Entries |
Document | Title | Date |
20080243018 | SYSTEM AND METHOD TO TRACK A RESPIRATORY CYCLE OF A SUBJECT - A system operable to track a respiratory cycle of a subject is provided. The system includes at least a first sensor positioned on the subject, and at least a second sensor located at a reference relative to a change in position of the first sensor associated with respiration of the subject. The system also includes a respiratory cycle measurement device coupled to receive the position data of the first sensor relative to the reference. The respiratory cycle measurement device is configured to translate the position data of the first sensor relative to time into a respiratory signal representative of a respiratory cycle of the subject. | 10-02-2008 |
20080243019 | Respiratory function measuring equipment and storage medium - A respiratory function measuring device comprises: a three-dimensional measuring unit that measures a chest movement and an abdomen movement of a breathing animal; a first measuring unit that measures a time T | 10-02-2008 |
20080249428 | METHOD AND DEVICE FOR DETERMINING THE LOCATION OF SNORING - The treatment of snoring related sleep disorders require the knowledge of the location of origin of snoring in a patient. A method and device are provided for the determination of a location of origin of a primary vibration signal generated by snoring in an upper airway of a patient. At least two sensors are used to respectively detect the primary vibration signal and to generate respective intermediate signals. The sensors are spaced apart in a longitudinal direction of the patient's neck. The respective intermediate signals are processed to generate an output signal. The output signal is indicative of the location of origin. | 10-09-2008 |
20080275356 | RESPIRATORY SENSING BELT USING PIEZO FILM - A respiratory belt sensing device to aid in monitoring breathing patterns of a user, particularly in diagnosis and treatment of persons with breathing disorders. The device includes a PVDF film member having first and second metalized major surfaces and a perimeter containing a plurality of spaced apart alignment features. It also includes a first tabbed lead and a second tabbed lead respectively attached to the first and second major surfaces of the PVDF film member by an electrically conductive adhesive. The resulting assembly is affixed to the surface of a body encircling belt member. Signals are generated when the PVDF film on the belt member is stressed due to stretching as a user breathes in and out. The generated signals can thereafter be used in diagnosis and analysis. | 11-06-2008 |
20080300502 | Method Of Correlating Internal Tissue Movement - Internal tissue movement is correlated with the external body surface movement by tracking external surface movement at a plurality of surface point ( | 12-04-2008 |
20080300503 | Method and system of monitoring respiratory signal by radio - A method and system is provided for monitoring a respiratory signal by radio. The method includes the steps of: converting a change in electric resistance, which is caused by a change in abdominal circumference measured through a rubber waistband that is made of conductive rubber and is mounted on a lower garment of a testee during respiration, into a voltage signal, performing A/D conversion on the voltage signal, and transmitting the converted digital signal to a short distance by radio using a wireless communication protocol for ZigBee; and receiving the respiratory signal transmitted by radio, transmitting it to a computer unit by wire through an RS-232 port that is a serial communication port, and enabling a tester to monitor the respiratory signal through a screen. | 12-04-2008 |
20080312547 | Cough Detecting Apparatus and Cough Detecting Method - A cough detecting apparatus capable of high-precision couching detection is provided. This cough detecting apparatus includes a voice measuring section for detecting the voice of a subject, a body motion measuring section for detecting the body motion of the subject, and a cough detecting section for detecting coughing, based on the voice detected by the voice measuring section and the body motion detected by the body motion measuring section. | 12-18-2008 |
20080312548 | Methods and systems for implantably monitoring external breathing therapy - An implantable device is used to monitor one or more conditions associated with an external breathing therapy delivered to the patient. The device may monitor therapy parameters including therapy effectiveness, impact of the therapy on the patient, therapy usage, compliance with a prescribed usage, therapy interactions, and/or other parameters. | 12-18-2008 |
20090024048 | Respiration Detecting Means - The present application is directed to a detector to detect or generate measuring signals that are indicative of the respiration of a person, wherein said detector can be used advantageously in view of hygiene and stands out due to a simple and robust configuration. According to a first aspect, the detector detects a signal that is indicative of the activity of the respiratory muscles of a person to be examined, the detector comprising a band which, in the application position, is passed around a torso region which widens and narrows when the person to be examined breathes, as well as a structure that is included in the band and loaded in accordance with the narrowing or widening of the torso region. The structure is configured such that it causes a change in the volume of a measuring space device depending on a tensile force. It is thus advantageously possible to detect or measure the forces acting on the band in a non-electric manner and, on the basis of this detection or measurement, draw conclusions relating to the widening or narrowing of the torso. | 01-22-2009 |
20090030335 | METHOD AND APPARATUS FOR RESPIRATORY MONITORING - The method and the apparatus are used for monitoring a patient's breathing. A respiratory movement of the patient is detected by means of a thoracic expansion sensor that is placed near the rib cage and by means of an abdominal expansion sensor that is placed near the abdomen. Moreover, a phase difference is detected between a thoracic measuring signal delivered by the thoracic expansion sensor and an abdominal measuring signal delivered by the abdominal expansion sensor. The phase difference thus detected is monitored to determine whether it exceeds at least a phase threshold or whether it increases over time, and the presence of a disorder in the respiratory tract of the monitored patient is recognized on the basis of an increasing phase difference. | 01-29-2009 |
20090082687 | Breathing monitoring device having a multi-point detector - In medical situation, a self breathing holding method using no breathing monitoring device shows inferior accuracy in holding breathing by a patient with poor understanding of the self breathing holding method. In view of the above, development of a readily understandable breathing holding method and breathing monitoring device with high accuracy has been desired. A breathing monitoring device having a multi-point detector comprises a housing mounted to a treatment couch for a patient to lie thereon, so as to cover the patient's body, such as a chest, an abdomen, or the like; a displacement amount determination unit mounted to the housing, for determining displacement amounts of at least two points on the patient's chest and abdomen; and a respiration level determination unit for determining a combined displacement amount which is a combination of the displacement amounts determined of the patient's chest and abdomen due to respiration. | 03-26-2009 |
20090099472 | RESPIRATORY BELT SYSTEM - The invention relates to a respiratory belt system for being used in a magnetic resonance imaging environment. | 04-16-2009 |
20090112116 | System And Method For Discrimination Of Central And Obstructive Disordered Breathing Events - Disordered breathing events may be classified as central, obstructive or a combination of central an obstructive in origin based on patient motion associated with respiratory effort. Central disordered breathing is associated with disrupted respiration with reduced respiratory effort. Obstructive disordered breathing is associated with disrupted respiration accompanied by respiratory effort. A disordered breathing classification system includes a disordered breathing detector and a respiratory effort motion sensor. Components of the disordered breathing classification system may be fully or partially implantable. | 04-30-2009 |
