A caregiver assistance system is disclosed for helping caregivers manage the care of existing bed sores and/or reduce the risk of a patient developing bed sores. The system may also help the caregiver to perform rounding tasks and/or to reduce the likelihood of patient falls. The system comprises a server application in communication with the patient's bed and one or more mobile electronic devices (e.g. smart phones). The mobile devices receive individual assessments of a plurality of bed sore risk factors and forward them to the server. The server generates bed sore risk scores from the answers and forward them to an EMR server. The server may also determine one or more risk reduction steps, display them on the mobile electronic device, and/or forward them to the patients' beds for implementation thereon. Additional bed sore information may be captured and sent to the EMR.

A patient turning device for a patient support apparatus. The patient turning device includes a first and second bladder assembly each including a plurality of layers and seals defining a bladder volume. The bladder volumes are selectively inflatable with fluid to expand the respective bladder assembly, and consequently move a patient support surface of the patient support apparatus. A portion of a lower layer of the first bladder assembly and a portion of an upper layer of the second bladder assembly define an overlapping region of the bladder volumes. The patient turning device is coupled to an underside of a carrier sheet and positioned between a crib assembly and a bottom cover. An augmenting feature is configured to resiliently expand as at least one of the first and second bladder assemblies receives the fluid to move at least a portion of the crib assembly away from a patient support deck.

A patient support apparatus includes a deck to support a mattress and a patient on the mattress, the deck including a head deck section articulatable about an axis to change an angle of the head deck section, and a control system in communication with a user interface, with the control system configured to adjust the angle of the head deck section and to adjust the height of the deck in response to input at the user interface. The control system is in communication with a display and generates a GUI (graphical user interface) at the display to display a deck icon representative of the deck and a height icon representative of the height. The control system monitors the angle of the deck section and the height of the deck and adjusts the deck and height icons to schematically illustrate the adjustments made to the height of the deck and the angle of the head deck section to provide visual feedback to a user of the changes in height of the deck and/or angle of the head deck section in response to the user's input at the user interface.

A patient turning device for a patient support apparatus. The patient turning device includes a first and second bladder assembly each including a plurality of layers and seals defining a bladder volume. The bladder volumes are selectively inflatable with fluid to expand the respective bladder assembly, and consequently move a patient support surface of the patient support apparatus. A portion of a lower layer of the first bladder assembly and a portion of an upper layer of the second bladder assembly define an overlapping region of the bladder volumes. The patient turning device is coupled to an underside of a carrier sheet and positioned between a crib assembly and a bottom cover. An augmenting feature is configured to resiliently expand as at least one of the first and second bladder assemblies receives the fluid to move at least a portion of the crib assembly away from a patient support deck.

A patient support apparatus includes a patient support surface, a plurality of caster wheels supporting the patient support surface on a floor or ground surface, a brake for manually braking at least one caster wheel of the plurality of caster wheels, and a handle or pedal for manually operating the brake, with the handle or pedal at least having a brake position. The patient support apparatus also includes an electrical actuator configured to couple to the brake and to selectively output a driving force and a user interface in communication with the electrical actuator. In response to input at the user interface, the electrical actuator generating the driving force to actuate the brake to thereby brake the at least one caster wheel, and wherein the driving force of the actuator moves the handle or pedal to the brake positon when the actuator actuates the manually operable brake to brake the caster wheel.

This disclosure generally relates to systems and methods for detecting, monitoring, and responding to abnormalities in a subject's breathing or heartbeat. One or more sensing devices may collect breathing or heartbeat related data, which may be filtered and converted to a frequency signal. The frequency signal may be monitored for irregularity or stoppage, and a processing module may determine whether the irregularity or stoppage is caused by an actual stoppage or irregularity in breathing or heartbeat. If breathing or heartbeat is determined to have stopped, a corrective action may be performed.

An adjustable patient support apparatus comprises a base, a support frame, and a patient support deck. The patient support deck comprises articulating deck sections, such as a leg section, seat section, and a back section pivotally coupled together. One or more actuators may be configured to move the leg and/or back section between a lowered position and one or more raised positions. The seat section may include one or more articulating seats to assist with ingress and egress from the patient support apparatus. The one or more seats may be articulated manually or electrically via a lever or actuator.

A load cell apparatus for use with a bed includes a housing having a top portion and a bottom portion, and a load cell device held by the bottom portion of the housing. The load cell device is structured to generate a signal having a magnitude that is proportional to a first force being applied to the load cell device. The load cell apparatus also includes a button member held by the housing in a manner wherein the button member is structured to engage the load cell device and apply the first force to the load cell device in response to a second force being applied to the top portion of the housing. Also, various systems for monitoring parameters such as weight, sleep quality, fall risk, and/or pressure sore risk that may incorporate such a load cell apparatus.

A bed system including an acquisition unit and a display, in which the acquisition unit acquires user interface device information from a plurality of user interface devices and the display displays a plurality of images corresponding respectively to the plurality of user interface devices on a single screen based on the user interface device information. One set of the plurality of user interface device information includes state information including at least one of bed state information relating to the state of one bed among a plurality of beds and user state information relating to the state of a user of the one bed among the plurality of beds. One image among the plurality of images includes a state display corresponding to the state information. When the state information is abnormal, the first display displays a warning display on the one image among the plurality of images.

A patient support apparatus may include a frame and a patient support surface positioned on the frame. A plurality of force sensors may be coupled to at least one of the frame and the patient support surface. Each of the plurality of force sensors may be configured to detect a force applied to the respective force sensor. A user interface may include a display and at least one user input. A controller may be in communication with each of the plurality of force sensors. The controller may include a processor and a memory device. The memory device may include instructions that, when executed by the processor, process data signals from the plurality of force sensors to determine a mobility score of a patient supported on the patient support surface.