A support cushion liner includes a liner body having a cavity disposed between an outer layer and an inner layer and a plurality of artificial muscles disposed in the cavity of the liner body. Each of the plurality of artificial muscles include a housing having an electrode region and an expandable fluid region, a dielectric fluid housed within the housing, and an electrode pair positioned in the electrode region of the housing. The electrode pair includes a first electrode fixed to a first surface of the housing and a second electrode fixed to a second surface of the housing. The electrode pair is actuatable between a non-actuated state and an actuated state such that actuation from the non-actuated state to the actuated state directs the dielectric fluid into the expandable fluid region, expanding the expandable fluid region thereby applying pressure to the outer layer of the liner body.

The apparatus of the present invention provides an apparatus for moving a patient on a pad and holding the pad in place on the surgical table. The disposable pad works in conjunction with the reusable patient lifting/moving base, allowing nurses to more readily and easily move patients on the table in order to facilitate surgical positioning. In another embodiment, the entire apparatus may be disposable. A pressure sensitive adhesive may hold the pad in place and prevent slippage between the pad and the top of the surgical table.

A mattress system is provided that is optimized for the hospital setting and includes a guiderail system that accepts a variety of accessories for attachment thereto. The guiderail system may have integrated data lines, power lines, gas lines, and/or fluid lines. Also provided are radioabsorbant shields, trays and other components designed for optimal use with the mattress system.

A combination patient-transfer air-inflated pad and intraoperative heater device has first and second interlocking chambers laterally fused together. The air-inflated pad has a top surface and a bottom surface formed by way of the first and second interlocking chambers. The first interlocking chamber is formed as a comb-type structure having a main spine with two or more prongs alternately separated by valleys. The second interlocking chamber is a mirror comb-type structure to the first interlocking chamber. The device is fabricated from two thin layers of plastic material, selectively configured and fused. With this construction, the bulk of the device, as well as the cost of manufacture, are reduced. The device is affordable for single use, obviating the difficulty and possible incompleteness of sterilization between uses. The first interlocking chamber has an inlet appointed to be supplied with regulated, controlled low pressure and controlled temperature heated or cooled air. The second interlocking chamber has a plurality of air venting apertures in said bottom surface of said air-inflated pad. The second interlocking chamber has an inlet appointed to be supplied with ambient air at a regulated, controlled pressure to facilitate lifting and lateral displacement during patient transfer. The device may be easily re-employed when the patient is transferred from one location to another and may function as an alternating pressure mattress if needed.

Mobility rehabilitation device comprising a table, hinged to a support structure and respective actuator, configured to rotate said table between a horizontal and a vertical position, said table being provided with a harness configured to fasten a patient positioned thereon, said rehabilitation device comprising a lower limbs movement mechanism to make the patient's femur rotate with respect to the hip and a couple of feet movement platforms, said device comprising also a plurality of infrared light sources, positioned so that each light source lights up the muscles of a respective area of the patient's lower limbs, a control unit configured to control said lower limbs movement mechanism and said light sources and to manage an adjusting cycle of the intensity of said light sources in a differentiated manner for each of said sources, as a function of the movement cycle imposed by said lower limbs movement mechanism.

An infant care station is described herein that can include a heating component of a microenvironment of the infant care station, at least one temperature measuring device, and a processor. The processor can calculate a baseline temperature of the heating component using the at least one temperature measuring device and monitor the heating component using the at least one temperature measuring device to determine one or more operating characteristics. The processor can also detect, based at least in part on the baseline temperature, that the one or more operating characteristics exceed a predetermined threshold and generate a response that results in a correction of the temperature maintained by the heating component.

The gurney cover and optional heating system comprises a container, a body cover spool, a body cover, a head cover spool, a head cover, a plurality of container clips, one or more body cover clips, and one or more head cover clips. The container may couple to a first side of a gurney via the plurality of container clips. The body cover and the head cover may be adapted to be deployed from within the container by pulling them across the gurney to cover a patient. The body cover may couple to a second side of the gurney via one or more body cover clips. The head cover may couple to the second side of the gurney via one or more head cover clips. The body cover, the head cover, or both may comprise battery-powered heating elements that are adapted to warm the patient.

A thermal transfer device for providing thermal treatment to a patient. A patient support portion supporting and contacting the patient includes a first segment of a fluid flow path to receive a fluid from a fluid source. A flexible covering coupled and movable relative to the patient support portion defines a space therebetween that substantially conforms to the patient. The flexible covering includes a second segment of the fluid flow path. The fluid is circulated through an inlet, an outlet, and fluid flow path for supplying heat to or removing heat from the patient support portion and the flexible covering. A fluid circulation system with a controller may selectively adjust heat transfer from temperature zones defining the patient support portion. The thermal transfer device or a mattress cover may provide for controlling the microclimate, or conditions at or near the interface between the patient and the patient support portion.

A patient support system for providing improved guidance and/or troubleshooting with respect to a patient support apparatus. A user interface is configured to receive inputs from a user, and an information output device is configured to provide instructions to the user. A controller determines a guidance protocol for the user based on the inputs. The guidance protocol comprises user-performed actions to be performed by the user in response to the instructions provided to the user with the information output device. The guidance protocol may be initiated and/or determined based on a troubleshooting request and/or an uncorrelated sequence of user inputs. At least one of the user-performed actions may be configured to control operational functions of a patient support apparatus. Methods for improving patient care by providing the guidance and/or troubleshooting are also disclosed.

A medical device, such as a patient support apparatus or a thermal control unit, includes a plurality of mechanical components and a plurality of nodes adapted to communicate with each other over a local network onboard the medical device, and a gateway in communication with an off-board network. The gateway translates messages between the onboard and off-board networks, manages subscriptions to content of the local network, controls bidirectional communication, and otherwise oversees communications between the local and remote networks. The gateway utilizes a configuration file for managing the communications between the off-board and onboard networks, and the gateway is configured to switch to using new or modified configuration files without requiring a reboot or power cycle of the gateway. Updates to the communications between the onboard and off-board networks can therefore be implemented without any downtime and/or without requiring updates to software executables.