20090156951 | PATIENT BREATHING MODELING - A method of accounting for the movement of the lungs during an endoscopic procedure such that a previously acquired image may be dynamically registered with a display showing the position of a locatable guide. After an initial image set is acquired, an area of interest is identified and the movement thereof due to breathing is mathematically modeled. Patient movement sensors are then used to provide information on the patient's breathing patterns. This information is entered into the mathematical model in order to update the registration between the image set and a display showing the position of the locatable guide. | 06-18-2009 |
20090187112 | Patient monitor - A patient monitor is disclosed for detecting patient movement or abnormal breathing. Images of a patient are obtained by a stereoscopic camera. These images are then processed by a 3D position determination module which determines measurements indicative of positions of at least part of a patient. The obtained measurements are then passed to a model generation module which generates a breathing model of the variation in position of the at least part of a patient during a breathing cycle. Subsequently abnormal breathing or patient movement can be detected by processing further images obtained by the stereoscopic camera to determine more measurements indicative of positions of at least part of a patient. These measurements are then compared with a stored breathing model by a comparison module. If abnormal breathing or patient movement is detected the comparison module sends a signal to a treatment apparatus to interrupt treatment until normal breathing resumes or alternatively to a mechanical couch to reposition the patient to account for the detected movement. | 07-23-2009 |
20090192402 | SYSTEM AND METHOD PROVIDING BIOFEEDBACK FOR ANXIETY AND STRESS REDUCTION - An apparatus, system and method for non-contact monitoring of respiratory and/or cardiac functions that is used to provide appropriate biofeedback to a monitored subject in order to reduce stress and anxiety is discussed. Respiratory and/or cardiac waveforms are generated based on monitored physiologic functions. The generated waveforms are analyzed and compared to a target waveform for the monitored subject. Appropriate biofeedback is generated for the monitored subject based on the analysis of the generated waveform. | 07-30-2009 |
20090259135 | APPARATUS AND METHOD FOR CREATING MULTIPLE POLARITY INDICATING OUTPUTS FROM TWO POLARIZED PIEZOELECTRIC FILM SENSORS - An apparatus or method can be configured to receive first information indicative of respiratory effort of a subject from a first piezoelectric film sensor and second information indicative of respiratory effort of the subject from a second piezoelectric film sensor, and to process the received first and second information to produce an electronic signal output indicative of respiratory effort of the subject, the processing including averaging the received first information using a first differential amplifier and signal integrator with resistive reset to reduce differential noise and to attenuate common-mode noise, and averaging the received second information using a second differential amplifier and signal integrator with resistive reset to reduce differential noise and to attenuate common-mode noise. | 10-15-2009 |
20090292220 | RESPIRATION MONITORING APPARATUS, RESPIRATION MONITORING SYSTEM, MEDICAL PROCESSING SYSTEM, RESPIRATION MONITORING METHOD AND RESPIRATION MONITORING PROGRAM - A respiration monitoring apparatus includes an image acquiring section that acquires an image of an imaging target region including a physical part of a subject that reciprocates in response to the respiration of the subject as picked up with inclination of a predetermined angle relative to the reciprocating direction at each predetermined timing, a displacement computing section that computationally determines the displacement of the position of the imaging target region between the first clock time that is an arbitrarily selected timing and the second clock time that is the timing of a predetermined number of counts as counted from the first clock time on the basis of the difference between the luminance of each of the pixels on the image acquired at the first clock time and the luminance of the corresponding pixel on the image acquired at the second clock time, and a position determining section that determines the position obtained by adding the displacement of the position of the imaging target region between the first clock time and the second clock time as computationally determined by the displacement computing section to the position of the imaging target region at the first clock time as the position of the imaging target region at the second clock time. | 11-26-2009 |
20100022904 | CPR ASSIST DEVICE FOR MEASURING COMPRESSION VARIABLES DURING CARDIOPULMONARY RESUSCITATION - A device for the determination of at least one compression parameter during administration of cardiopulmonary resuscitation (CPR) on a patient comprising: a field generator, a field detector, and a processor. Position information and the compression parameter are determined from the field detected by the field detector. One of the field generator and the field detector is a position sensor and the other is a reference sensor. | 01-28-2010 |
20100056941 | Device controller and datalogger for a closed loop neuromodulator - This document discusses, among other things, a system and method for communicating sleep therapy information between a closed loop neuromodulator, configured to optimize sleep therapy, and a remote diagnostic terminal. A state machine can control the closed loop neuromodulator, by exchanging the sleep therapy information with using a device register, and the sleep therapy information can be routed between the device register and the state machine using an internal data bus. | 03-04-2010 |
20100069771 | WIRELESS PYRO/PIEZO SENSOR - This document discusses, among other things, a system and method for detecting biomedical data of a patient. Biomedical data of the patient can be detected using one or more wireless sensors. The wireless sensor can include pyro electric and piezo electric properties and can be coupled to a wireless transceiver to receive the biomedical data. Examples include wirelessly communicating the biomedical data to a base station coupled to a polysomnograph (PSG) machine or a sleep therapy device. | 03-18-2010 |
20100069772 | WIRELESS PYRO/PIEZO SENSOR TRANSCEIVER - This document discusses, among other things, an apparatus and method for transmitting biomedical data of a patient. Biomedical data of the patient can be transmitted using one or more wireless transceivers. The wireless transceiver can include a pyro/piezoelectric sensor for detecting the biomedical data of the patient. Examples include wirelessly communicating the biomedical data to a base station coupled to a polysomnograph (PSG) machine or a sleep therapy device. | 03-18-2010 |
20100152600 | NON-CONTACT PHYSIOLOGIC MOTION SENSORS AND METHODS FOR USE - A radar-based physiological motion sensor is disclosed. Doppler-shifted signals can be extracted from the signals received by the sensor. The Doppler-shifted signals can be digitized and processed subsequently to extract information related to the cardiopulmonary motion in one or more subjects. The information can include respiratory rates, heart rates, waveforms due to respiratory and cardiac activity, direction of arrival, abnormal or paradoxical breathing, etc. In various embodiments, the extracted information can be displayed on a display. | 06-17-2010 |
20100191136 | SYSTEM, PAD AND METHOD FOR MONITORING A SLEEPING PERSON TO DETECT AN APNEA STATE CONDITION - A system, pad and method of monitoring a sleeping person to detect an apnea state condition enables the person to be subject to a tactile action. In the system, a pad is provided beneath the person, and a plurality of independent position sensors are arranged within the pad for measuring movement of the person at different locations. A main control unit in electrical communication with the position sensors, and a plurality of independent vibration devices are arranged within the pad and in electrical communication with the main control unit. The main control unit is configured to receive signals from the position sensors indicative of a stoppage of breathing in the person for a given duration, and to transmit control signals to cause the vibration devices to generate a tactile action in the pad so as to jog the person out of the apnea state. | 07-29-2010 |
20100191137 | DEVICE FOR DETECTING DIAPHRAGM MOVEMENTS - A device for detecting diaphragm movements includes an accelerometric sensor with a fixture for attachment to the user's chest and a conductor connected to the control module. The device is useful for detecting diaphragm movements during invasive curative procedures on the human heart, in particular during operations of atrial fibrillation. | 07-29-2010 |
