A stabilization system configured to be arranged on a floor comprising a table having generally flat surface having a longitudinal axis for receiving a human body having a first hole, a second hole, and third hole within the flat surface, each hole having a hole shape with a generally vertical inner surface and configured to receive a bolster connector, a bolster comprising a bolster connector having an outer shape corresponding to the hole shape, the bolster connector configured to be reversibly engaged by one of the holes, a generally flat surface generally perpendicular to the table surface when the bolster connector is engaged by one of the holes.

A medical air mattress has a mattress body and an upper bedspread. The mattress body is formed by multiple air cells including independent air cells parallelly arranged as an air cell row. The upper bedspread covers the mattress body. The independent air cells are connected to the independent deflating unit to be deflated independently. When the patient needs to use the bedpan, the independent air cells are deflated to form a recess for receiving the bedpan so that the patient needs not to move.

An infant warming system includes a body temperature probe, a peripheral temperature probe, and at least two identical input jacks, each input jack configured to receive either one of the first connector or the second connector. The body temperature probe has a body temperature sensor removably fixable to an infant's torso to measure a body temperature of the infant, and a first connector configured to connect to an input jack to transmit the body temperature measurement. The peripheral temperature probe includes a peripheral temperature sensor removably fixable to the infant's extremity to measure a peripheral temperature of the infant, and a second connector configured to connect to an input jack to transmit the peripheral temperature measurement. The system further includes a probe detection module automatically detect whether each input jack is connected to the peripheral temperature probe or the body temperature probe.

A device for providing phototherapy. The device has lights that emit irradiance to provide phototherapy. The lights are positionable to emit the irradiance towards a patient. An enclosure is connected to a base and supports the lights. A control module is operatively connected to the lights and controls the irradiance emitted from the lights. A non-transitory memory module is operatively connected to the control module and stores a control program. A plurality of sensors is operatively connected to the control module and are configured to sense a current position of the lights. The control program is configured to receive inputs that include at least the current position of the lights and to provide outputs to the control module based at least in part on the inputs. The control module controls the irradiance emitted from the plurality of lights based at least in part on the outputs.

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 stretcher with a heated section, the heated section of the stretcher comprising: two opposing electrically conductive elements positioned at, or towards, opposing sides of the stretcher, wherein the opposing electrically conductive elements are connectable to a power source; an electrically conductive layer in electrical contact with the opposing electrically conductive elements, to heat up when the opposing electrically conductive elements are powered by the power source; such that the electrically conductive layer is X-ray transparent to allow a patient to be X-rayed whilst on the stretcher.

Some embodiments provide for an inspiratory limb for a breathing circuit that includes a first segment that comprises a first heater wire circuit and a second segment that comprises a second heater wire circuit. The inspiratory limb can include an intermediate connector that includes a connection circuit that electrically couples the first heater wire circuit to the second heater wire circuit. The inspiratory limb can be configured to operate in two modes wherein, in a first mode, electrical power passes through the first electrical connection to provide power to the first heater wire circuit without providing power to the second heater wire circuit, and in a second mode, electrical power pass through the first electrical connection to provide power to both the first heater wire circuit and the second heater wire circuit.

Embodiments include a flexible fabric heater. The fabric heater has a conductive base fabric having elastic properties. The base fabric may be coupled to electrical terminals. A elastomeric layer may be applied on the base fabric. The elastomeric layer may have elastic properties and includes a liquid-resistant material. A first thermal layer may be applied proximate edges along the electrical coupling between the fabric heater and the electrical terminals. The first thermal layer can have heat-resistant properties.

A medical air mattress has a mattress body and an upper bedspread. The mattress body is formed by multiple air cells including independent air cells parallelly arranged as an air cell row. The upper bedspread covers the mattress body. The independent air cells are connected to the independent deflating unit to be deflated independently. When the patient needs to use the bedpan, the independent air cells are deflated to form a recess for receiving the bedpan so that the patient needs not to move.

A patient support includes a cover defining an interior region, an air permeable first layer located in the interior region, at least one air supply coupled to the first layer to provide air flow through the first layer, a support layer located beneath the air permeable first layer, a pressure sensing layer located underneath the support layer, and a controller coupled to the air supply and to the pressure sensing layer. The controller controls air flow through the first layer in response to a signal from the pressure sensing layer.