A monitoring system for use with a human simulator for simulating interaction between a human baby and a bonded human and method of operating thereof are disclosed. The simulator comprises a housing having an outer layer configured to contact the baby, the housing having a surface contoured to simulate a torso of the bonded human; a respiration simulation system configured to simulate a respiration motion of the bonded human; and a heartbeat simulation system configured to simulate a heartbeat of the bonded human. The monitoring system comprises a smart device having a first communication interface; one or more sensors for detecting one or more biological parameters of the bonded human; at least one processor programmed with machine readable instructions to activate the sensor(s) and to transmit a signal corresponding to the detected biological parameters from the first communication interface to a second communication interface connected to the simulator.

A device for producing sensory stimuli for a child by means of a body made of an elastic material and a bellows which is embedded in the elastic material of the body, including a first converter device for generating a fluid flow for moving a lying surface for a child, a second converter device for generating sound in a fluid, which corresponds at least to either heart sounds or human speech or music, and a fluid line for simultaneously conducting the fluid flow generated by the first converter device and transmitting the sound generated by the second converter device to a bellows in a body made of an elastic material.

A bassinette for a neonatal care system includes a frame structure with at least one vertical a support member extending downward from a top support member. A sling is suspended from the top support member and configured to support a neonate. The sling comprises a pressure-diffusing netting material extending from a top end to a bottom end between opposing lateral sides. A heating coil may be configured to heat the neonate supported on the sling, and a sling controller may be secured to the frame and configured to selectively control the heating coil to heat the neonate. Additionally, a plurality of stretchable conductive electrodes may extend through the pressure-diffusing netting material and may be configured to acquire physiological signals from the neonate. The stretchable conductive electrodes may be configured to communicate the physiological signals from the plurality of conductive electrodes to a sling controller.

A neonatal care system includes a platform for supporting an infant, at least one load cell configured to sense a weight of the infant supported on the platform, and an inclinometer configured to measure an angle of the platform. A controller is configured to determine an infant weight based on the sensed weight and the measured angle of the platform.

The present disclosure relates to a system and method for controlling the pressurization of a support structure for handling of a person, the support structure comprising: a body comprising a row of at least two elongated sections adapted to be pressurized; a carrier plate, wherein, in a pressurized loaded condition of one or more of the elongated sections, the carrier plate is adapted to form an at least partially concavely curved front surface; a power unit adapted to pressurize one or more parts of the support structure individually via a respective valve; one or more sensors adapted to measure movements of the person and/or variations or deviations in pressurized parts of the support structure; and a controller configured to control the power unit to pressurize each part of the support structure that is adapted to be pressurized individually, based at least on sensor measurement data from the one or more sensors.

A system configured to support growth and development of a premature fetus is disclosed. Specifically, a method and apparatus configured to provide extracorporeal support for premature fetuses is disclosed.

A system configured to support growth and development of a premature fetus is disclosed. Specifically, a method and apparatus configured to provide extracorporeal support for premature fetuses is disclosed.

The rocking bed base is configured for use with a mattress. The rocking bed base is configured to fit inside of the existing bed frame or replace the bed frame and box spring traditionally associated with a mattress. The rocking bed base comprises a pedestal, a mattress container, the mattress, and a personal data device. The mattress container attaches to the pedestal. The mattress is contained within the mattress container. The mattress container is motorized such that the mattress container will rhythmically rotate around an axis of rotation that is parallel to the major axis of the pedestal. The personal data device controls the rotation of the mattress container. The personal data device further controls the sleeping environment in the space around the rocking bed base.

Adverse effects of pain in a premature infant, especially a very or extremely premature infant may be ameliorated by exposing the infant to stimuli comprising one or more of vertical oscillating motion simulating breathing, skin contact with an interface that mimics human skin and exposure to sounds and/or vibrations that simulate heartbeats. A device including a movable platform provides such stimuli within a neonatal intensive care incubator. The device provides simulated maternal breathing through vertical movement at a rate and speed similar to that experienced by an infant lying upon its mother's chest. It further provides simulated maternal skin interface feel as well as heartbeat sound. These simulated sensory parameters appear to have an innate calming effect upon a preterm infant that reduces the duration and severity of the infant's response to a pain event. The same stimulations may reduce occurrence of below-baseline fluctuations of brain blood oxygen content.

A system configured to support growth and development of a premature fetus is disclosed. Specifically, a method and apparatus configured to provide extracorporeal support for premature fetuses is disclosed.