20100234750 | APPARATUS AND METHOD FOR DETECTING BREATHING DISORDERS - Apparatus for detecting breathing disorders in a person, comprising a sensor constructed to be located on, in, or under a mattress to sense mechanical vibrations of a body part of the person while lying on the mattress, and a control system designed to receive the output of the sensor, and to perform the following operations:
| 09-16-2010 |
20100234751 | MODULAR KIT OF COMPLEMENTARY PLETHYSMOGRAPHIC APPARATUS COMPONENTS - A modular kit of complementary plethysmographic apparatus components including at least one tube, at least one termination device for closing an open extremity of the tube and first and second complementary coupling mechanisms formed on the tube and the termination device. The coupling mechanisms are adapted to provide sealing engagement between the tube and the termination device. The first and second complementary coupling mechanisms comprise a notched interface component adapted to fit into a corresponding mating gap component, such that a rotation of the two components with respect to each other, solidly locks the two components together while applying pressure onto a face seal between the two components. | 09-16-2010 |
20100249632 | METHOD AND SYSTEM OF MONITORING RESPIRATORY SIGNAL BY RADIO - A method and system is provided for monitoring a respiratory signal by radio. The method includes the steps of converting a change in electric resistance, which is caused by a change in abdominal circumference measured through a rubber waistband that is made of conductive rubber and is mounted on a lower garment of a testee during respiration, into a voltage signal, performing A/D conversion on the voltage signal, and transmitting the converted digital signal a short distance by radio using a wireless communication protocol for ZigBee, and receiving the respiratory signal transmitted by radio, transmitting it to a computer unit by wire through an RS-232 port that is a serial communication port, and enabling a tester to monitor the respiratory signal through a screen. | 09-30-2010 |
20100249633 | SYSTEMS AND METHODS FOR DETERMINING REGULARITY OF RESPIRATION - A radar-based physiological motion sensor is disclosed. Doppler-shifted signals can be extracted from the signals received by the sensor. The Doppler-shifted signals can be digitized and processed subsequently to extract information related to the cardiopulmonary motion in one or more subjects. The information can include respiratory rates, heart rates, waveforms due to respiratory and cardiac activity, direction of arrival, abnormal or paradoxical breathing, etc. In various embodiments, the extracted information can be displayed on a display. | 09-30-2010 |
20100262035 | Portable Sleep Apnea Monitor - A belt made of a substantially non-elastic, flexible material with a buckle assembly having a sensor to sense breathing by means of the movement of the abdomen, an evaluator to use the information from the sensor to determine the occurrence of an apnea event, a vibrator motor to stimulate the wearer when an apnea event occurs, an alarm unit to alert people around the wearer should the wearer not respond to the stimuli from the vibrator motor, a rechargeable battery to power the electrical/electronics units and a data transfer port to transfer data from the evaluator to a display console. The display console is a stand-alone unit that receives data from the evaluator and displays the time of each apnea event that occurred. | 10-14-2010 |
20100286545 | ACCELEROMETER BASED HEALTH SENSING - Health-sensing and health-action devices and systems are generally described. The health-sensing device may include one or more of a sensor, a filter, and a transmitter. The sensor may be configured to sense one or more factors relating to an indicator of a health related condition or occurrence such as sleep apnea and may include one or more microphone devices, accelerometers, and/or MEMs devices. The filter may be configured to evaluate a signal from the sensor and determine when the indicator has been detected. The transmitter may be arranged for initiating a transmission based on a signal from the filter. The health-action device may be configured for responding to an indicator of a health related condition or occurrence of a user and may include one or more of a receiver, a processor, and a responder. | 11-11-2010 |
20100286546 | GARMENT FOR DETECTING RESPIRATORY MOVEMENT - A garment for detecting respiratory movement of a living being, wherein the garment can be pulled over the thorax of the living being, including an electric conductor integrable at the height of the thorax of the living being into the garment, which is attached to the garment in order to change an electrically measurable characteristic in dependence on the respiratory movement of the thorax, and a holder for fixing evaluation electronics integrable into the garment, which can be coupled to the electric conductor and which is implemented to detect the electrically measurable characteristic and which further includes an interface for outputting or storing data derived from the electrically measurable characteristic. | 11-11-2010 |
20100286547 | BREATHING DETECTION DEVICE AND METHOD FOR DETECTING ASYNCHRONOUS OR ARRESTED BREATHING - The present invention in one aspect is a breathing detection device with a signal source and receiver. A card between the source and receiver alternates between a first state of signal reception and a second state of signal interference, on card movement. A cord moves the card in one direction on pulling, and in reverse on retraction. The card can be a disc, belt, or any configuration conforming to a principle of card movement to affect a difference in signal receiving state. Another aspect the invention is an asynchronous breathing detection method providing a first and a second detection device as described, both in communication. In various configurations, one or more processors is provided to receive and process data to determine magnitude and direction of cord and card movement. | 11-11-2010 |
20110009766 | Noninvasive method and system for measuring pulmonary ventilation - A pulmonary ventilation system comprising means for storing an empirical relationship that is designed and adapted to determine at least one pulmonary ventilation parameter as a function of a plurality of measured anatomical distances and volume-motion coefficients, means for acquiring the anatomical distances, means for determining the plurality of motion coefficients, and processing means for determining the ventilation parameter based on the acquired anatomical distances and determined plurality of volume-motion coefficients. In one embodiment, the system further includes means for acquiring base-line ventilation characteristics and means for correlating the base-line ventilation characteristics to the ventilation parameter determined with the empirical relationship. | 01-13-2011 |
20110015535 | TECHNIQUES FOR PREDICTION AND MONITORING OF COUGHING-MANIFESTED CLINICAL EPISODES - A method is provided for predicting an onset of a clinical episode, the method including sensing breathing of a subject, determining at least one breathing pattern of the subject responsively to the sensed breathing, comparing the breathing pattern with a baseline breathing pattern, and predicting the onset of the episode at least in part responsively to the comparison. Other embodiments are also described. | 01-20-2011 |
20110034820 | DEVICE FOR MONITORING THE CONDITION OF A HUMAN BEING - A device for continuously monitoring one or more indicators relating to the health or comfort of a person | 02-10-2011 |
20110046498 | MONITORING, PREDICTING AND TREATING CLINICAL EPISODES - Apparatus and methods are provided for use with a subject who is undergoing respiration. A motion sensor senses motion of a subject. A breathing pattern analysis unit analyzes components of the sensed motion that result from the subject's respiration. The breathing pattern analysis unit includes double-movement-respiration-cycle-pattern-identification functionality that designates respiration cycles as being double-movement-respiration-cycles (DMRC's) by determining that the cycles define two subcycles. Double-movement-respiration-cycle-event-identification functionality of the breathing pattern analysis unit identifies a DMRC event by detecting that the subject has undergone a plurality of DMRC's. An output is generated that is indicative of the subject having used accessory muscles in breathing, in response to identification of the double-movement-respiration-cycle event. Other embodiments are also described. | 02-24-2011 |
20110046499 | RESPIRATORY MONITORS AND MONITORING METHODS - A respiratory monitor comprises: a first sensor ( | 02-24-2011 |
