Disclosed herein is a cushioning device that includes a plurality of fluid cells each containing fluid for supporting a load. The cushioning device further includes a manifold system interconnecting the plurality of fluid cells, a first reservoir, and a second reservoir connected to the first reservoir in series. The first and second reservoirs are connected with a pressure relief valve allowing fluid to escape from the first reservoir to the second reservoir when the pressure in the first reservoir exceeds a threshold and a check valve allowing fluid to flow back from the second reservoir to the first reservoir. Further disclosed is a method of cushioning a body with a cushioning device.

Introduced here are methods, apparatuses, and systems for mitigating the contact pressure 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, a controller can vary the contact pressure on the human body by controllably inflating one or more chambers, deflating one or more chambers, or any combination thereof. By monitoring the pressure in each chamber over time, the controller can also gain an enhanced understanding of movement(s) performed by the human body when positioned on the pressure-mitigation apparatus.

A body state determination device includes a detection unit that is configured to detect a plurality of pressure distributions formed by a body weight of a user, and a determination unit that is configured to determine a state of a body of the user by comparing the plurality of pressure distributions detected by the detection unit with each other.

A patient support apparatus includes a mattress for supporting a patient, and low-volume turning bladders coupled to the mattress, and a low-volume, high pressure air supply for inflating the turning bladders.

The present disclosure generally relates to the field of temporal and spatial risk mapping and risk response. More particularly, the present disclosure relates to spatial and temporal mapping of outcomes, risk analysis, and responsive and preventative actions derived through artificial intelligence driven workflow augmentation using spatial and temporal data mapping of data from a plurality of historical and streaming data sources.

A power supply system for a facility includes a patient support apparatus with a controller and a patient support. A power source is operably coupled to the patient support apparatus. The controller is in communication with the power source. A transmitting assembly is coupled to the patient support apparatus and the power source. A receiving assembly is operably coupled to the patient support. The transmitting assembly wirelessly communicates with the receiving assembly to power the patient support. A locating feature is in communication with the controller of the patient support apparatus. The locating feature is configured to aid in aligning the power source on the patient support apparatus to indicate when the receiving assembly is in communication with the transmitting assembly.

A user module for a patient support apparatus is provided. The user module has a user interface operably coupled thereto. The user interface includes an input device and an output device. The output device includes a visual display including textual and non-textual elements. The non-textual elements include enhanced, graphical, and animated portions relating to one or more operational features of the patient support or to a person positionable on the patient support. The input device includes one or more touch sensors corresponding to defined regions of the visual display.

A patient support is provided. The patient support may include a plurality of inflatable members that raise or lower portions of the patient support based on the status of a valve assembly. The patient support may also include a plurality of inflatable members positioned at a foot end of the patient support to support lower legs of a patient including their heels. Another valve assembly is provided to control a bleed rate of air from the heal bladders.

A process (and apparatus) of managing pressure injuries provides a two-dimensional array of expandable, compressible cells. Each cell has a contact surface with an associated contact pressure, and the array of cells includes a given cell with a given contact surface and at least one cell adjacent to the given cell (“adjacent cell”). A controller expands the array of cells. The process also monitors the contact pressure of a body on the contact surface and detects a given contact pressure exceeding or equal to a predetermined threshold contact pressure. The controller may produce a pressure reduction response when determining that the given contact pressure exceeds or equals the predetermined threshold contact pressure. This automatically causes the controller to modify the internal air pressure of the given cell and the internal air pressure of the adjacent cell.

A multifunctional mattress having a mattress body and a heating/cooling pressurization apparatus connected to the mattress body; the mattress body comprises independent pressurized circular balloons, alternatingly pressurized square balloons, heating/cooling air supply tubes, and pressurized tubing; the two sides of said heating/cooling air supply tubes are provided with small blow holes; the independent pressurized circular balloons (3) has a surface layer and a bottom layer; the surface layer and bottom layer are joined to form a plurality of independent closed balloons (33); at a position corresponding to the head are independent pressurized circular balloons; the alternatingly pressurized square balloon areas can be inflated or deflated by means of balloons causing the upper layer of sealed balloons to rise or fall.