An equine respiratory detection device provides an inexpensive, portable appliance for evaluating equine health. A muzzle or mouthpiece attaches to the equine mouth region for sealably engaging with the respiratory pathway. The mouthpiece attached to a tubular vessel having a volumetric sensing apparatus for measuring respiratory inflow and outflow rates. The sensing apparatus includes a hot wire anemometer and sensing circuit for sensing flow rates based on changing electrical characteristics of a sensing element resulting from a temperature and humidity of the respiratory gases. Inhaling results in inflow gases having a cooling effect on a thermistor which affects the current flow in the sensor circuit. Similarly, exhaled outflow gases have increased temperature and humidity which allow identification of bidirectional flow and computation of an overall respiration volume to the equine patient subject.

Apparatus for determining respiratory information about a user, the apparatus comprising: a. a plurality of temperature sensors, each temperature sensor having a field of view, the temperature sensors being arranged to detect a temperature gradient within volume of interest and each providing an output signal; b. a support frame having a head on which said temperature sensors are mounted, the support frame and temperature sensors making no contact, in use, with the user; and c. a processor for processing one or more of said output signals to determine said respiratory information about the user.

An adapter for use in conjunction with a tracheostomy tube and/or its attachments is disclosed. It is adapted to complement conventional tracheostomy tubes and monitor and measure an assortment of breathing parameters, through one or more sensors, such as thermistors, microphones and the like. In order to evaluate whether there is a problem in the patient's airway (e.g., an obstruction), the data from the sensors is compared. By incorporating an alarm system as part of, or in conjunction with, the present invention, healthcare providers can be better able to quickly react to potential problems in the patient's airway.

A physiological parameter processing apparatus includes an input interface section that acquires respiration data produced based on a respiratory gas that is obtained from at least one of a mouth and nose of a subject, and an analyzing section that analyzes in real time the respiration data acquired through the input interface section, and that produces analysis result data which can be displayed in real time.

The present invention relates to a portable spirometer, comprising a housing and a mouthpiece being releasably connected to said housing, wherein the housing encloses a sensor unit being in fluid communication with a flow channel receiving part of a flow of exhaled or inhaled air from a main flow channel of the mouthpiece when connected to said housing, whereby the sensor unit is configured to measure one or more characteristics of part of the flow of exhaled or inhaled air passed to the sensor unit via the mouthpiece, characterised in that said sensor unit comprises at least one digital differential pressure sensor comprising a heating element and a temperature sensor arranged upstream of the heating element and a reference temperature sensor arranged downstream of the heating element.

A detection device for detecting characteristics of a mixed fluid containing different types of substances with different thermal properties within a prescribed range, includes: one or a plurality of heaters for heating the mixed fluid; a plurality of temperature detectors for detecting the temperature of the mixed fluid heated; a flow rate calculation unit for calculating the flow rate of the mixed fluid using the output from at least a portion of the plurality of temperature detectors; a correspondence relation storage unit that stores the correspondence relation between the output from the temperature detectors for a prescribed flow rate and the mixture ratio of the substances in the mixed fluid; and a mixture ratio calculation unit for calculating the mixture ratio of the substances in the mixed fluid on the basis of the output from the temperature detectors and the correspondence relation.

Systems, methods, devices, and apparatus for monitoring intra-oral physiologic and biologic data related to sleep performance for patients with obstructive sleep apnea (OSA). In embodiments, the monitor collects data within the mouth of the patient and sends this data to a smart phone running a dedicated APP which in turn sends this data to the computer of the health care worker for evaluation. In embodiments, data collected is processed using a distributed processing arrangement and an integral scoring algorithm to produce parameters key to the diagnosis and/or monitoring of patients with OSA.

An electrode lead comprises an electrically insulative cuff body and at least three axially aligned electrode contacts circumferentially disposed along the inner surface of the cuff body when in the furled state. The electrode contacts may be circumferentially disposed around a nerve, and an electrical pulse train may be delivered to the electrode contacts thereby stimulating the nerve to treat obstructive sleep apnea. The electrical pulse train may be one that pre-conditions peripherally located nerve fascicles to not be stimulated, while stimulating centrally located nerve fascicles. A feedback mechanism can be used to titrate electrode contacts and electrical pulse train to the patient. A sensor that is affixed to the case of a neurostimulator can be used to measure physiological artifacts of respiration, and a motion detector can be used to sense tapping of the neurostimulator to toggle the neurostimulator between an ON position and an OFF position.

A method for predicting an arousal level used by a computer of an arousal level prediction apparatus that predicts an arousal level of a user is provided. The method includes obtaining current biological information regarding the user detected by a sensor, and calculating a current arousal level of the user based on the current biological information. The method further includes obtaining current environment information indicating a current environment around the user, and predicting a future arousal level, which is an arousal level a certain period of time later, based on the current arousal level and the current environment information. Based on the predicted future arousal level, the method further issues a notification to the user, or controls an operation of a device.

Systems for calculating extent of congestive heart failure (CHF) and/or identifying exacerbation of CHF. In one embodiment, a system includes smartglasses configured to be worn on a user's head, and an inward-facing camera and a sensor, both physically coupled to the smartglasses. The inward-facing camera is mounted more than 5 mm away from the head and captures images of an area comprising skin on the user's head, which is larger than 4 cm{circumflex over ()}2. The sensor measures a signal indicative of a respiration rate of the user (respiration signal). The system also includes a computer that calculates the extent of CHF based on: a facial blood flow pattern recognizable in the images, and respiration rate recognizable in the respiration signal.