20110066062 | BODY-WORN MONITOR FOR MEASURING RESPIRATION RATE - The invention provides a multi-sensor system that uses an algorithm based on adaptive filtering to monitor a patient's respiratory rate. The system features a first sensor selected from the following group: i) an impedance pneumography sensor featuring at least two electrodes and a processing circuit configured to measure an impedance pneumography signal; ii) an ECG sensor featuring at least two electrodes and an ECG processing circuit configured to measure an ECG signal; and iii) a PPG sensor featuring a light source, photodetector, and PPG processing circuit configured to measure a PPG signal. Each of these sensors measures a time-dependent signal which is sensitive to respiratory rate and, during operation, is processed to determine an initial respiratory rate value. An adaptive digital filter is determined from the initial respiratory rate. The system features a second sensor (e.g. a digital 3-axis accelerometer) that attaches to the patient's torso and measures an ACC signal indicating movement of the chest or abdomen that is also sensitive to respiratory rate. This second signal is processed with the adaptive filter to determine a final value for respiratory rate. | 03-17-2011 |
20110066063 | Respiratory Inductive Plethysmography Band - The invention relates to improved apparatus and methods for respiratory inductive plesthysmography. The invention includes apparatus for measuring changes in the circumference of a subject comprising of an energisable conducting wire having two ends, engagement means for engaging said ends to form a gapless conducting loop, the engagement means being in electrical communication with the conducting wire. The relationship between the elements of the apparatus provides a reduced level of noise associated with a measureable signal attributed to the changes in circumference. Signals generated in the apparatus may be processed and communicated through various means for analysis of respiratory effort. A method is disclosed for measuring respiratory effort with a gapless conducting wire energised with current. | 03-17-2011 |
20110066064 | Method and System for Analyzing Breathing of a User - Methods, systems and apparatus for analyzing breathing of a user are disclosed. One method includes sensing motion of a first portion of the user, sensing motion of a second portion of the user, and generating a summed signal by inversely summing the sensed motion of the first portion of the user with the sensed motion of the second portion of the user. A breathing rate of the user is estimated based on the summed signal. Additionally, a breathing pattern of the user can be identified. | 03-17-2011 |
20110105936 | NEBULIZER HAVING FLOW METER FUNCTION - In accordance with non-limiting examples, a nebulizer includes a main body comprising an air channel section and further comprising a mixing chamber and a venturi positioned to be placed within the patient's oral cavity and configured to receive medicine and air and mix the medicine and air within the mixing chamber and receive the air flow through the venturi and cause the medicine entering the mixing chamber to be atomized by the action of air flowing through the venturi. An air flow sensor is associated with the main body and configured to measure the air flow created by the patient's one of at least inhaling and exhaling air. | 05-05-2011 |
20110112425 | CONTACTLESS RESPIRATION MONITORING OF A PATIENT - The invention relates to a method for detection of respiration of a patient comprising the following steps: emitting an electromagnetic signal towards the patient; receiving a reflected electromagnetic signal reflected from the patient; converting the reflected electromagnetic signal, yielding a first signal; phase-shifting the reflected electromagnetic signal and converting the phase-shifted reflected electromagnetic signal, yielding a second signal; determining a first vector being defined by the time derivatives of the first signal and the second signal, for a common first point in time; determining a second and vector being defined by the time derivatives of the first signal and the second signal, for a common second point in time; and calculating the scalar product of the normalized first vector and the normalized second vector as an indicator value for a change from expiration to inspiration of the patient or vice versa. A change from expiration to inspiration of the patient or vice versa is preferably indicated if the indicator value is below a threshold value, preferably below a value of 0. In this way, a possibility for contactless remote respiration monitoring of a patient based on the Doppler radar principle is provided which is reliable and easy to handle. | 05-12-2011 |
20110125044 | RESPIRATORY DISEASE MONITORING SYSTEM - An automated system for monitoring respiratory diseases, such as asthma, provides noninvasive, multimodal monitoring of respiratory signs and symptoms that can include wheeze and cough. Some embodiments employ a mobile device, such as a cell phone, in which raw data from a microphone and an accelerometer are processed, analyzed, and stored. Data can be collected continuously. Time domain and frequency domain analyses of signals to determine, e.g., energy, duration, and spectral content of candidate sounds can be employed to discriminate symptoms of interest from background sounds and to establish significance. Accelerometer signals are analyzed to determine activity levels. Analyses of a user's symptoms and activity level prior to, during, and after an event can provide meaningful determinations of disease severity and predict future respiratory events. The system can provide a summary of data, as well as an alarm when symptom severity reaches a threshold. | 05-26-2011 |
20110166470 | System and Method for Diagnosis and Treatment of a Breathing Pattern of a Patient - Described is a system including a sensor and a processing arrangement. The sensor measures data corresponding to a patient's breathing patterns. The processing arrangement analyzes the breathing patterns to determine whether the breathing patterns are indicative of a REM sleep state. In another embodiment, the processing arrangement analyzes the breathing patterns to determine whether the breathing patterns are indicative of one of the following states: (i) a wake state and (ii) a sleep state. In another embodiment, a neural network analyzes the data to determine whether the breathing patterns are indicative of one of the following states: (i) a REM sleep state, (ii) a wake state and (iii) a sleep state. In another embodiment, the processing arrangement analyzes the data to determine whether the breathing pattern is indicative of an arousal. | 07-07-2011 |
20110190651 | APPARATUS AND METHOD FOR APNEA DETECTION - In an apnea detecting apparatus, a respiratory pace analyzer determines a respiratory pace of a user based on an ambient noise (including a breathing sound, a snore, and the like of the user) generated in a surrounding area and on information of a posture of the user in determining whether or not the user suffers from the apnea syndrome. Then, an apnea time extracting unit in the apnea detecting apparatus determines whether or not a silent time is included in a time period during which the user is estimated to be breathing based on the respiratory pace and the silent time in the ambient noise. | 08-04-2011 |
20110218452 | RESPIRATION DETECTING ARRANGEMENT - The present application is directed to a detector to detect or generate measuring signals that are indicative of the respiration of a person, wherein said detector can be used advantageously in view of hygiene and stands out due to a simple and robust configuration. According to a first aspect, the detector detects a signal that is indicative of the activity of the respiratory muscles of a person to be examined, the detector comprising a band which, in the application position, is passed around a torso region which widens and narrows when the person to be examined breathes, as well as a structure that is included in the band and loaded in accordance with the narrowing or widening of the torso region. The structure is configured such that it causes a change in the volume of a measuring space device depending on a tensile force. It is thus advantageously possible to detect or measure the forces acting on the band in a non-electric manner and, on the basis of this detection or measurement, draw conclusions relating to the widening or narrowing of the torso. | 09-08-2011 |
