A patient support system comprises a patient support apparatus for patients. The patient support apparatus comprises a base and a patient support surface supported by the base. The patient support apparatus also comprises powered devices that perform one or more predetermined functions on the patient support apparatus. Multiple input devices are employed to control the powered devices. The input devices are designed to enable caregivers to cause operation of the powered devices, as needed, while freeing the caregivers to perform other tasks.

A caregiver assistance system is disclosed for assisting a caregiver to ensure the beds of high fall risk patients are in desired states for reducing the likelihood of a patient falling. The system may also help the caregiver to perform rounding tasks. The system comprises a server in communication with the patients' beds and one or more mobile electronic devices (e.g. smart phones). The mobile devices receive answers to a plurality of fall risk questions and forward them to the server. The server generates a patient fall risk assessment from the answers, determines a desired state for fall-risk components of the bed if the patient fall risk assessment indicates the patient has a high risk of falling, compares the states of the fall-risk components to corresponding desired states, and issues an alert at the mobile device if any of the fall-risk components are not in their desired state.

A modular bed (100) comprising a main frame (102), a midline spine (104), a first subframe (108) and a second subframe (110) mounted within the main frame (102), a first pair of flaps (114) and a second pair of flaps (116) mounted within the second subframe (110), and a set of flaps (118) is disclosed. The first subframe (108) and the second subframe (110) are mounted on either side of the midline spine (104) and are configured to move laterally. Further, the first pair of flaps (114) and the second pair of flaps (116) are capable of sliding along the longitudinal central axis (106). Further, the set of flaps (118) are within the main frame (102) coupled to either side of the midline spine (104) through a hinge (120) and capable of an individual lateral movement.

A mattress cover for a mattress providing movement therapy to a patient. A patient support portion covers the upper surface of the mattress, and a bottom portion is coupled to the patient support portion. The mattress cover may substantially encase the mattress. An augmenting feature is associated with a peripheral portion with the augmenting feature adapted to move between a stored configuration, and a deployed configuration in response to increasing thickness of the mattress during the movement therapy. The augmenting feature may include concertinaed material, such as thermoformed plastic, and/or a fold of material coupled to the peripheral portion. The patient support portion and the bottom portion may at least partially overlap and be moveable relative to one another. The mattress cover may be included on a mattress overlay having a patient turning device, or on the mattress supported on a patient support apparatus.

A cover assembly for a patient support including a top portion with the top portion defining a patient support surface and a sealing surface opposite the patient support surface. The cover assembly further includes a bottom portion defining a plurality of open face chambers with each open face chamber including a floor and a plurality of walls extending from the floor towards the top portion. Each open face chamber is connected to, and integral with, at least one additional open face chamber by a hinge. The sealing surface of the top portion covers the open face chambers and is coupled to the bottom portion at each hinge.

Systems, methods and computer-readable media are provided for determining the modality for transferring, lifting, or repositioning (TLR) a human patient in a health care setting contexts. In some cases, a model-based recursive partitioning and Bradley-Terry regression is applied, which may be optionally parallelized so as to determine statistical associations with various factors, such as caregiver attributes, care venue, and patient attributes. One embodiment determines a Bradley-Terry regression model from the recursive partitioning which may be incorporated into a TLR selection decision-support tool or otherwise utilized to identify the optimal modality.

A patient positioning system includes a patient support device and a positioning apparatus including a body comprising a front end, a first lateral side, a second lateral side, and a ramped surface between the first lateral side and the second lateral side, a tail extending from the front end of the body, the tail comprising an elongated piece of material, and a directional guide material coupled to or integrated with the ramped surface and configured to interface with the patient support device, wherein the directional guide material inhibits relative movement in a first direction between the patient support device and the positioning apparatus more than relative movement in a second direction between the patient support device and the positioning apparatus.

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 number of patient beds are disclosed. Some patient beds have siderails that are movable by a patient so that the patient can egress from the bed without interference from the siderails. Various caregiver control panels and patient control panels for controlling features and functions of a patient bed are also disclosed. For example, a cart with caregiver control inputs, including hand inputs on a graphical user interface (GUI) and foot inputs, is disclosed. Patient positioning and transfer devices are also disclosed. Various types of in-bed physical therapy devices are also disclosed.

A patient bed includes turn assist panels to rotate portions of a mattress. Some patient beds have siderails that are movable by a patient so that the patient can egress from the bed without interference from the siderails. Some patient beds have caregiver control panels for controlling features and functions of the patient bed, such as movement of the turn assist panels.