An infant care station can include sensors to detect an environmental characteristic of the infant care station, an access point to access a microenvironment of the infant care station, and a processor to obtain a sealed measurement for the infant care station with the access point in a sealed position. The processor can also obtain the environmental characteristic from sensors monitoring the microenvironment. Additionally, the processor can determine a difference between the environmental characteristic and the sealed measurement and generate an alert indicating an access point sealing issue based on the difference exceeding a predetermined threshold.

An infant care station can include a lighting system, at least one access point, and a processor that can detect that the at least one access point is open. The processor can also provide, using the lighting system, a first color light in response to the detecting that the at least one access point is open, and provide the first color light with a modified brightness or provide a second color light with the lighting system after a predetermined period of time elapses with the at least one access point being open.

A system for safely containing an infant on a mattress is described. The system includes a base that supports the mattress and panels that extend upwardly from the base and together form an enclosure around the mattress. A porthole is defined through at least one of the panels, where the porthole provides access into the enclosure. A porthole door has locked and unlocked positions and covers the porthole only in the locked position. A detection system detects when the porthole door is in the unlocked position. A lighting system is operatively coupled to the detection system and is configured to emit light when the porthole door is detected to be in the unlocked position. A power system provides energy to the lighting system for emitting the light.

A heat therapy appliance for treatment of neonates has a lying surface on a platform bordered by side walls, a hood movable between a closed incubator position, bearing on the side walls and covering the lying surface, and an open nursing care position, a radiant heater secured on the appliance structure and directed at the lying surface, lifting devices acting on the platform, and a control device actuating the lifting devices to adjustably set an angle of inclination of the platform with respect to the horizontal. The platform is mounted so as to be adjustable in height. The control device also actuates the lifting devices in the same direction, to adjust the vertical position of the platform with respect to the side walls between a first position and a second position higher than the first position.

An infant care system comprises a platform configured to support an infant and to receive an applied force on the platform. The infant care system also comprises at least two load cells connected to the platform, each of the two load cells configured to receive at least a portion of the applied force on the platform and generate a signal indicative of the portion of applied force received. The infant care system also comprises a processor configured to receive and analyze the signals from the load cells and perform a function based on the analyzed signals.

A method and apparatus that provides a continuous source of medical grade air. A substantially tubular housing includes a first end, an aperture extending through the housing, and a second end, opposite the first end. A valve extends from the first end of the housing for dispensing medical grade air to a patient.

A door retention system for an infant care device includes a plurality of links pivotably coupling a door with an infant care device, and an energy storage device secured to at least one of the links. The energy storage device is configured to apply a force tending to open the door exclusively when the door is in close proximity to a fully-open position. The energy storage device is also configured to apply a force tending to close the door exclusively when the door is in close proximity to a fully-closed position.

A pediatric magnetic resonance imaging (MRI) system includes a magnet (9), an isolette (14) including a patient section for accommodating a patient, the isolette positionable relative to the magnet; and a radio frequency (RF) array (10) positionable within the patient section of the isolette (14). The RF array (10) includes a plurality of coils configured for simultaneous imaging of different portions of a patient, the plurality of coils being distinct from one another.

A neonatal care system includes a base, a bassinet platform supported on the base, and a neonatal sleep device. The neonatal sleep device includes a frame structure connected to and extending upward from the bassinet platform, wherein the sling is suspended above the bassinet platform and configured to support a neonate. The neonatal care system further includes a heater configured to heat an environment surrounding the neonate supported in the sling.

A collapsible containment apparatus (36) with a first hub (21), a second hub (22), a plurality of articulated arms (23, 25) coupled to the first hub (21), a plurality of support arms (24) coupled to both the second hub (22) and the articulated arms (23), and a flexible canopy (73) carried by the articulated arms (23). The apparatus (36) is collapsed by relative movement of the two hubs (21, 22) away from one another, and deployed by relative movement of the hubs (21, 22) toward one another. When the apparatus (36) is deployed the canopy (73) creates a closed interior environment, which may be sterile.