20110257551 | BODY-WORN MONITOR FOR MEASURING RESPIRATORY RATE - The invention provides a system for measuring respiratory rate (RR) from a patient. The system includes an impedance pneumography (IP) sensor, connected to at least two electrodes, and a processing system that receives and processes signals from the electrodes to measure an IP signal. A motion sensor (e.g. an accelerometer) measures at least one motion signal (e.g. an ACC waveform) describing movement of a portion of the patient's body to which it is attached. The processing system receives the IP and motion signals, and processes them to determine, respectfully, frequency-domain IP and motion spectra. Both spectra are then collectively processed to remove motion components from the IP spectrum and determine RR. For example, during the processing, an algorithm determines motion frequency components from the frequency-domain motion spectrum, and then using a digital filter removes these, or parameters calculated therefrom, from the IP spectrum. | 10-20-2011 |
20110257552 | BODY-WORN MONITOR FOR MEASURING RESPIRATORY RATE - The invention provides a system for measuring respiratory rate (RR) from a patient. The system includes an impedance pneumography (IP) sensor, connected to at least two electrodes, and a processing system that receives and processes signals from the electrodes to measure an IP signal. A motion sensor (e.g. an accelerometer) measures at least one motion signal (e.g. an ACC waveform) describing movement of a portion of the patient's body to which it is attached. The processing system receives the IP and motion signals, and processes them to determine, respectfully, frequency-domain IP and motion spectra. Both spectra are then collectively processed to remove motion components from the IP spectrum and determine RR. For example, during the processing, an algorithm determines motion frequency components from the frequency-domain motion spectrum, and then using a digital filter removes these, or parameters calculated therefrom, from the IP spectrum. | 10-20-2011 |
20110270115 | Respiration sensing system - A respiration sensing subsystem includes a band made of stretchable material and a pair of spaced conductors extending along the band in a flexible pattern. A moisture repellant compound is added to the stretchable material of the band between the pair of spaced conductors. | 11-03-2011 |
20110282228 | Methods and Devices for Determining Pulmonary Measurements - A method for determining at least one instantaneous pulmonary measurement. The method comprises providing a plurality of instantaneous mechanical pulmonary properties of a user in at least one identified respiratory instant during at least one respiration cycle, correlating between the plurality of instantaneous mechanical pulmonary properties, and determining at least one instantaneous pulmonary measurement in at least one identified respiratory instant according to the correlation during the at least one respiration cycle. | 11-17-2011 |
20110288431 | METHOD AND APPARATUS FOR MONITORING BREATHING CYCLE BY FREQUENCY ANALYSIS OF AN ACOUSTIC DATA STREAM - Disclosed herein is a method and apparatus for monitoring, identifying and determining the breathing cycle of an individual from processed acoustic signal waveform data. The breathing sounds of an individual are recorded using a microphone and digitized such that the breathing sounds may be plotted. The data is segmented and transformed to form a plurality of segments representative of a frequency spectrum. The frequency spectrum data is transformed so as to produce magnitude bins and the sum of lower magnitude bins and the sum of higher magnitude bins are determined in a sampling of segments. A Bands Ratio is determined from the sum of lower magnitude bins and the sum of higher magnitude bins in the sampling of segments. A first bands ratio is then determined within a given segment and compared to the mean bands ratio. If the first bands ratio of the given segment is greater than the mean bands ratio by at least a predetermined multiplier, the given segment is labeled as inspiration. If the first bands ratio of the given segment is less than the mean bands ratio by at least a predetermined multiplier, the given segment is labeled as expiration. | 11-24-2011 |
20120016253 | Methods and Systems for Filtering Respiration Noise from Localization Data - A method of filtering respiration noise from a localization signal includes acquiring a localization signal from at least one position measurement sensor within a localization field and acquiring an acceleration signal for at least one localization field generator (e.g., a patch electrode). A displacement signal for the field generator is calculated, for example by integrating the acceleration signal twice, and transformed into the frequency domain in order to calculate a fractional power indicative of patient respiration. The fractional power can then be compared to a threshold value, and the localization signal can be filtered if the fractional power exceeds the threshold value. Alternatively, the acquired acceleration signal can be used to gate collection of data points from the localization signal. | 01-19-2012 |
20120029375 | Respirations Activity and Motion Measurement Using Accelerometers - A system for estimating respirations includes an accelerometer configured to be coupled to an individual's torso, the accelerometer being configured to measure a tilt of the accelerometer as the individual breathes, and a processor connected to the accelerometer, the processor being programmed to process tilt data from the accelerometer and to estimate a respiration rate based on the tilt data. | 02-02-2012 |
20120046567 | Patient Breathing Modeling - A method of accounting for the movement of the lungs during an endoscopic procedure such that a previously acquired image may be dynamically registered with a display showing the position of a locatable guide. After an initial image set is acquired, an area of interest is identified and the movement thereof due to breathing is mathematically modeled. Patient movement sensors are then used to provide information on the patient's breathing patterns. This information is entered into the mathematical model in order to update the registration between the image set and a display showing the position of the locatable guide. | 02-23-2012 |
20120089042 | DIAGNOSIS OF ASTHMA - An apparatus ( | 04-12-2012 |
20120172741 | SYSTEMS AND METHODS FOR USING SENSED PRESSURE FOR NEURO CARDIAC THERAPY - A device embodiment is configured to deliver vagal stimulation therapy (VST) to a vagus nerve of a patient. The device embodiment includes a neural stimulator, an implantable pressure sensor, and a pressure analyzer. The neural stimulator is configured to deliver the VST to the vagus nerve in a cervical region of the patient. The implantable pressure sensor is configured to be implanted in the cervical region and to detect pressure changes in the cervical region caused by laryngeal vibrations. The pressure sensor is configured to generate sensed pressure values. The pressure analyzer is configured to analyze the sensed pressure values generated by the pressure sensor. The analyzer is configured to detect laryngeal vibrations or cough from the sensed pressure values. | 07-05-2012 |
20120190998 | METHOD AND APPARATUS FOR DETECTING RESPIRATORY EFFORT - Devices and systems provide methods for detecting respiratory related effort from movements associated with the head or face. In one embodiment, a strain signal is measured by one or more sensors. A processor may analyze the head strain signal to detect respiratory related effort. Detection of effort may serve as a basis for identifying sleep disordered breathing events. For example, the analysis may serve as part of a detector to identify central or obstructive apneas or central or obstructive hypopneas. Sensors may be integrated with headgear to support them at desired locations of the face or head. Strain from head movement may be detected by measuring, for example, tension of the headgear or force applied against the headgear. The headgear may serve as an independent support for the sensors or as a component of a respiratory treatment apparatus, such as a mask or cannula. | 07-26-2012 |
20120220887 | CPR MONITORING SYSTEM WITH ACTIVE BACKBOARD - The invention relates to a monitoring system for monitoring CPR performance and a reference unit for use in the system. The system comprises a measuring unit for positioning on the chest of a patient or manikin monitoring the movements applied to the chest, wherein the system also comprises a reference unit, the reference unit comprising sensors for measuring the movements thereof, wherein said units comprises means for wireless communication, one of the units comprising a signal analyzing means and a signal receiver coupled thereto for receiving said wireless communication, and the other unit comprising a signal transmitter for transmitting the measured signals to the signal receiver. | 08-30-2012 |
