memory, and a controller. The controller is adapted to collect a batch of data regarding the operation of the patient support apparatus, to store the batch of data in the memory, to update the contents of the batch of data during usage of the patient support apparatus, and to display a coded image on the display in response to activation of a particular control. The coded image, which may be a QR code, encodes the batch of data. The encoded data may include sensor readings, diagnostic data, fault data, a serial number, and/or other data. The controller may also, or alternatively, display (either permanently or semi-permanently) the ward, department, floor, or another identifier (e.g. radiology, maternity, etc.) to which the patient support apparatus is assigned for a particular healthcare facility.

A method performed by a first device for locating a medical device within a medical facility includes determining, by the first device, that a second device is located in a same room as the first device, based on a first signal communicated between the first device and the second device; determining, by the first device, a distance to the at least one second device, based on a second signal communicated between the first device and the second device; and establishing communication with the second device. A device, a wireless stationary node, a location determining system and method, and a patient support apparatus are also described.

A medical station includes a movable cart and a cassette system. The cassette system including a frame, a plurality of lockable drawers slidably mounted to the frame, and a graspable handle configured for movement between a closed position where the handle is not accessible or graspable by a user and a released position.

A stationary communication unit is adapted to be mounted to a headwall of a healthcare facility and enable wireless communication between a patient support apparatus and a nurse call system. The unit also performs one or more additional functions, such as, but not limited to: determining when a healthcare worker enters/exits the room; determining when the patient support apparatus exits/enters the room; storing/retrieving medical device data associated with a patient; directing medical device data to one or more displays in the room; auto-updating, auto-retrieving, and/or auto-displaying data upon healthcare worker entry into the room; auto-muting room sounds during nurse-patient communication; and auto-directing a healthcare workers electronic device to data associated with the patient in that room. In alternative embodiments, one or more of these additional functions are incorporated into a patient support apparatus.

Introduced here are apparatuses and systems for mitigating contact pressures applied to a human body by the surface of an object, such as a chair, bed, or table. A pressure-mitigation apparatus can include a series of chambers whose pressure can be individually varied. When placed between a patient and a contact surface, the pressure-mitigation apparatus can vary the contact pressure on a specific anatomical region of the patient by controllably inflating and/or deflating one or more cell. Moreover, a pressure-mitigation system can be readily integrated into a conventional treatment regimen for a variety of different conditions.

A cover for covering a portion of a hospital bed barrier that includes a sheet of material that has sufficient flexibility and elasticity to stretch from a first configuration to a second configuration. When in the first configuration, the cover is insufficient in size to cover at least a portion of a hospital bed barrier and, when in the second configuration, the cover is sufficient in size to cover at least a portion of a hospital bed barrier.