An intelligent dog collar for monitoring physiological parameters of a dog, comprising: a movement sensor unit comprising an accelerometer and/or a gyrometer, wherein the movement sensor unit is configured to detect raw movement signals of the dog collar, a storage module storing a trained neural network, the neural network being configured to determine a physiologic information into raw movement signals detected by the movement sensor unit, a processing unit connected to the movement sensor unit and configured to operate the trained neural network, a memory configured to store the identified physiologic information, an interface for transmitting to a communication device the identified physiologic information.

A method and apparatus for monitoring a human or animal subject in a room using video imaging of the subject and analysis of the video image to detect and quantify movement of the subject and to derive an estimate of vital signs such as heart rate or breathing rate. The method includes techniques for de-correlating global intensity variations such as sunlight changes, compensating for noise, eliminating areas not of interest in the image, and quickly and automatically finding regions of interest for detecting subject movement and estimating vital signs. A logic machine is used for interpreting detected movement of the subject, and an artificial neural network is used to calculate a confidence measure for the vital signs estimates from signal quality indices. The confidence measure may be used with a normal density filter to output estimates of the vital signs.

We disclose an improvement for oximeters, which makes oximeters more reliable when making measurements on patients of darker skin complexion. The device of our invention discloses a re-entrant cavity, inside which some of the tissues of the patient are forced into, by pressing the device of our invention against the skin of the patient. The probing electromagnetic radiation beams (typically deep red and infra-red radiation) are directed to propagate through said re-entrant cavity, inside which some of the outer tissues of the patient are forced, along a path that is approximately parallel to, and just under, the skin of the patient. This probed volume inside said re-entrant cavity contains more arterial and less venous blood, when compared with measurements made by perpendicular beams, that penetrate deep under the skin, which causes that the measurements made by our device are more accurate than many existing oximeters.

The present invention relates to a syringe-injection-type brain signal measurement and stimulation structure, and a syringe injection method therefor, and provides a structure including a high-performance flexible element capable of minimizing a skull opening when inserted into the brain. Particularly, the present invention comprises: a flexible element, which includes a contact part making contact with a surface of a cortex so as to measure a signal generated in the brain or transmit an external stimulus to the brain, a transmitting/receiving part positioned between a skull and a skin, and a connection part for making a connection between the contact part and the transmitting/receiving part; and an integrated circuit connected to the transmitting/receiving part so as to transmit/receive a signal.

This disclosure relates to diagnostic devices for diagnosing lymphedema. The diagnostic devices may include an array of sensors, which can at least include a durometer, temperature sensor, and dielectric sensor, to measure parameters of tissue. The measurements may be used to generate a tissue health score to diagnose lymphedema and monitor tissue heath.

A method and an apparatus for establishing absence of pain in a human or other mammal have been disclosed. The method comprises the steps of providing a skin conductance signal measured at an area of the mammal's skin through a time interval; detecting peaks in the skin conductance signal through said time interval; determining a rate of the peaks through the time interval; comparing the determined rate of peaks with a predetermined reference value; and if the measured rate of peaks is lower than the predetermined reference value, providing an output signal as indicating the state of absence of pain in the mammal.

A system coupled to a non-human subject comprising communication circuitry configured to communicatively couple to a medical device coupled to the subject and a remote computing system, the medical device configured to monitor physiological data of the non-human subject and the remote computing system configured to store historical data for the non-human subject; processing circuitry; and a memory comprising instructions that, when executed by the processing circuitry, cause the processing circuitry to: receive the monitored physiological data from the medical device; determine whether the medical device indicates that the monitored physiological data is in satisfaction of at least one condition triggering an upload of at least a portion of the monitored physiological data; and in response to the determination, generate, for communication to the remote computing system, output data comprising the at least a portion of the monitored physiological data.

A method and system for continuously measuring animal body temperature are disclosed. The system includes: an external device for transmitting wireless power into an animal's body from outside the animal's body; and an implant device inserted into the animal's body, that periodically measures the animal's body temperature by a temperature sensor by using battery power and stores continuous body temperature information in storage, and that, when wireless power is received from the external device, sends the continuous body temperature information stored in the storage to the external device by using the received wireless power.

Sinusitis and other disorders of the ear, nose and throat are diagnosed and/or treated using minimally invasive approaches with flexible or rigid instruments. Various methods and devices are used for remodeling or changing the shape, size or configuration of a sinus ostium or duct or other anatomical structure in the ear, nose or throat; implanting a device, cells or tissues; removing matter from the ear, nose or throat; delivering diagnostic or therapeutic substances or performing other diagnostic or therapeutic procedures. Introducing devices (e.g., guide catheters, tubes, guidewires, elongate probes, other elongate members) may be used to facilitate insertion of working devices (e.g. catheters e.g. balloon catheters, guidewires, tissue cutting or remodeling devices, devices for implanting elements like stents, electrosurgical devices, energy emitting devices, devices for delivering diagnostic or therapeutic agents, substance delivery implants, scopes etc.) into the paranasal sinuses or other structures in the ear, nose or throat, Specific devices (e.g., tubular guides, guidewires, balloon catheters, tubular sheaths) are provided as are methods for manufacturing and using such devices to treat disorders of the ear, nose or throat.

An electrode support includes a first reference electrode and a second electrode, the electrodes being electrically insulated from each other and able to measure two electric potentials at the surface of a haired animal body, the electrode support further including an electronic module including at least one memory, a calculator and a first electric interface to receive electric signals acquired from each electrode for recording a cardiac activity of the haired animal, the electrodes each including a one-piece structure formed of a polymer material in which conductive elements are distributed, the structure including a base and a plurality of projections able to go through a coat.