20120220888 | SNORING TREATMENT - Health-sensing and health-action devices and systems are generally described. The health-sensing device may include one or more of a sensor, a filter, and a transmitter. The sensor may be configured to sense one or more factors relating to an indicator of a health related condition or occurrence such as snoring and may include one or more microphone devices, accelerometers, and/or MEMs devices. The filter may be configured to evaluate a signal from the sensor and determine if the indicator has been detected. The transmitter may be arranged for initiating a transmission based on a signal from the filter. The health-action device may be configured for responding to an indicator of a health related condition or occurrence of a user and may include one or more of a receiver, a processor, and a responder. The health-action device may stimulate the user or may cancel the snoring sound. | 08-30-2012 |
20120253217 | PREDICTION OF BREATHING SIGNAL AND DETERMINING NON-PERIODICITY OF BREATHING USING SIGNAL-PHASE HISTOGRAM - A method of processing breathing signals of a subject includes obtaining breathing signals of a subject, obtaining a signal-phase histogram using the breathing signals, wherein the signal-phase histogram comprises a plurality of data points, each of the data points having at least a phase value and a signal value, determining a reference value using at least some of the plurality of data points from the signal-phase histogram, determining whether a difference between the reference value and a signal value that is associated with a current respiratory cycle exceeds a threshold, and generating an output when the difference exceeds the threshold. A method of predicting breathing signal is also provided. | 10-04-2012 |
20120277614 | High-Frequency Oscillatory Ventilation Monitoring Method and System - A method of monitoring high frequency oscillatory ventilation (HFOV) wherein the oscillatory movement of the chest wall of an individual is measured. An average amplitude is determined and compared to a pre-determined baseline amplitude, which is established by using the average amplitude at a particular instant of time. If the variance between the average amplitude and the baseline meets and/or exceeds a pre-determined threshold above or below the baseline value, an operator is alerted. | 11-01-2012 |
20120283592 | SYSTEM AND METHOD FOR SIMULTANEOUS LUNG FUNCTION ASSESSMENT IN PARALLEL SUBJECTS - The present invention relates to a lung function assessment system, a mechanical ventilator and method that allows simultaneously measurements of lung function and provides simultaneously mechanical ventilation to multiple subjects requiring one source of gas. | 11-08-2012 |
20130053718 | SYSTEM AND METHOD OF NONCONTACT AND REGIONAL RESPIRATORY DETECTION USING A DEPTH CAMERA - A system for non-contact respiratory detection includes a non-contact respiratory detecting device and a processor. The non-contact respiratory detecting device detects respiratory data or a respiratory model of a user. The processor analyzes the respiratory data or the respiratory model to obtain a respiratory analysis result. | 02-28-2013 |
20130109994 | METHOD FOR MONITORING PHRENIC NERVE FUNCTION | 05-02-2013 |
20130144182 | SLEEP RESPIRATORY DISORDER EXAMINATION APPARATUS AND METHOD THEREOF - Disclosed is a sleep respiratory disorder examining device which includes a measurement unit which includes at least one conductive fiber and measures a resistance variation in the conductive fiber, a length of the conductive fiber being varied according to movement of a user; and a signal processor which analyzes a sleeping state of the user based on a resistance variation measured by the measurement unit. | 06-06-2013 |
20130165808 | Coil System and Method for Obtaining Volumetric Physiological Measurements - A coil device is provided having a member adapted to extend around and conform to an outer surface of a subject and a conductor adapted to extend only once around a first portion of the subject. The coil device can be positioned about the subject in order to measure a volume of the subject. When placed about the subject in the presence of a relatively homogeneous magnetic field, the conductor can generate a signal indicative of a volume of the first portion of the subject. The coil device may also include two or more conductors separately generating signals indicating volumes of two or more corresponding portions of the subject. In some cases the coil device includes associated authorization data that can limit use of the coil device. Systems and methods incorporating the coil device are also provided. | 06-27-2013 |
20130165809 | MONITORING PHYSIOLOGICAL CONDITION OF A SUBJECT - A system for monitoring breathing of a subject, the system comprising: (a) a wearable subject unit comprising: an elastic resistive sensor positionable such that breathing motion of the subject applies mechanical pressure to said elastic resistive sensor, wherein said elastic resistive sensor is configured to change its resistance responsive to the mechanical pressure, and a transmitter configured to wirelessly transmit a signal based on the change in resistance of the elastic resistive sensor; and (b) a platform unit comprising a receiver and being positionable in wireless transmission range with said subject unit, said platform unit configured to receive said signal from said subject unit and to issue an advisory signal indicative of the breathing of the subject. | 06-27-2013 |
20130172769 | METHOD, APPARATUS, COMPUTER PROGRAM AND SYSTEM FOR MEASURING OSCILLATORY MOTION - A method, apparatus, computer program, system and device for measuring oscillatory motion comprising: receiving a plurality of signals related to a plurality of measurements of a direction of a vector parameter (a | 07-04-2013 |
20130172770 | METHOD AND APPARATUS FOR MONITORING THE RESPIRATION ACTIVITY OF A SUBJECT - The invention relates to a method for monitoring the respiration activity of a subject, comprising the acquisition of a sensor signal of at least one Doppler-Radar sensor representing the respiration activity of a subject, the transformation of the sensor signal into a transformation signal being a series according to Formula (I) where a | 07-04-2013 |
20130172771 | METHOD AND DEVICE FOR IDENTIFYING A SUBJECT IN A SENSOR BASED MONITORING SYSTEM - The invention relates to a method and device for identifying a subject in a sensor based monitoring system. This method comprises an acquisition step wherein sensors of a sensor array acquire subject related sensor signals, a pattern extraction step wherein a signal pattern is derived from the sensor signals acquired in the preceding acquisition step, and an identification step wherein the signal pattern derived in the preceding pattern extraction step is compared to predetermined signal patterns, each predetermined signal pattern being related to a subject profile, to identify a subject profile whose predetermined signal pattern related thereto matches the derived signal pattern. | 07-04-2013 |
20130218041 | BELLY-TYPE BREATH AUXILIARY DEVICE - The present invention discloses a belly-type breath auxiliary device comprising body, belt assembly and breath monitoring unit. The body includes a box. The box positions the breath monitoring unit, and connects two end of the belt assembly by elastic members. The breath monitoring unit has movement detecting unit, signal processing unit and warning unit. The movement detecting unit produces a signal when detecting the third connecting member moves to a specific position, and the signal processing unit determines the user finishing one time of effective breath by the signal. The warning unit acts to remind the user keeping his belly-type breath when the movement detecting unit does not detect the third connecting member moving to the specific position within a specific time. | 08-22-2013 |
20130281874 | RECORDING MEDIUM, APNEA DETERMINING DEVICE, AND APNEA DETERMINING METHOD - A portable terminal includes a breath determining unit that, when having detected sounds having similar frequency components periodically in picked-up sounds by a microphone while an object person is being asleep, determines the sounds to be breath sounds. The terminal includes a snore determining unit that, when the sound pressure of the breath sounds is greater than a first level threshold value, determines the sounds to be a snoring sound. The terminal includes a body motion determining unit that determines whether a body motion is detected after the breath sound are determined. The terminal further includes an apnea determining unit that determines whether a silent interval is detected from a period of time between timings of the breath sound and the body motion when the body motion is detected and that determines the silent interval to be an apnea state when the silent interval is detected. | 10-24-2013 |
