| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | Methods For Validating Patient Identity | US12844942 | 2010-07-28 | US20120029317A1 | 2012-02-02 | Peter Doyle; Joseph Doug Vandine; Warren Sanborn; Dan Graboi |
| This disclosure describes systems and methods for monitoring a patient on a ventilator-oximeter system. The disclosure describes a novel approach determining if the oximeter and the ventilator are attached to the same patient and if not providing a warning. | ||||||
| 102 | System And Method For Diagnosing Sleep Apnea Based On Results Of Multiple Approaches To Sleep Apnea Identification | US13019882 | 2011-02-02 | US20110190599A1 | 2011-08-04 | Hui Wang; Scott Amundson; Robin Boyce; James Ochs; Li Li; Steve Vargas; Tonia Madere |
| Various embodiments may provide methods and systems capable of evaluating physiological parameter data. The methods and systems may include a receiver capable of collecting a signal representative of a physiological status of a patient, a plurality of data analysis components, wherein each of the plurality of data analysis components is capable of generating a metric based on the signal, and an arbitrator communicatively coupled to each of the plurality of data analysis components and capable of generating a single metric from the metrics generated by the plurality of data analysis components. | ||||||
| 103 | SYSTEM AND METHOD FOR DIAGNOSING AND MONITORING CONGESTIVE HEART FAILURE | US13073301 | 2011-03-28 | US20110172548A1 | 2011-07-14 | Gust H. Bardy |
| A system for diagnosing and monitoring congestive heart failure for automated remote patient care is presented. A database stores a plurality of monitoring sets relating to patient information recorded on a substantially continuous basis. A server retrieving and processing the monitoring sets includes a comparison module determining patient status changes by comparing at least one recorded measure from one of the monitoring sets to at least one other recorded measure from another of the monitoring sets with both recorded measures relating to a type of patient information, and an analysis module testing each patient status change for one of an absence, an onset, a progression, a regression, and a status quo of congestive heart failure against a predetermined indicator threshold corresponding to a type of patient information as the recorded measures. The indicator threshold corresponds to a quantifiable physiological measure of a pathophysiology indicative of congestive heart failure. Hysteresis parameters may be used as a temporally-defined threshold for changes in pathophysiology. | ||||||
| 104 | Method, Device and Computer Program Product for Monitoring a Subject | US12483404 | 2009-06-12 | US20100317931A1 | 2010-12-16 | Mika Sarkela |
| A method, device, and computer program product for monitoring the physiological state of a subject is disclosed. A first plurality of physiological signals are acquired from the subject and a second plurality of signal parameters are determined based on the first plurality of physiological signals. Relevant signal information is selected from among the signal information produced and at least one screen page is displayed at a time, thereby to make at least part of the signal information visible to a user. The signal information visible to the user on the at least one screen page may then be revised based on the selection and without user interaction, thereby to accelerate clinical decision-making and to diminish the possibility of undetected changes in the state of the subject. | ||||||
| 105 | WIRELESS MEDICAL MONITORING SYSTEM | US12307369 | 2006-07-05 | US20100210920A1 | 2010-08-19 | David Ziv; Ilan Shopen; Avi Keren |
| An operator-controllable medical monitoring system including at least one medical sensor that is adapted to monitor at least one patient characteristic, a plurality of medical monitors, each including a monitor wireless transceiver and a medical information display and a patient companion assembly including a patient companion assembly wireless transceiver and a medical monitor selector wirelessly operative to initially select one of the plurality of medical monitors and to provide a monitor selection indication which is visually sensible to the operator. | ||||||
| 106 | System and method for displaying a health status of hospitalized patients | US11096189 | 2005-03-31 | US20050187796A1 | 2005-08-25 | Brian Rosenfeld; Michael Breslow |
