An incontinence detection system monitors an area for moisture events and wirelessly transmits moisture-related information to one or more notification devices. The system has a pad that includes a substrate and one or more sensors supported by the substrate. The sensor(s) emit wireless signals indicative of the moisture-related information. A sensor event communication system forwards the sensor signals to another device, such as a notification device. Portions of the system are included in a patient support apparatus, such as a bed.

A person lift system includes a motor and a sling bar coupled to the motor. The sling bar includes a first attachment hook at a first end region of the sling bar and a second attachment hook at a second end region of the sling bar. A sling includes a main body section and a plurality of loops coupled to the main body section. Each of the plurality of loops is configured to attach to one of the plurality of attachment hooks. A first electronic reader is coupled to the sling bar near the first attachment hook. A second electronic reader is coupled to the sling bar near the second attachment hook. Each of a plurality of short range wireless tags is coupled to a respective one of the plurality of loops.

A patient support apparatus, such as a hospital bed, communicates with an electronic medical record (EMR) system in healthcare facility. The hospital bed includes a patient support structure to support a patient, a graphical user interface coupled to the patient support structure, and control circuitry coupled to the graphical user interface. The graphical user interface displays at least one input that may be used by a caregiver to chart data into an electronic medical record (EMR) of a patient supported by the patient support structure.

High-accuracy locating systems and methods are used for determining successful caregiver rounding, monitoring whether housekeepers have properly cleaned patient beds, or determining whether patients have ambulated sufficient distances during recovery. Patient beds having at least two locating tags are used for establishing patient care zones around the patient beds. Locating anchors and equipment tags are moved around a patient room to determine optimum locating anchor placement within the patient room based on signal quality values. A locating tag on a patient bed switches roles to operate as a locating anchor in response to the patient bed becoming stationary. A locating tag has a digital compass which is used to determine a field of good ranging relative to a front of a caregiver wearing the locating tag.

A patient support system includes a patient support apparatus and a powered device mounted relative to the patient support apparatus and an electrical circuit to power the powered device, with the electrical circuit having a wireless power receiver to inductively couple to and transfer electrical energy from a wireless power transmitter when the wireless power receiver is in proximity to the wireless power transmitter.

A system for loading/unloading (100) an ambulance patient transport equipment (50) onto/from a loading surface (L) of an ambulance (V), wherein the system (100) comprises: a loading/unloading apparatus (60) of a patient transport equipment (50) associable with the loading surface (L), wherein the loading/unloading apparatus (60) comprises: at least one safety hook (611) which can be rigidly fixed to the loading surface (L); a patient transport equipment (50) comprising: an undercarriage (20) equipped with a support frame (21) and a plurality of legs (22,23) articulated to the support frame (21) and provided with rest wheels (221,231); an additional patient support device (30) configured to be mounted in a releasable manner on the undercarriage (20), wherein the additional device (30) comprises a load-bearing structure (31) to which a fixing block (315) is rigidly fixed adapted to detachably constrain the additional device (30) to the undercarriage (20); a rigid constraint body (250) rigidly fixed to the support frame (21) of the undercarriage (20) and provided, at a lower end, with a coupling body (251) configured to be detachably coupled to the safety hook (611) of the loading/unloading apparatus (60) and, at an opposite upper end thereof, with a fixing arrangement (252) configured to be detachably engaged by the fixing block (315) of the additional device (30).

A patient transport system (10) that comprises: at least one mobile undercarriage (20) provided with rest wheels (221,231) and equipped with a fixing arrangement (252); a plurality of additional devices (30) for supporting the patient, wherein the additional devices (30) of the plurality of additional devices are structurally different from each other; wherein each additional device (30) is equipped with a relative fixing block (315), wherein each fixing block (315) is configured to selectively engage with the fixing arrangement (252) of the undercarriage (20), so that any one of the additional devices (30) can be selectively mounted on the same undercarriage (20) by means of the connection between the fixing arrangement (252) of the undercarriage (20) with the fixing block (315) of the respective additional device (30).

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 medical station includes a cassette system provided at a moveable cart. The cassette system includes locking drawers, proximity sensors, each of which is associated with one of the drawers, and a computer system with an input device. The computer system receives data from the proximity sensors to determine a position of each of the drawers.

A medical station includes a cassette system provided at a moveable cart. The cassette system includes locking drawers and sensors, each associated with one of the locking drawers. A computer system provided at the moveable cart includes an input device. The computer system receives data from the sensors to determine a position of each of the drawers and prevent a second one of the drawers from moving into an opened position when a first one of the drawers is in the opened position.