20130289432 | DETECTION OF BREATHING IN THE BEDROOM - The present invention relates to a method and a system for unobtrusively measuring a person's respiration, wherein at least two microphones positioned at either side of a person's bed are steered based on the distance of the persons head to said microphones as computed on the basis of images captured by a video camera. | 10-31-2013 |
20130324874 | MINUTE VENTILATION ESTIMATION BASED ON CHEST VOLUME - What is disclosed is a system and method for estimating minute ventilation by analyzing distortions in reflections of structured illumination patterns captured in a video of a thoracic region of a subject of interest being monitored for respiratory function. Measurement readings can be acquired in a few seconds under a diverse set of lighting conditions and provide a non-contact approach to patient respiratory function that is particularly useful for infant care in an intensive care unit (ICU), sleep studies, and can aid in the early detection of sudden deterioration of physiological conditions due to detectable changes in patient chest volume. The systems and methods disclosed herein provide an effective tool for minute ventilation estimation and respiratory function study and analysis in a non-contact remote sensing environment. | 12-05-2013 |
20130324875 | PROCESSING A VIDEO FOR RESPIRATION RATE ESTIMATION - What is disclosed is a system and method for estimating a respiration rate by analyzing distortions in reflections of structured illumination patterns captured in a video containing a view of a subject's thoracic region. In one embodiment, a video of a target region of a body of a subject of interest is received. Video image frames are processed to estimate 3D time-series data for the target region. As more fully disclosed herein, the subject's respiration rate is estimated from the 3D time-series data. Measurements can be acquired under a diverse set of lighting conditions. The teachings hereof provide a non-contact approach to patient respiratory function monitoring that is useful for intensive care units and for monitoring at homes, and which aid in the detection of sudden deterioration of physiological conditions due to changes in respiration rates. The teachings hereof provide an effective tool for non-contact respiratory function study and analysis. | 12-05-2013 |
20130331725 | THORACIC DIAGNOSIS ASSISTANCE INFORMATION GENERATION METHOD, THORACIC DIAGNOSIS ASSISTANCE SYSTEM, AND DYNAMIC STATE IMAGE PROCESSING APPARATUS - According to one implementation, a thoracic diagnosis assistance information generation method includes the following. A dynamic state of a chest portion is captured to generate frame images. Air velocity is calculated by dividing a lung field region extracted from one frame region into small regions, corresponding the small regions among the frame images, and calculating a feature amount showing air velocity. Air velocity distribution is calculated by dividing the lung field region into block regions in a trunk axis direction, calculating a feature amount showing air velocity of each block region based on a feature amount showing the air velocity of the small regions in the divided block regions, and calculating a feature amount showing air velocity distribution of the lung field region based on the calculated feature amount showing the air velocity of each block region. | 12-12-2013 |
20130338525 | Mobile Human Interface Robot - A mobile robot that includes a drive system, a controller in communication with the drive system, and a volumetric point cloud imaging device supported above the drive system at a height of greater than about one foot above the ground. The volumetric point cloud imaging device monitors a plurality of translations of points in the point cloud corresponding to the surface of a respiratory center of a breathing subject. The controller receives point cloud signals from the imaging device and issues an alert command based at least in part on the received point cloud signals from the identified respiratory center. | 12-19-2013 |
20140046209 | MONITORING, PREDICTING AND TREATING CLINICAL EPISODES - Apparatus and methods are provided for use with a subject who is undergoing respiration. A motion sensor senses motion of a subject. A breathing pattern analysis unit analyzes components of the sensed motion that result from the subject's respiration. The breathing pattern analysis unit includes double-movement-respiration-cycle-pattern-identification functionality that designates respiration cycles as being double-movement-respiration-cycles (DMRC's) by determining that the cycles define two subcycles. Double-movement-respiration-cycle-event-identification functionality of the breathing pattern analysis unit identifies a DMRC event by detecting that the subject has undergone a plurality of DMRC's. An output is generated that is indicative of the subject having used accessory muscles in breathing, in response to identification of the double-movement-respiration-cycle event. Other embodiments are also described. | 02-13-2014 |
20140081166 | RESPIRATION DETECTING ARRANGEMENT - The present application is directed to a detector to detect or generate measuring signals that are indicative of the respiration of a person, wherein said detector can be used advantageously in view of hygiene and stands out due to a simple and robust configuration. According to a first aspect, the detector detects a signal that is indicative of the activity of the respiratory muscles of a person to be examined, the detector comprising a band which, in the application position, is passed around a torso region which widens and narrows when the person to be examined breathes, as well as a structure that is included in the band and loaded in accordance with the narrowing or widening of the torso region. The structure is configured such that it causes a change in the volume of a measuring space device depending on a tensile force. It is thus advantageously possible to detect or measure the forces acting on the band in a non-electric manner and, on the basis of this detection or measurement, draw conclusions relating to the widening or narrowing of the torso. | 03-20-2014 |
20140213924 | METHODS, SYSTEMS AND COMPUTER READABLE STORAGE MEDIA STORING INSTRUCTIONS FOR DETERMINING RESPIRATORY INDUCED ORGAN MOTION - Methods, systems and computer-readable storage media relate to determining respiratory motion from motion data of a target to be treated. The methods may include processing motion data of a target to be treated obtained from at least one marker for at least one period. Each period including a plurality of time intervals. The processing including processing the motion data to determine an isocenter for each time interval along at least one of a plurality of axes of motion. The method may include determining at least one component of the motion data in at least one axis, the at least component corresponding to a subset of the motion data having a discrete value and/or a range of values; and determining respiratory motion from at least one component of the motion data. Radiotherapy treatment can be improved by determining the respiratory motion and the impact of respiration of a target. | 07-31-2014 |
20140236036 | DEVICE FOR OBTAINING RESPIRATORY INFORMATION OF A SUBJECT - A device and method for reliably and accurately obtaining respiratory information of a subject despite motion of the subject are disclosed. The proposed device comprises a motion signal computing unit for computing a number M of motion signals for a plurality of pixels and/or groups of pixels of at least a region of interest for a number N of image frames of a subject, a transformation unit for computing, for some or all M motion signals, a number of source signals representing independent motions within said images by applying a transformation to the respective motion signals to obtain source signals representing independent motions within said N image frames, and a selection unit for selecting a source signal from among said computed source signals representing respiration of said subject by examining one or more properties of said source signals for some or all of said computed source signals. | 08-21-2014 |
20140276174 | CORRELATING A CONDITION OF A SUBJECT WITH A DEGREE OF SLEEP APNEA BEING EXPERIENCED BY THE SUBJECT - A system can perform the following procedure as part of a plan to treat sleep apnea, according to an embodiment. The system monitors a degree to which an airway of a subject is open, and monitors a condition that is related to the degree to which the airway is open. The system also correlates the condition to the degree to which the airway is open, and generates a data structure that represents the correlation between the condition and the degree to which the airway is open. This system can allow a sleep-apnea-treatment system to operate in a closed-loop mode, i.e., to monitor a level of sleep apnea in a subject by monitoring the correlated condition, and to treat the subject in a manner that the treatment system deems appropriate for the level of sleep apnea that the treatment system determines that the subject is experiencing. | 09-18-2014 |
