Disclosed herein is a urinary detection system including a plurality of sensors configured to detect a urine sample and one or more analytes within the urine sample, the plurality of sensors selected from the group consisting of a moisture sensor, a pH sensor, a blood sensor, a bacteria sensor, and combinations thereof. The system further includes a console in communication with the plurality of sensors, the console including one or more processors, an energy source, non-transitory computer readable medium and a plurality of logic modules.

An exemplary embodiment of the present disclosure provides systems and methods for non-invasively measuring blood pressure, the system and methods comprise a wearable device having a first surface, a first sensor positioned on the first surface of the wearable device, the first sensor configured to receive a first signal, wherein the first signal is indicative of a first blood-volume change in a first vessel of a subject, a second sensor positioned within the wearable device, the second sensor configured to receive a second signal, wherein the second signal is indicative of a cardiac mechanical motion of the subject, and a processor positioned within the wearable device, the processor configured to generate an output based at least on the first signal and the second signal, the output representing a blood pressure measurement of the subject.

The invention refers to a photonic integrated circuit (PIC), the photonic integrated circuit comprising: at least one laser, the laser having a laser output, a measuring portion including a measuring port and configured to measure an intensity and/or wavelength of light input at the measuring port, and an output portion configured to output light from the photonic integrated circuit to the portion of the tissue, wherein optionally the laser includes a ring resonator laser, a laser generating light having a fixed wavelength, a laser being constructed using hybrid integration, and/or a tunable laser.

A health and wellness tracking ring that can be worn by a user at all times, that is unobtrusive and that collects health and wellness data about the user providing a means for the wearer to access and utilize the collected data for continuous monitoring and improvement of the wearer's health and wellness. The ring includes a control mechanical button that is easily accessible to the user while wearing. The ring includes replaceable outer shells and includes hardware and software that allow the user to communicate with software in a computer device such as a cell phone, cloud provider, table, personal computer or AI assistant.

The present disclosure provides a detection module including a carrier configured to be adjustable to at least partially conform to a shape of a wearable object. The detection module further includes a sensing element in contact with the carrier and at least partially exposed from the carrier.

A wearable device according to the present disclosure includes: a communication portion; a body fluid sensor configured to measure conductivity in body fluid; and a controller configured to control the communication portion to transmit conductivity data to an external device in response to the frequency of rapid change in the conductivity.

An electrocardiogram recording device can include a housing, a clip, a modem, and an antenna. The housing can contain RF shielding, which can be arranged to minimize RF signal transmissions in one direction while not limiting RF signal transmission in an opposite direction. The clip can be attached to the housing. An antenna can be integrated within the clip. The modem can be a cellular data modem.

A wound monitoring and/or therapy system can include a substantially stretchable substrate supporting a plurality of electronic components, including sensors, and a plurality of electronic connections that connect at least some of the electronic components. The electronic components can also include a circuit board supporting at least one controller configured to control at least some of the sensors, the circuit board configured to operate without failure when the substrate is flexed as a result of strain. A calibration track can be positioned on the substrate and connected to a monitoring circuit configured to measure a change in resistance of the calibration track indicative of resistance change of at least some of the plurality of electronic connections. The system can include a controller with a circuit board supporting a plurality of electrical components and an antenna configured to communicate with the substrate, the antenna at least partially enclosing the circuit board.

A health management system includes a risk calculator 301 for receiving input of vital data on a human or an animal, and for calculating a disease occurrence risk in the human or the animal; and a reduction measure specifier 302 for specifying a reduction measure for reducing the disease occurrence risk in the human or the animal.

A substance concentration measuring device, for measuring a substance concentration for a target substance in blood of a subject, comprising: a processing circuit; and a plurality of electrodes. At least two of the electrodes touches the subject when the subject wears the substance concentration measuring device, thereby the processing circuit can acquire at least one physiological signal caused by an eye of the subject. The processing circuit computes a voltage value or a voltage difference of the physiological signal, and computes the substance concentration according to the voltage value or the voltage difference. A human condition monitoring system comprising the substance concentration measuring device is also disclosed.