Patent application number | Description | Published |
20090069647 | METHOD, SYSTEM, AND APPARATUS FOR CARDIOVASCULAR SIGNAL ANALYSIS, MODELING, AND MONITORING - The present invention provides a method, system, and apparatus to monitor cardiovascular signals such as arterial blood pressure (ABP), pulse oximetry (POX), and intracranial pressure (ICP). The system can be used to calculate and monitor useful clinical information such as heart rate, respiratory rate, pulse pressure variation (PPV), harmonic phases, pulse morphology, and for artifact removal. The method uses a statistical state-space model of cardiovascular signals and a generalized Kalman filter (EKF) to simultaneously estimate and track the cardiovascular parameters of interest such as the cardiac fundamental frequency and higher harmonics, respiratory fundamental frequency and higher harmonics, cardiac component harmonic amplitudes and phases, respiratory component harmonic amplitudes and phases, and PPV. | 03-12-2009 |
20090192392 | Method, system, and apparatus for statistical evaluation of antihypertensive treatment - A novel method, system, and apparatus—the RDH Method—for evaluating antihypertensive treatment efficacy across patient populations is disclosed. In accordance to one embodiment, the RDH is a population vector index and graphical method that provides the means for the statistical assessment of antihypertensive treatment reduction, duration, and homogeneity using ambulatory blood pressure monitoring (ABPM). The population RDH was specifically designed as a tool to evaluate and compare blood pressure (BP) coverage offered by antihypertensive drugs over 24 h in populations. In accordance to one embodiment, the population RDH is a three-component vector index that incorporates information about the reduction, duration, and homogeneity of antihypertensive treatment, as well as their statistical significance over the 24 h period. In the preferred embodiment, the population RDH components quantify: 1) the total number of statistical significant BP reductions, 2) the maximum number of consecutive statistical significant reductions, and 3) the maximum number of consecutive non-significant reductions over the 24 hours, respectively; and reports two population graphs that characterize the effect of the treatment. The output of the RDH index can be used in clinical trials to characterize the effects of antihypertensive medications, and in clinical practice to guide antihypertensive treatment. | 07-30-2009 |
20110166460 | METHOD FOR BLOOD PRESSURE MEASUREMENT FROM NONINVASIVE OSCILLOMETRIC PRESSURE SIGNALS - Disclosed embodiments include a method for measuring non-invasive blood pressure from an oscillometric signal and a cuff pressure signal implemented in a medical apparatus comprising: (a) calculating a pulse pressure signal by subtracting an upper and a lower envelope of the oscillometric signal; and (b) calculating without the use of beat detection a mean arterial pressure, a systolic blood pressure, and a diastolic blood pressure from said oscillometric signal, said cuff pressure signal, and a plurality of thresholds a device with at least one processor. | 07-07-2011 |
20110213277 | SYSTEM, METHOD, AND APPARATUS FOR OBJECTIVE ASSESSMENT OF MOTOR SIGNS AT THE EXTREMITIES - Disclosed embodiments include a system for objective assessment of motor signs at the extremities that comprises (a) a device for objective motor sign measurement, (b) a test protocol defining a prescribed repetitive activity, and (c) a signal processing and analysis system to generate one or more impairment metrics. According to a particular embodiment, the device for objective motor sign measurement is characterized by including means for producing a continuous measure of position of a limb or extremity during said prescribed repetitive activity during the entire movement. | 09-01-2011 |
20110213278 | MOVEMENT MONITORING SYSTEM AND APPARATUS FOR OBJECTIVE ASSESSMENT OF MOVEMENT DISORDERS - Disclosed embodiments include a movement monitoring system and apparatus for objective assessment of movement disorders of a subject, comprising (a) one or more movement monitors, and (b) a computer-implemented analysis system comprising one or more protocols and associated data analysis methods to objectively quantify movement disorders based on movement data acquired by the movement monitors. According to one embodiment, the movement monitors are robust wireless synchronized movement monitors and the protocols include one or more tests for assessment of neural control of balance. | 09-01-2011 |
20110214030 | Wireless Synchronized Movement Monitoring Apparatus and System - Disclosed embodiments include a movement monitoring apparatus comprising a wireless synchronization scheme. Depending on the particular embodiment such wireless synchronization scheme is a master synchronization scheme or a mesh synchronization scheme. Additionally, in a particular embodiment, the movement monitor further comprises a robust wireless data transfer data controller. The disclosure includes a description of the complete system, namely, the wireless synchronized movement monitors with robust data transfer capabilities, the docking station, the access point, and the computer-implemented analysis system. | 09-01-2011 |
20110270097 | METHOD AND APPARATUS FOR ASSESSMENT OF FLUID RESPONSIVENESS - Disclosed embodiments include a method and related apparatus for determining a physiological parameter from the arterial blood pressure signal, the photoplethysmographic signal, the electrocardiogram, or any other a physiologic signal whose pulse amplitude variation is affected by respiration and it is indicative of fluid status in order to quantify the degree of amplitude modulation due to respiration (pulse variation) and help assess fluid responsiveness. | 11-03-2011 |
20130012836 | METHOD AND SYSTEM FOR ACTIVITY/REST IDENTIFICATION - Disclosed embodiments include a method for automatic identification of activity and rest periods based on an actigraphy signal. According to an embodiment, the method comprises (a) applying one or more filters to the actigraphy signal to generate a filtered actigraphy signal, and (b) comparing the filtered actigraphy signal against an adaptive threshold to generate an output signal corresponding to the activity and rest periods. The method can be implemented as part of a medical apparatus or medical system for automatic activity/rest identification from actigraphy signals. | 01-10-2013 |
20140066816 | METHOD, APPARATUS, AND SYSTEM FOR CHARACTERIZING GAIT - Disclosed embodiments relate to methods, apparatuses, and systems for characterizing gait. Specifically, disclosed embodiments are related methods, apparatuses, and systems for characterizing gait with wearable and wirelessly synchronized inertial measurement units. These include a method for gait characterization that comprises (a) detecting zero-velocity periods using two or more wearable and wirelessly synchronized movement monitoring devices including a triaxial accelerometer and a triaxial gyroscope and (b) calculating temporal measures of gait during walking by estimating the change in position and orientation during each step. | 03-06-2014 |
20140122958 | Wireless Synchronized Apparatus and System - Disclosed embodiments include an apparatus that comprises (a) a kinematics sensor module including an accelerometer, a gyroscope, a magnetometer, or combinations thereof; and (b) a bidirectional wireless communication module configured for wirelessly synchronizing the sampling time instances of the kinematics sensor module with the sampling time instances of at least a second wearable apparatus including a second kinematics sensor module. | 05-01-2014 |
20150078140 | Wearable Apparatus - Disclosed embodiments include a multi-function wearable apparatus comprising (a) a sensor module including a plurality of low power solid state kinematics sensors,(b) a microprocessor module comprising a low power microcontroller configured for device control, device status, and device communication; (c) a data storage module comprising a solid state local storage medium, said data storage module configured for sampling and storage of kinematics data; (d) a wireless communication module comprising a low power bidirectional transceiver wherein said wireless communication module is configured for communicating and synchronizing sampling time instances of said sensor module with signals from a second apparatus; and (e) a power module comprising a battery and an energy charging regulator. According to one embodiment, the wearable apparatus is a watch capable of quantifying human movement. | 03-19-2015 |