20150038866 | SYSTEM AND METHOD FOR DETECTING WORSENING OF HEART FAILURE BASED ON TIDAL VOLUME - Systems and methods for detecting a worsening of a patient's heart failure condition based, at least in part, on a declining trend in a representative tidal volume value over multiple days. The tidal volume value may be a maximum tidal volume, and more particularly, a maximum tidal volume determined for an afternoon portion of each of the multiple days or a selected portion of each of the multiple days that excludes a night portion. The maximum tidal volume during these portions of the day may be more sensitive to changes in a patient's respiration, particularly when a patient is expected to be more active, and thus, may more readily exhibit a declining trend when the patient's heart failure status is in decline. | 02-05-2015 |
20150057560 | MONITORING SLEEP STAGES TO DETERMINE OPTIMAL AROUSAL TIMES AND TO ALERT AN INDIVIDUAL TO NEGATIVE STATES OF WAKEFULNESS - A system and method for monitoring sleep stages to determine optimal arousal times and to alert an individual to negative states of wakefulness. In an embodiment, a device receives pressure data from at least one pressure sensor, where the pressure sensor is associated with furniture used for an individual to sleep. The device uses the pressure data to determine a sleep stage for the individual. The sleep stage is used to determine whether it is an optimal arousal time for the individual. The device sends an indication to not wake the individual if it is not the optimal arousal time for the individual. Other embodiments are described and claimed. | 02-26-2015 |
20150094606 | BREATHING PATTERN IDENTIFICATION FOR RESPIRATORY FUNCTION ASSESSMENT - What is disclosed is a system and method for identifying a patient's breathing pattern for respiratory function assessment without contact and with a depth-capable imaging system. In one embodiment, a time-varying sequence of depth maps are received of a target region of a subject of interest over a period of inspiration and expiration. Once received, the depth maps are processed to obtain a breathing signal for the subject. The subject's breathing signal comprises a temporal sequence of instantaneous volumes. One or more segments of the subject's breathing signal are then compared against one or more reference breathing signals each associated with a known pattern of breathing. As a result of the comparison, a breathing pattern for the subject is identified. The identified breathing pattern is then used to assess the subject's respiratory function. The teachings hereof find their uses in an array of diverse medical applications. Various embodiments are disclosed. | 04-02-2015 |
20150289785 | Apparatus and Method for Monitoring Respiration Volumes and Synchronization of Triggering in Mechanical Ventilation by Measuring the Local Curvature of the Torso Surface - The invention is related to a device and method for monitoring respiration, movements in mechanical ventilation in order to provide a non-pneumatic triggering variable for achieving patient-ventilator asynchrony and continuous measurement of tidal volumes. The method is based on measuring the curvature of the patient's torso surface using a single LPG (Long Period Grating) fiber-optic sensor attached to a surface of the torso in an area having high stiffness of the underlying tissue, such as the area of the lower ribs close to the sternum. | 10-15-2015 |
20150297131 | SLEEP APNEA DIAGNOSIS SYSTEM AND METHOD OF GENERATING INFORMATION USING NON-OBTRUSIVE AUDIO ANALYSIS - An electronic apparatus includes an array of microphones for detecting audible sounds generated by a patient and for generating audio information representing the detected audible sounds, a first beamformer having a first adaptability speed and configured to generate first audio information and first noise information from the audio information, a second beamformer having a second adaptability speed which is slower than the first adaptability speed, the second adaptive beamformer configured to generate second audio information and second noise information from the audio information, an audio classification unit for generating audio classification information based on the first audio information, a head movement detection unit for generating head movement information based on at least one of the second audio information, the first noise information, and the second noise information, and a diagnosis unit for determining a sleep apnea diagnosis based on the audio classification information and the head movement information. | 10-22-2015 |
20150305653 | MOTION MONITOR - A method and device ( | 10-29-2015 |
20150342518 | SYSTEM AND METHOD TO MONITOR, GUIDE, AND EVALUATE BREATHING, UTILIZING POSTURE AND DIAPHRAGM SENSOR SIGNALS - A system and method to monitor, guide, and evaluate breathing, with respect to user definable breathing patterns, sequences, and preexisting breathing exercises, utilizing posture and diaphragm sensor signals and a method to process thereof, composed of hardware and software components. The application describes a system which monitors the output signals of sensors as part of a breath training device worn by a user for measuring the state of a user's posture and diaphragm to derive a filtered breath signal. This is obtained using one or more sensors, a microcontroller to receive, process, and transmit sensor signal data, a breath training program which receives, calibrates, interprets, evaluates, and provides feedback on said sensor signal data, utilizing a set of breathing algorithms. The breath training program allows defining a breath pattern by specifying its parameters such as inhalation time, retention, inhalation depth, exhalation time, and constraints on such parameters, and to monitor and evaluate a user's breathing with respect to such a pattern, providing several visually guided feedback methods such as a graph on a timeline displaying evaluation indicators during each phase of a breath, or a game where the user guides a breath level game element through inhalation and exhalation zones to adhere to such a breath pattern. | 12-03-2015 |
20160000376 | A METHOD AND DEVICE FOR RESPIRATORY MONITORING - A respiration monitoring system has deformation transducers on a flexible substrate arranged to adhere to a patient's torso. A processor receives signals in channels from the transducers and processes them to eliminate, reduce or compensate for noise arising from patient motion artefacts, to provide an output representative of respiration. The transducers have a size and a mutual location on the substrate so that a first transducer can overlie at least part of the 10th rib and a second transducer can overlie at least part of the 11th rib or the abdomen, and the processor processes data from the first transducer as being primarily representative of rib distending respiration and from the second transducer as being primarily representative of either diaphragm respiration or patient motion artefacts. | 01-07-2016 |
20160029949 | APNEA AND HYPOVENTILATION ANALYZER - A device is operative to quantify the severity of changes in ventilation strength and amplitude by monitoring the effort and efficiency of breathing activity, and classifying the source of apnea as either central or obstructive. | 02-04-2016 |
20160095549 | WEARABLE DEVICES CONFIGURED FOR FACILITATING DIAGNOSIS AND/OR ASSESSMENT OF PULMONARY DISEASES, AND CORRESPONDING METHODS - Exemplary implementations may provide objective, continuous, and clinically useful assessment of asthma control in subjects including young children using a device that is compact, non-intrusive, and simple. The device may include a water-resistant, flexible patch that can be comfortably worn for two weeks or more. In some implementations, the patch may resemble a Band-Aid® that is placed on the supra-sternal notch. The device may record respiratory sounds that can be analyzed to identify coughing and wheezing episodes. The device may operate in different modes including ones for assessment of nocturnal symptoms, exercise-induced asthma, and overall asthma control. The device may be useful for objectively assessing asthma control to aid clinical therapy, and for an improved way to diagnose exercise-induced asthma. | 04-07-2016 |
20160183846 | PROCESSING APPARATUS AND PROCESSING METHOD FOR DETERMINING A RESPIRATORY SIGNAL OF A SUBJECT - A processing apparatus ( | 06-30-2016 |
20170231555 | DEVICE FOR MONITORING PHYSIOLOGICAL PARAMETERS | 08-17-2017 |