A computer-based system and method for generating a current pain assessment of a neonate using facial expressions along with crying sounds, body movement, and vital signs changes and for using the current pain objective assessment to predict future pain objective assessment and assign a future pain probability score by incorporation spatiotemporal data into the multimodal assessment.

Methods and systems are described for detecting the likelihood of patent ductus arteriosus (PDA) in an infant using electrocardiogram and photoplethysmographic pulse signals obtained from the upper body and foot of the infant.

A neonatal care system includes an enclosure configured to provide a microenvironment for a neonate, one or more physiological sensors configured to sense a plurality of physiological parameters of the neonate, one or more microenvironmental sensors configured to sense a plurality of microenvironmental parameters within the enclosure, and at least one external environmental sensor configured to sense at least one external parameter outside the enclosure. A control system is configured to control the microenvironment based on a plurality of control settings, track at least one setting change to any of the control settings and in corresponding time of change, and store at least one event and a corresponding time for each event. A longitudinal log is generated including each of the physiological parameters, microenvironmental parameters, external parameter, setting change, and event with respect to time. A display is then generated and displayed based on the longitudinal log.

The present invention provides an automatic system (10) to monitor health condition of an infant (40), said system (10) comprises: a mattress (20) configured to receive the infant (40) in a resting position; a plurality of sensors (30), connected to the mattress (20), to detect the health condition of the infant (40) resting on the mattress (20); a processing module (50), connected to the plurality of sensors (30), to receive information on the health condition of the infant (40) from the plurality of sensors (30) and process the information according to pre-determined criteria; and an output module connected to the processing module to output the processed information.

The invention relates to a non-invasive system for determining the maturation of a baby, which comprises a module for sampling a cardiac or electroencephalographic signal from a baby and advantageously performs a conversion of a plurality of temporal samples derived from the cardiac signal or from the electroencephalic signal into a visibility graph, then a determination of at least one index on the basis of this visibility graph, a comparison of at least one determined index with one or more statistical indices representative of the maturation of a plurality of babies and a visual representation of a distance between at least one determined index and the statistical indices.

An electrode system for neurological monitoring is disclosed, including a housing with a recess dimensioned to hold an electrode. A conductive gel is applied to said electrode to limit direct contact by said electrode to a patient's skin. The recess defines a wall in said housing that engages the patient's skin. A thin bead of adhesive applied to the top surface of the wall secures the housing, and therefore the electrode, to the patient. Finer electrical conductor wires in a more flexible insulator lead from the electrode to a connector that fits into a neurological monitoring amplifier. The electrode system further comprising a template structure for precisely locating and adjusting to a patient's dimensions.

The present invention relates to an automated stimulation device for inducing a tactile inter-stimulus onset asynchrony (ISOA) effect in a subject suffering from apnea, bradycardia and/or hypoxia, the device comprising at least two actuators configured for contacting a body portion of the subject, and interspaced for producing an apparent tactile movement in the subject upon sequential induction of actuation, wherein the duration of the actuations and the overlap in actuation time between the at least two actuators is controlled to attain an inter stimulus onset asynchrony (ISOA).

An electrode device for aEEG is disclosed. The electrode device includes a housing mounted on an adhesive element to adhere the electrode device to a skin surface of a patient; an electrode plate placed in the housing; and a wire connection for the electrode plate. The housing has a first protruding part that includes a conical-shaped hole for injecting and removing an electroconductive gel and that is disposed in the housing inclined outwardly at an angle between 50 degree and 80 degree with respect to the longitudinal direction of the skin surface. The housing also has a second protruding part that includes a hole for the introduction of the wire connection in order to be attached to the electrode plate. The second protruding part is disposed on the axis of the housing

When inserting a catheter or other medical equipment into a child or adolescent or other paediatric patient, ECG signals may be recorded from the catheter and the location of the catheter determined by analysing the ECG signals. A signal processor and user interface may receive recorded signals in real-time from the catheter while the catheter is inserted into the paediatric patient. The signal processor may analyse the ECG signals to determine the location of the catheter in the paediatric patient. The user interface may display the location of the catheter and other pertinent information to a user while the user is inserting the catheter. One method for determining the location may include determining R-wave and P-wave peaks of the ECG signal and determining the location from an average location of the R-wave and P-wave peaks in the ECG signal.

In some embodiments, a self-monitoring intravenous catheter system is provided. An alarm controller is provided that receives signals representing a pH value, an oxygen saturation value, and a pressure value in proximity to the distal end of the catheter. By performing a fuzzy logic analysis of the values, the alarm controller is able to detect that the catheter is about to fail or has failed, and can cause alerts to be presented. In some embodiments, an intravenous catheter is provided that has a pH sensor and an oximeter disposed at a distal end of the catheter to obtain the pH value and oxygen saturation values analyzed by the alarm controller. Embodiments of the catheter and self-monitoring intravenous catheter system may be particularly useful in treating neonates, who are sensitive to catheter failure and are not capable of detecting the signs of failure themselves.