| A system and method for displaying a health status of hospitalized patients. Patient data associated with hospitalized patients is selected according to display rules. A display module selects selected patient data, applies display rules to the selected patient data, and displays the selected patient data. A smart alert module generates and applies patient specific rules to other selected patient data elements. If a patient-specific rule for a hospitalized patient has been contravened, an alert is issued from the remote command center. Graphical attributes may be assigned to patients for whom an alert has been issued and to selected patient data elements that fall outside of an acceptable range. The graphical attributes determine how selected patient data appear on a display screen. | ||||||
| 107 | System and method for providing diagnosis and monitoring of congestive heart failure for use in automated patient care | US10042402 | 2002-01-07 | US06811537B2 | 2004-11-02 | Gust H. Bardy |
| A system and method for providing diagnosis and monitoring of congestive heart failure for use in automated patient care is described. At least one recorded physiological measure is compared to at least one other recorded physiological measure on a substantially regular basis to quantify a change in patient pathophysiological status for equivalent patient information. An absence, an onset, a progression, a regression, and a status quo of congestive heart failure is evaluated dependent upon the change in patient pathophysiological status. | ||||||
| 108 | Pulse oximeter monitor | US867005 | 1986-05-20 | US4653498A | 1987-03-31 | William New, Jr.; James E. Corenman |
| A display monitor is disclosed for a pulse oximeter of the type wherein light of two different wavelengths is passed through body tissue, such as a finger, an ear or the scalp, so as to be modulated by the pulsatile component of arterial blood therein and thereby indicate oxygen saturation. A tonal signal is emitted having a pitch proportional to the ratio of oxygen saturation and a sequential repetition proportional to pulse. A visual cue consisting of an array of strobed light emitting diodes is flashed having a total light output proportional to the magnitude of the pulse and a sequential flashing rate proportional to pulse rate. A systematic rejection of extraneous or irregular detected data prevents undue sounding of alarms. | ||||||
| 109 | ROBUST CLASSIFIER | EP16705299.2 | 2016-02-05 | EP3256956A1 | 2017-12-20 | CONROY, Bryan; ESHELMAN, Larry James; POTES, Cristhian; XU, Minnan |
| Various embodiments described herein relate to methods and apparatus for robust classification. Many real-world datasets suffer from missing or incomplete data. By assigning weights to certain features of a dataset based on which feature(s) are missing or incomplete, embodiments of the prevention can provide robustness and resilience to missing data. | ||||||
| 110 | DEVICE AND METHOD FOR THE ANALYSIS OF THE AIR EXHALED BY A SUBJECT IN ORDER TO MEASURE THE BASAL METABOLISM THEREOF | EP16193897.2 | 2016-10-14 | EP3167800A1 | 2017-05-17 | BRUGNOLI, Mr. Paolo; DI PIETRO, Mr. Alberto; RAGUSA, Mr. Marco; CELENTANO, Mr. Domenico |
A device and a method for the analysis of the air exhaled by a subject (S, T) in order to measure basal metabolism of the subject comprise a main line (L) for a sampling flow of the air exhaled by a subject (S) who breathes spontaneously or a subject (T) undergoing assisted pulmonary ventilation. A mixing mini-chamber (10) is provided for mixing a plurality of air sampling flows exhaled by the subject (S, T) within a number of respiratory cycles. Sensors (13, 14) for sensing the oxygen concentration and the carbon dioxide concentration respectively measure the oxygen concentration and the carbon dioxide concentration within the air flow in the main line (L). The device (1) further comprises an electronic control unit (E) which processes signals from the sensors for obtaining a measurement of metabolism of the subject (S, T) within a number of respiratory cycles. The electronic control unit (E) is further programmed for automatically starting, upon switching on the device (1), a self-calibration stage of the device (1), by connecting the main line (L) to a calibration line (L2) while causing the calibration flow to pass through a by-pass line (LB) by-passing the mixing mini-chamber (10), so that the calibration can be performed immediately, without requiring a filling of the mixing mini-chamber.
