According to some aspects, a system configured to facilitate imaging an infant using a magnetic resonance imaging (MRI) device is provided herein. The system comprises an infant-carrying apparatus comprising an infant support configured to support the infant and an isolette for positioning the infant relative to the MRI device, the isolette comprising: a base for supporting the infant-carrying apparatus; and a bottom surface configured to be coupled to the MRI device. In some embodiments, the infant-carrying apparatus further comprises at least one radio frequency (RF) coil coupled to the infant support and configured to be coupled to the MRI device to detect MR signals during imaging performed by the MRI device. A method for positioning an infant relative to an MRI device using an infant-carrying apparatus and isolette is further provided herein.

A device (4) aligns and connects a housing hood (3) to a housing (2). The device (4) has a first connecting piece (5) and a second connecting piece (6). The first connecting piece (5) has a clamp bearing element (51) and the second connecting piece (6) has a lamella element (61). The lamella element (61) is arranged movably along the clamp bearing element (51). The device (4) has a clamping element (7) for clearance-free clamping the lamella element (61) with the clamp bearing element (51). An alignment of the hood (3) on a housing (2) can be carried out simply and rapidly and requires only weak clamping forces.

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.

An infant incubator heat control device includes a temperature-detecting device providing chamber interior and incubator heater temperature measured values. A first mode of operation has an interior temperature set value, a temperature of the heater set value is calculated as a function of the interior temperature set value and of the chamber interior temperature measured value. A controlled variable is calculated for the heater as a function of the temperature of the heater set value and of the heater measured value. A second mode of operation calculates a temperature of the heater set value independently of the chamber interior temperature measured value. A controlled variable is calculated for the heater as a function of the set value for the temperature of the heater and of the heater temperature measured value.

According to some aspects, a system configured to facilitate imaging an infant using a magnetic resonance imaging (MRI) device is provided herein. The system comprises an infant-carrying apparatus comprising an infant support configured to support the infant and an isolette for positioning the infant relative to the MRI device, the isolette comprising: a base for supporting the infant-carrying apparatus; and a bottom surface configured to be coupled to the MRI device. In some embodiments, the infant-carrying apparatus further comprises at least one radio frequency (RF) coil coupled to the infant support and configured to be coupled to the MRI device to detect MR signals during imaging performed by the MRI device. A method for positioning an infant relative to an MRI device using an infant-carrying apparatus and isolette is further provided herein.

A transport incubator includes a support structure having a base provided with at least one first guide, and a housing structure coupled with the supporting structure. The housing structure includes a first portion having at least one first side panel slidably coupled with the first guide of the base, and a second portion laterally delimited by at least one first side wall, on which the at least one first side panel of the first portion slides.

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 device (4) aligns and connects a housing hood (3) to a housing (2). The device (4) has a first connecting piece (5) and a second connecting piece (6). The first connecting piece (5) has a clamp bearing element (51) and the second connecting piece (6) has a lamella element (61). The lamella element (61) is arranged movably along the clamp bearing element (51). The device (4) has a clamping element (7) for clearance-free clamping the lamella element (61) with the clamp bearing element (51). An alignment of the hood (3) on a housing (2) can be carried out simply and rapidly and requires only weak clamping forces.

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.

An incubator including a plurality of panels. At least one of the panels, or portion thereof, is a multi functional panel that is reversibly connected to at least one of the plurality of panels. The incubator can be opened and closed. In a closed configuration, the incubator sealingly encloses an internal environment. In an open configuration, the multi-functional panel is deployable as a countertop.