A patient support apparatus, such as a bed, cot, stretcher, operating table, recliner, or the like, includes a litter frame, a support deck supported on the litter frame and adapted to support a mattress thereon, a touchscreen and a controller configured for carrying out various functions and to display various screens on the touchscreen, including screens for controlling a mattress function or for controlling a non-mattress function of the patient support apparatus. A notification regarding the status of a mattress function can be displayed on various screens. Status indications can be provided as a banner across a portion of the touchscreen.

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 power transfer system comprises a patient transport apparatus and a power transfer device. The power transfer system provides convenience and ease of connection between a power source and the patient transport apparatus to provide power to one or more electrically powered devices on the patient transport apparatus or to provide energy for an energy storage device on the patient transport apparatus.

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.

A method of rotating a subject includes arranging a lifting aid underneath the subject such that a midline of the subject is off center from a centerline of the lifting aid in a direction opposite of the rotation direction. The lifting aid includes a first loop extending in the rotation direction and a second loop extending in the opposite direction. The method further includes connecting the loops to a sling bar coupled to an overhead lift and directing the overhead lift to raise, where the subject rotates towards the direction of rotation due to the off center location of the subject. The method further includes repositioning the subject when the subject has rotated to a lateral recumbent position and directing the overhead lift to lower, thereby causing the subject to continue rotating.

Systems and methods for synchronizing icons across interfaces for a dental chair are disclosed. In embodiments, a dental chair has a first interface and a second interface. Each interface includes a plurality of icons that graphically depict a stored position that can be actuated to command the chair to the stored position. The chair's position may be adjusted, and the adjusted position stored to one of the icons. Upon storage, the corresponding icon on both the first and second interfaces are updated to graphically depict the new stored position. Profiles that allow selection of different sets of stored positions may be provided. Other embodiments may be described and/or claimed.

Various systems and devices are provided for determining a weaning readiness for weaning a patient from a thermoregulated microenvironment. In one example, a method includes receiving current patient parameters of the patient and applying a weaning model to the current patient parameters to calculate a weaning index representing a likelihood that the patient can be successfully weaned from the microenvironment. The method also includes outputting the weaning index for display on a display device or for storage in a medical record of the patient and upon outputting the weaning index, receiving one or more subsequent patient outcomes, the one or more subsequent patient outcomes comprising whether the patient developed any complications within the duration since being weaned from the microenvironment. The method also includes updating the weaning model based on the one or more received subsequent patient outcomes.

A respiratory humidification system includes a humidifier that is capable of electronic communication with one or more other components of the system thereby permitting transfer of data or control signals between the humidifier and other components of the system. In some systems, a flow generator, such as a ventilator, is provided to supply a flow of breathing gas. The humidifier and the flow generator are capable of electronic communication with one another. In some arrangements, an operating mode or parameter of the humidifier to be set or confirmed by the flow generator, either automatically or manually through a user interface of the flow generator. The humidifier can also utilize data provided by the flow generator or other system component, such as an incubator, to set or confirm an operating mode or parameter of the humidifier. In some arrangements, a user interface of the humidifier can display data from another system component, such as a nebulizer or pulse oximeter.

An infant warming system comprising a platform for supporting an infant, at least two chest electrodes configured to connect to and detect cardiac potentials from a chest of the infant, an ECG monitor configured to receive the cardiac potentials from the at least two chest electrodes and determine a heart rate based on the cardiac potentials, a pulse oximeter device configured to determine an SpO.sub.2 for the infant, and a processor configured to compare the heart rate for the infant to a first heart rate threshold and compare the SpO.sub.2 for the infant to a first SpO.sub.2 threshold. The processor can also adjust a display of the heart rate and the SpO.sub.2 on a display device based on the comparisons and generate a first care instruction via a user interface based on the heart rate, the SpO.sub.2, or a combination thereof.

A system for monitoring anxiety of an individual includes a chair having at least a seat and a back, a base supporting the chair, and a first sensor disposed in at least one of the seat or the back. The first sensor is configured to, without being in direct contact with the individual, continuously obtain data related to a first physical characteristic from the individual seated in the chair. The first physical characteristic is one of respiration or pulse rate. The system further includes a display and a controller. The controller is configured to receive, in real-time, the data related to the first physical characteristic from the first sensor and compile a first metric from the received data. The first metric is configured to visually represent a change in the first physical characteristic. The controller is further configured to output the first metric to the display in real-time.