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| 111 | DETERMINING RESPIRATORY PARAMETERS | EP14822765 | 2014-03-28 | EP3019082A4 | 2017-03-08 | ADAM ORI; LAPRAD ADAM; COHEN INON; PELES ZACHI; FREDBERG JEFFREY J; SOLWAY JULIAN |
| A pulmonary measurement system includes a pulmonary measurement device that includes a mouthpiece with an airflow path and a sensor positioned in the airflow path; and a controller communicably coupled to the sensor. The controller includes a processor and instructions stored in memory and is operable to execute the instructions with the processor to perform operations including identifying a measurement from the sensor; identifying a particular equation stored in the memory, the particular equation developed using data analytics and including an input parameter that is based on the identified measurement; and based on the identified measurement and the particular equation, determining a value of absolute lung volume. | ||||||
| 112 | METHOD OF DETECTING ARDS AND SYSTEMS FOR DETECTING ARDS | EP15703603.9 | 2015-02-11 | EP3107448A1 | 2016-12-28 | WEDA, Johannes; VINK, Teunis Johannes; WANG, Yuanyue; BOS, Lieuwe Durk Jacobus; NIJSEN, Tamara Mathea Elisabeth |
| The invention is directed to a system and method for providing an ARDS indication of a patient comprising a sampling device for obtaining a gas sample of the exhaled breath of a patient, a measuring unit for measuring a content of n-octane in the exhaled breath of a patient, a controller which is able to distinguish if the patient has or may develop ARDS based on the content of n-octane in the exhaled breath of a patient resulting in a ARDS indication of the patient and provided with a protocol for providing output regarding the ARDS indication of the patient, and a user interface for indicating the ARDS indication to a user. | ||||||
| 113 | IMPROVED BLOOD PRESSURE MONITOR AND METHOD | EP13853268 | 2013-11-08 | EP2916725A4 | 2016-07-06 | THAI LE |
| 114 | DEVICE FOR OBTAINING RESPIRATORY INFORMATION OF A SUBJECT | EP14702636.3 | 2014-02-05 | EP2956062A1 | 2015-12-23 | DE HAAN, Gerard; SHAN, Caifeng; HOU, Jingqi |
| The present invention relates to a device and method for reliably and accurately obtaining respiratory information of a subject despite motion of the subject. The proposed device comprises a motion signal computing unit (30) 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 (32) 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 (34) 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. | ||||||
| 115 | DEVICE AND METHOD FOR OBTAINING VITAL SIGN INFORMATION OF A LIVING BEING | EP13820971.3 | 2013-11-29 | EP2928360A1 | 2015-10-14 | KAESTLE, Siegfried Walter; SHAN, Caifeng |
| The present invention relates to a device (1) and method for obtaining vital sign information of a living being (2). The proposed device (1) comprises a detection unit (3, 42, 61) for receiving light (4) in at least one wavelength interval reflected from at least a region of interest (20) of a living being (2) and for generating an input signal (5) from the received light (4), a processing unit (6) for processing the input signal (5) and deriving vital sign information (7) of said living being from said input signal (5) by use of remote photoplethysmography, an illumination unit (8, 43, 64) for illuminating at least said region of interest (20) with light, and a control unit (10) for controlling said illumination unit (8, 43, 64) based on said input signal (5) and/or said derived vital sign information (7). | ||||||
| 116 | BED APPARATUS, AND PATIENT DETECTION METHOD | EP12858231 | 2012-12-12 | EP2792340A4 | 2015-08-19 | MORIMURA HISAO; TANAKA MAKOTO; WATANABE SHINSUKE |
| A bed apparatus includes: a mattress mounted on a bed body; and, first cells arranged on both left and right sides in a longitudinal direction of the bed body. The bed apparatus is configured to change the body position of a patient on the mattress by inflating the first cells alternately. In the apparatus, the first cells on the left and right sides are inflated, and when a difference in pressure between the first cells on the left and right sides has continuously fallen within a decision pressure value range for a decision pressure value continuation time, the body position of the patient is changed, whereas when the difference in the pressure between the first cells on the left and right sides has not continuously fallen within the decision pressure value range for the decision pressure value continuation time or when the difference in the pressure between the first cells on the left and right sides has continuously fallen out of the decision pressure value range for the decision pressure value continuation time, change of the body position of the patient will not be performed. With this, it is possible to provide a bed apparatus and the like that can detect the place of the patient lying on the bed before changing the body position of the patient to thereby prevent the patient from falling from the bed apparatus. | ||||||
