A cushion assembly has two cushions that are loosely joined by a connector that proceeds through respective diagonal channels in respective corners of the two cushions. The connector has a length that loosely connects the cushions and, by a combination of this length and the diagonal channels, the cushions can be selectively configured co-planar with each other in a V-shape, with any arbitrary angle therebetween, and in a stacked configuration wherein the cushions are atop each other. The connector and the diagonal channels also allow the cushions to be configured at any selected angle between the V-shape configuration and the stacked configuration.

A double-shell helmet is disclosed. The double-shell helmet includes an outer shell, an impact absorbing material layer affixed to the outer shell on a first side of the impact absorbing material layer, an inner shell affixed to the impact absorbing material layer on a second side of the impact absorbing material layer opposite the first side of the impact absorbing material layer, and a foam layer affixed to the inner shell.

A bolster structure system possesses anti-decubitus ulcer characteristics, and may cooperate with a mattress overlay also having anti-decubitus ulcer capabilities as part of a mattress overlay system, in which multiple elongate, positionally adjustable, relatively moveable bolsters are configured for selective placement in conditions of lateral under-engagement with the sides of an overlay to create inclined, lateral side elevations of these sides at locations along the length of the overlay. The bolster structure and overlay may each include a dynamic-response core expanse formed of an open-cell, compressible viscoelastic foam coated with an elastomeric, moisture- and gas-flow-managing, differential-thickness coating structure load-transmissively bonded to the entirety of the outside of said core expanse to function as a dynamically-responsive unit therewith.

Disclosed herein are systems and methods for supporting a patient, for example, for preventing or ameliorating pressure injuries or supporting a resting posture of a patient. The system can include a first layer comprising a sheet having a sheet length, a sheet width, and a vertical center line extending along the longitudinal axis of the sheet; a second layer affixed to the first layer, and longitudinally aligned with the vertical center line; and means for securing the first layer to a mattress and tensioning the second layer. The first layer and the second layer form a plurality of pockets disposed over the vertical center line, each respective pocket comprising at least one opening and configured to receive a pressure redistributing insert or a repositioning insert.

A patient-positioning wedge includes a base wall, a back wall, and a ramp surface. The base wall has a first end and a second end. The second end is opposite the first end. The back wall has a third end and a fourth end. The fourth end is opposite the third end. The ramp surface extends from the fourth end. The ramp surface includes a first directional stitching material that is configured to resist movement of the patient-positioning wedge in a first direction extending along the ramp surface while facilitating movement of the patient-positioning wedge in a second direction perpendicular to the first direction. The ramp surface further includes a glide material which is configured to resist movement of the patient-positioning wedge in the first direction and the second direction while facilitating movement of the patient-positioning wedge in a third direction opposite the second direction.

A system for use with an inflatable device includes an air output and a nozzle at a distal end of the air output. The nozzle includes a lip extending radially from the nozzle and configured to retain the nozzle in a port of the inflatable device. The lip has a non-circular shape around the nozzle.

The present invention relates to a disposable absorbent pad comprising multiple layers. In particular, the absorbent pad of the present invention maintains skin dryness by absorbing moisture while preventing leakage to the skin or the bed linens, allowing air circulation at the surface of the patient's skin to prevent heat buildup, and is strong enough to allow the patient to be repositioned, even when the pad is wet. In a particular embodiment the first layer is comprised of a fluid-permeable, porous material, the second layer is disposed under the first layer and is comprised of at least one super absorbent material, and a base layer disposed under the second layer.

A patient support includes a mattress with an inflatable bladder, where the inflatable bladder has a cavity and an upper bladder wall forming an outwardly facing side for facing and supporting the patient on the patient mattress and forming an inwardly facing side facing into the cavity. The patient support further includes a light transmitter operable to emit light through the cavity to impinge on the inwardly facing side of the upper bladder wall and a light receiver operable to detect a reflection of the light off the inwardly facing side of the bladder wall, with the light receiver generating a signal responsive to detecting the reflection. A controller is in communication with the light transmitter and is operable to determine immersion of a patient into the mattress based on the signal from the light receiver.

A disinfecting cover for use in disinfecting a weight bearing upper surface of a resilient medical patient pressure redistribution support includes a thin barrier membrane drapable on top of the weight bearing upper surface of the resilient support, and a peripherally-extending edge terminating between the peripherally-extending side of the resilient support between the weight bearing upper surface and the bottom surface of the support. The thin barrier membrane comprises an anti-microbial disinfectant, and being non-fibrous, and impervious to the transfer of fluid from the first main surface to the second main surface. The thin barrier membrane comprises a thickness operable to maintain the weight distribution of a patient on the weight bearing upper surface of the resilient medical patient pressure redistribution support substantially the same compared to the weight distribution without the thin barrier membrane.

A mattress assembly includes a mattress and an outer mattress shell that covers the mattress and has a patient support portion and a sleep deck portion. The outer mattress shell defines an interior surface and an exterior surface. A bonding strip is coupled to the interior surface of the outer mattress shell and a fastening strip is coupled to the exterior surface of the outer mattress shell. A weld extends through the exterior surface and through the interior surface of the outer mattress shell. A clasp locker is operably coupled to the fastening strip and detachably couples the patient support portion to the sleep deck portion of the outer mattress shell.