A monitoring device is disclosed having a band or sock or garment configured to be placed about a portion of a subject. The sock or garment houses a sensing module to measure health parameters of the subject. The sensing module has a sensor assembly that is optimized to detect when the device is not properly situated on the subject in order to minimize false readings and/or to improve the reliability of readings from the device.

An infant warming system includes a bassinet having a platform configured to support an infant, at least one wireless physiological sensor configured to measure a physiological parameter from the infant and transmit physiological parameter data, and at least two radio frequency identification (RFID) readers. The RFID readers are configured to communicate with the at least one wireless physiological sensor to facilitate pairing therewith so as to enable receipt of the physiological parameter data from the wireless physiological sensors at the infant warmer system. The RFID readers each have a range distance that is less than a length of the platform and are positioned such that the wireless physiological sensor is in the range distance of at least one of the at least two RFID readers from any location on the platform.

A drinking behavior monitoring device is provided which comprises a stress level detection sensor (300) detecting a stress level of a baby (20), a suction frequency detection sensor (200) detecting a suction frequency during a feeding of the baby and an analyzer (400) analyzing a drinking behavior of a baby based on the detected stress level and the detected suction frequency. The analyzer (400) compares the analyzed drinking behavior with a typical or predetermined drinking behavior and can output a notification based on the analyzed drinking behavior.

An assisted early screening system for Down syndrome, relating to assisted screening of Down syndrome skin prints based on a machine learning algorithm, wherein the system comprising: (a) a skin print feature input module; (b) a processing module for diagnosis of Down syndrome based on skin print, wherein the processing module performs a scoring processing on the inputted skin print features according to a predetermined evaluation criteria to obtain a risk score, and compares the risk score with a Down syndrome risk threshold, thereby obtaining an assisted screening result; and (c) an output module for assisted screening result, which is configured to output the assisted screening result. The assisted early screening system for Down syndrome can implement simple, accurate, and effective assisted early screening of Down syndrome, such that powerful assistance can be provided for postnatal early intervention for early Down syndrome patients.

Disclosed herein are systems and methods for the continuous monitoring of subjects that ensure that the probe of a monitoring device that needs to be in contact with the subject remains in continuous contact with the subject. Embodiments of the present disclosure include contacting a probe to a subject, transmitting a first electromagnetic radiation signal from a source in the probe to the subject, detecting via at least one detector in the probe a second electromagnetic radiation signal from the subject, detecting via a processor coupled to the at least one detector a change in contact between the probe and the subject based on a change in the second electromagnetic radiation signal, and stopping via the processor the source from transmitting the first electromagnetic signal upon detecting the change in contact between the probe and the subject.

An apparatus for evaluating the tongue strength and coordination of a subject includes an intermediate device such as a lever which is pivotably attached to a coupling device and extends into a cavity of a nipple element. The lever is detached from the nipple and pivotable in response to deformation of the nipple element by a tongue force exerted on the nipple element by a subject during a suck-swallow-breathe sequence. The coupling device includes a sensing device to wirelessly transmit sensor outputs to a mobile device paired to the sensing device. The sensing device includes at least one sealed chamber defined by a membrane and a sensor. In one example, a first membrane and sensor senses pressure change in a fluid in the apparatus, and a second membrane and sensor is actuated by the intermediate device to sense deformation of the nipple element. A method using the apparatus is provided.

A baby bottle device (100) is provided which comprises at least one 100 movement sensor (140, 150) for detecting a movement of the baby bottle device (100). The movement data from the movement sensor (140, 150) is analyzed in an analyzer (200) to perform a suck-swallow-breathe analysis during a drinking phase of the baby based on the movement data from the movement sensor (140, 150). Thus, a drinking behavior of a baby can be efficiently analyzed.

A patch-type sensor module is provided. A patch-type sensor module according to one embodiment of the present invention comprises: a power supply unit electrically connected with a flexible circuit board; a sensing unit which is mounted on the flexible circuit board and includes a temperature sensor for measuring a user's body temperature; a communication unit which allows power to be supplied using a wake-up function, wherein a pairing with an external communication module is concurrently established when power is supplied, and information measured through the sensing unit is then transmitted to the external communication module; a control unit for controlling operations of the power supply unit, the sensing unit, and the communication unit; and a protection member for preventing the flexible circuit board, the power supply unit, the sensing unit, the communication unit, and the control unit from being exposed to the outside.

Various examples are described for using a movement sensor to detecting an activity of an infant. In an example, an activity classification system includes a sensor configured to measure the activity of an infant and an external monitor. The monitor receives, from a sensor, a time series of data comprising an inertial measurement for each a time period. The monitor determines, from the time series and by using a predictive model, an activity from a list of identified activities. Examples of identified activities are deep sleep, light sleep, sitting, awake, nursing, or bottle feeding.

Apparatus for imaging during surgical procedures includes an operating room for the surgical procedure and an MRI for obtaining images periodically through the surgical procedure by moving the magnet up to the table. The magnet wire is formed of a superconducting material such as magnesium di-boride or Niobium-Titanium which is cooled by a vacuum cryocooling system to superconductivity without use of liquid helium. The magnet weighs less than 1 to 2 tonne and has a floor area in the range 15 to 35 sq feet so that it can be carried on the floor by a support system having an air cushion covering the base area of the magnet having side skirts so as to spread the weight over the entire base area. The magnet remains in the room during surgery and is powered off to turn off the magnetic field when in the second position remote from the table.