An infant care station that includes multiple operational modules that communicate with each other to carry out the infant care station functions. The multiple modules form part of a micro-environmental platform that allows for communication and power connections between all of the operational components required within the infant care station. The multiple modules communicate with each other utilizing a universal interface bus that includes power connections, communication connections and control connections between the multiple modules. Sensor data obtained by various sensors is stored using a standard data format. A data repository is included in one of the modules and is used to store sensor data obtained from the infant patient, operational protocols and other information needed to operate the infant care station. The data repository provides a central location for both data producers and data subscribers that are part of the micro-environment platform.

A port assembly (100) is generally disclosed that has an annular port ring (110) configured for placement in a barrier wall (10). The annular port ring (110) defines a port opening (20) extending from a first end (22) to a second end (24) and an annular sealing surface (118) about the port opening (20) on the second end (24). A port cover (120) is mechanically coupleable to the annular port ring (110). The port cover (120) defines an annular mating surface (124) configured to couple to the annular sealing surface (118) of the annular port ring (110). A manually actuatable handle (130) is in mechanical communication with the port cover (120). The handle (130) extends from the first end (22) of the annular port ring (110) away from the second end (24).

A shock and vibration system for an infant care transport system with an enclosed infant care device. The shock and vibration system utilizes multiple damping systems that create a floating patient support system that allows the infant care device to move in the various axes of motion instead of being rigidly mounted to the frame or sub-frame, or any substructure.

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.

Systems and method for positioning a neonate within an imaging device are provided. A capsule incubator, a cart, and a docking incubator are used to move a baby between an imaging device and a incubator, such that a baby can be imagined without having to move the baby from its environment.

A shock and vibration system for an infant care transport system with an enclosed infant care device. The shock and vibration system utilizes multiple damping systems that create a floating patient support system that allows the infant care device to move in the various axes of motion instead of being rigidly mounted to the frame or sub-frame, or any substructure.

An apparatus and method of controlling a temperature within an isolette includes obtaining a temperature of ambient air external to the isolette, obtaining a base-line ambient air temperature, and calculating a maximum heater power level based on a relationship between the base-line ambient air temperature and the actual ambient air temperature.

An incubator includes an incubator main body, a baby accommodation chamber disposed in the incubator main body and capable of being shielded from external air, and a humidifier disposed in the incubator main body so as to generate steam for supplying humidified air into the baby accommodation chamber. The humidifier has a connection portion to which a water supply hose is connectable so as to supply water for generating the steam from a water supply container located outside the incubator main body. In addition, the humidifier includes a humidifying tank which stores the water for generating the steam, a water supply port portion which supplies the water into the humidifying tank in communication with the connection portion, and a float valve which opens and closes the water supply port portion by moving upward and downward in response to a water level of the water stored inside the humidifying tank.

A system for washing and treating infants includes components for keeping an infant under controlled sterile and warm conditions. The system also includes a device for washing the infant, which has a support frame and a flexible laminar element adapted to be secured thereto. The frame and the laminar element define a housing for receiving the infant while he/she is being washed and/or treated. The housing is adapted to be introduced into the washing and treating components and is accessible from outside. The frame has a single-unit structure composed of tubular members made of a medical-grade sterilizable metal or non-metal material.

A neonatal infant incubator apparatus (10) and a control system module (17), and methods and systems for using the control system module to control the microenvironment of the contained space (16) of the infant incubator apparatus (10). The neonatal infant incubator apparatus (10) including a collapsible frame (12) and a disposable housing (14) to create a closed contained space (16) with a controlled microenvironment. The control system module (17) is comprises a battery (32) and is configured to operate with low voltage; the control system module (17) configured to control the microenvironment, including regulating the temperature and gas composition, of the contained space (16), and includes an air circulation system (72) in air and/or fluid communication with the contained space (16). The systems, apparatus and methods are suitable for containing a full-term or premature infant in need of care in areas where power sources are limited, including e.g., rural or remote regions, third world countries, in a regular clinical setting and/or for transportation of the infant.