The bed sheet with anti-slip strip is configured for use with a reclining bed. The reclining bed is further with a mattress. The mattress is a cushion on which a patient rests. The patient refers to an individual using the invention. The reclining bed forms an adjustable cant between a plane parallel to a supporting surface and a portion of the mattress. The cant formed by the reclining bed is adjustable. The bed sheet with anti-slip strip comprises the reclining bed, a fitted sheet, and a friction strip. The fitted sheet is a sheet used to cover the mattress. The friction strip is a structure that prevents the patient from shifting position relative to the mattress when the patient rests on the fitted sheet.

A patient support apparatus includes a plurality of primary sensors adapted to measure different parameters used in the control of the patient support apparatus. One or more suites of secondary sensors are added to the patient support apparatus to provide data about the primary sensors. The secondary sensors may be used to detect errors in the primary sensors, to modify outputs from the primary sensors, and/or to provide usage and/or diagnostic data about the use of the patient support apparatus. The suite(s) of secondary sensors may measure parameters that affect the outputs of one or more of the primary sensors. In some embodiments, the suite(s) of secondary sensors include one or more dormant sensors that are not used on the patient support apparatus until a code modification is received from one or more external sources instructing the control system of the patient support apparatus to begin using the dormant sensor(s).

A patient support apparatus comprises a support structure and a first side rail. The support structure comprises a base and a patient support surface for supporting a patient. A side rail connector is coupled to the support structure. The first side rail is removably coupled to the support structure by the side rail connector. The first side rail is configured to be removable from the support structure and interchanged with a second side rail. The second side rail is configured to be removably coupled to the support structure by the side rail connector.

The present disclosure relates to patient support systems, such as hospital beds, and particularly to reconfigurable patient support systems movable among a number of different positions. The present disclosure further relates to control algorithms and interfaces for use in patient support systems.

A system for use with a bed having a frame and a supporting surface includes a sheet having a bottom surface placed above the supporting surface of the bed, a top surface, and a plurality of tether straps connected to and extending from the sheet. Each tether strap is configured for connection to the bed. The bottom surface is at least partially formed of a low friction material, and the top surface is at least partially formed of a high friction material, such that the top surface provides greater slipping resistance than the bottom surface. The tether straps include at least two pairs of tether straps, with one pair connected proximate a top edge of the sheet and another pair connected proximate a bottom edge of the sheet. The sheet may further include a sliding member on the bottom surface to assist in lateral sliding of the sheet.

A method of evaluating the likelihood that an occupant will exit an occupant support comprises determining if the location of the occupant on the occupant support is displaced relative to a reference location, and if the location of the occupant is so displaced, designating that the occupant is at a risk of exiting the occupant support which is elevated relative to the baseline risk. A support apparatus comprises a framework, a mattress, sensors distributed on the support apparatus to sense occupant weight distribution on the support apparatus, and a processor adapted to designate a risk of occupant egress as a function of the direction of the occupant weight distribution and the elevation status of the perimeter panels.

A patient support apparatus may include a foam frame defining a space. A bladder assembly may be positioned in the space. The bladder assembly may include a plurality of foam filled bladders. Each of the foam filled bladders may be interconnected by a manifold. A plurality of mutually exclusively selectable pressure relief valves may be provided to release air from the bladder assembly.

There is provided a patient support that may be adjustable in height, width, length or a combination thereof. The patient support may be useable with normal sized patients or with bariatric patients. The patient support has a variety of features to enhance operability and/or functionality, including a width adjustable caster frame, width adjustable deck portions, a width adjustable headboard and an extendible foot board to provide extra length. An enhanced lift mechanism can accommodate bariatric patients and alternative functionality in achieving deck positions improves patient comfort. Various parts of the patient support including deck panels and the footboard may be removed and replaced with ease without complicated connectors.

A sleep apparatus, such as a mattress, comprises a head support surface sized to support a person's head, and a torso support surface sized to support a person's torso. The head support surface is generally laterally sloped moving from a first side toward a second side of the mattress, and the torso support surface is generally laterally sloped moving from the first side toward the second side. In some embodiments, the lateral slope of the head support surface is at least about 15, the lateral slope of the head support surface is greater than the lateral slope of the torso support surface, and/or, the sleep apparatus slopes in the longitudinal direction as well.

A patient mobility system for early patient ambulation. An ambulation device having a barrier is removably coupled to a patient support apparatus such that, in a coupled configuration, the barrier prevents patient egress from the patient support apparatus. The ambulation device configured to provide support to a patient during ambulation away from the patient support apparatus. Each of the patient support apparatus and the ambulation device can comprise a lift device operably controlled by a controller to maintain or control relative positioning of the patient support surface and the barrier in the coupled configuration. The lift device of the ambulatory device can comprise a gas spring having locking element. The ambulation device can comprise patient carrier removably coupled to a patient carrier mount. The patient carrier is configured to cooperate with the barrier to support the patient above a floor surface in a seated position.