A controller for positioning a patient utilizing an inflatable device is provided. The inflatable device may include three independently inflatable chambers. The controller may include first, second, and third pressure output ports; first, second, and third pressure sensors; a plurality of electro-mechanical switches; an electronic user interface; an computer; a pressurized air input port; and an atmospheric air port. The plurality of electro-mechanical switches may be configured to independently control air flow through the first, second, and third pressure output ports. The first, second, and third pressure sensors may be configured to measure pressure internal to the first, second, and third pressure output ports, respectively. The computer may be configured to receive first, second, and third pressure signals from each of the first, second, and third pressure sensors, respectively; to control each of the plurality of electro-mechanical switches; and communication with the user through the electronic user interface.

A controller for positioning a patient utilizing an inflatable device is provided. The inflatable device may include three independently inflatable chambers. The controller may include first, second, and third pressure output ports; first, second, and third pressure sensors; a plurality of electro-mechanical switches; an electronic user interface; an computer; a pressurized air input port; and an atmospheric air port. The plurality of electro-mechanical switches may be configured to independently control air flow through the first, second, and third pressure output ports. The first, second, and third pressure sensors may be configured to measure pressure internal to the first, second, and third pressure output ports, respectively. The computer may be configured to receive first, second, and third pressure signals from each of the first, second, and third pressure sensors, respectively; to control each of the plurality of electro-mechanical switches; and communication with the user through the electronic user interface.

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 therapy function or for controlling a non-mattress function of the patient support apparatus. A notification regarding the status of a mattress therapy 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, 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 therapy function or for controlling a non-mattress function of the patient support apparatus. A notification regarding the status of a mattress therapy function can be displayed on various screens. Status indications can be provided as a banner across a portion of the touchscreen.

A back-mounted support device provides a stable platform for various monitoring and position support devices. The support device comprises a stiffening member configured for placement along a user's spine, the stiffening member extending from a top end to be positioned between the user's shoulder blades to a bottom end to be positioned along the spine and near a waistline of the user. A shoulder attachment system is coupled to the stiffening member to stabilize an upper portion of the stiffening member. A waist attachment system is coupled to the stiffening member to stabilize a lower portion of the stiffening member. The shoulder and waist attachment systems are configured to stabilize the stiffening member along the spine, while minimizing irritating body contact. Monitoring devices may be mounted anywhere on the support device for facilitating monitoring of body parameters.

Described herein are systems and apparatuses for enhanced comfort through contact pressure reduction. In particular, the systems and apparatuses disclosed herein prevent or otherwise mitigate pressure by actively orienting a patient over an anatomy-specific pressure-mitigating contact surface on which the patient rests. A pressure-mitigating contact portion of the contact surface includes a plurality of independently pressurized chambers configured in a specific geometric pattern that is designed to mitigate contact pressure between a support surface (e.g., bed or chair) and a specific anatomic region of a patient’s body when the specific anatomic region of the patient’s body is oriented over an epicenter of the geometric pattern. Additionally, a plurality of elevated side support portions and a wedge interconnected on the base material are configured to actively orient the specific anatomic region of the patient’s body over the epicenter of the geometric pattern.

Described herein are systems and apparatuses for enhanced comfort through contact pressure reduction. In particular, the systems and apparatuses disclosed herein prevent or otherwise mitigate pressure by actively orienting a patient over an anatomy-specific pressure-mitigating contact surface on which the patient rests. A pressure-mitigating contact portion of the contact surface includes a plurality of independently pressurized chambers configured in a specific geometric pattern that is designed to mitigate contact pressure between a support surface (e.g., bed or chair) and a specific anatomic region of a patient’s body when the specific anatomic region of the patient’s body is oriented over an epicenter of the geometric pattern. Additionally, a plurality of elevated side support portions and a wedge interconnected on the base material are configured to actively orient the specific anatomic region of the patient’s body over the epicenter of the geometric pattern.

Disclosed are patient positioning systems that support a patient in the prone position. A patient positioning system includes a chest bolster and one or more head supports selectively attachable to the chest bolster. The chest bolster elevates the patient's thorax and provides for gentle cervical flexion, while the one or more head supports can be attached to the chest bolster in different configurations to support the patient in a face down position or with the head turned laterally.

A person support system including a person support surface. The person support surface may include a blower subassembly and a surface foundation layer. The person support surface may further include a turn assist bladder layer, a working cushion layer, and a support cushion layer positioned between a first lateral side bolster and a second lateral side bolster of the surface foundation layer, a foot bladder layer positioned proximally adjacent the surface foundation layer, and a microclimate management (MCM) layer, where the blower subassembly may be configured to supply air to the MCM layer. A top encasement portion of the person support surface may be removably coupled to a bottom encasement portion of the person support surface to enclose such included components within the person support surface.

A body support system, method and apparatus is described, for preventing and treating a disease or injury by optimization of sleep posture and assisted rollovers. A body support device comprises two or more extendable, retractable support walls, for supporting various parts of a user as a cradle of the body support device is rotated into various positions.