| 117 | SYSTEM AND METHOD FOR GENERATING COMPOSITE MEASURES OF VARIABILITY | EP12807797 | 2012-06-28 | EP2729767A4 | 2015-05-27 | SEELY ANDREW E; BRAVI ANDREA; LONGTIN ANDRÉ |
| A system and method are provided for assessing the degree of critical illness of patients in Intensive Care Units (ICUs), and the detection of occurrence of specific clinical outcomes, pursued through the monitoring of a variety of physiological signals, extraction of multiple measures of variability, and integration of the relevant information the measures of variability bring. The integration process leads to the creation of a compound variable, referred to as a composite measure of variability, which can be tuned to various clinical needs, since the process of normalization, feature selection and data integration are customizable to the clinical indication, planned use of the composite variability monitoring. The system and method also enable joining the composite measure of variability with clinical factors, so as to estimate the likelihood of developing specific clinical outcomes. | ||||||
| 118 | METHOD FOR PREDICTING AWAKENING IN A COMATOSE PATIENT AND COMPUTER-IMPLEMENTED METHOD THEREOF | EP13709876.0 | 2013-03-12 | EP2825092A1 | 2015-01-21 | DE LUCIA, Marzia; TZOVARA, Athina |
| The present invention relates to a method for predicting awakening in a comatose patient based on the progression of auditory discrimination during early stages of coma. EEG measures are acquired from the patient during two distinct periods when said patient is exposed to auditory stimuli comprising repeated standard and deviant sounds. The first period occurs when the comatose patient is in a hypothermia state and the second period occurs when the comatose patient is in a normal temperature state and preferably within 2-3 days from the onset of the coma. The present invention further relates to a computer-implemented method thereof. | ||||||
| 119 | VIDEO MONITORING SYSTEM | EP11827593.2 | 2011-09-23 | EP2619724A2 | 2013-07-31 | DERENNE, Richard, A.; DELUCA, Richard, T.; WROBLEWSKI, Jason, J.; DHALL, Sanjay; DUAN, Xiyu; LOWALEKAR, Vishal, P. |
| A monitoring system includes a camera adapted to capture images and output signals representative of the images. The camera may include one or more depth sensors that detect distances between the depth sensor and objects positioned within the field of view of the one or more cameras. A computer device processes the image signals and or depth signals from cameras and determines any one or more of the following: (a) whether a patient care protocol has been properly followed; (b) what condition a patient is in; (c) whether an infection control protocol has been properly followed; and (d) whether steps have been taken to reduce the risk of a patient from falling. Alerts may be issued if any conditions of importance are detected. | ||||||
| 120 | SYSTEM AND METHOD FOR DIAGNOSING SLEEP APNEA BASED ON RESULTS OF MULTIPLE APPROACHES TO SLEEP APNEA IDENTIFICATION | EP11704359.6 | 2011-02-02 | EP2531103A1 | 2012-12-12 | WANG, Hui; AMUNDSON, Scott; BOYCE, Robin; OCHS, James; LI, Li; VARGAS, Steve; MADERE, Tonia |
| Various embodiments may provide methods and systems capable of evaluating physiological parameter data. The methods and systems may include a receiver capable of collecting a signal representative of a physiological status of a patient, a plurality of data analysis components, wherein each of the plurality of data analysis components is capable of generating a metric based on the signal, and an arbitrator communicatively coupled to each of the plurality of data analysis components and capable of generating a single metric from the metrics generated by the plurality of data analysis components. | ||||||
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