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다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0209265 (2008-09-12) |
등록번호 | US-8460189 (2013-06-11) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 79 인용 특허 : 375 |
An adherent device comprises an adhesive patch with at least two electrodes and an accelerometer. The accelerometer can be used to determine an orientation of the at least two measurement electrodes on a patient. By determining the orientation of the electrodes of the patch on the patient, physiolog
An adherent device comprises an adhesive patch with at least two electrodes and an accelerometer. The accelerometer can be used to determine an orientation of the at least two measurement electrodes on a patient. By determining the orientation of the electrodes of the patch on the patient, physiologic measurements with the at least two electrodes can be adjusted and/or corrected in response to the orientation of the patch on the patient. The adherent patch and/or electrodes can be replaced with a second adherent patch and/or electrodes, and the orientation of the second adherent patch and/or electrodes can be determined with the accelerometer or a second accelerometer. The determined orientation of the second patch and/or electrodes on the patient can be used to correct measurements made with the second adherent patch and/or electrodes.
1. A method of monitoring an ambulatory patient with a monitoring system, the method comprising: adhering an adherent device to a skin of the patient, the adherent device comprising an accelerometer and at least two physiological measurement electrodes, the accelerometer comprising three orthogonal
1. A method of monitoring an ambulatory patient with a monitoring system, the method comprising: adhering an adherent device to a skin of the patient, the adherent device comprising an accelerometer and at least two physiological measurement electrodes, the accelerometer comprising three orthogonal measurement vectors in a three-dimensional coordinate system XYZ and wherein each of the three orthogonal measurement vectors extends along one of the coordinate system's axes, and the at least two physiological measurement electrodes configured for measuring physiological parameters, the at least two electrodes being separated by a distance to define an electrode physiological measurement axis;measuring an accelerometer signal when the device is adhered to the patient standing or sitting upright wherein the accelerometer's axes are aligned/oriented with respect to the axes of the patient, and wherein the at least one accelerometer measurement axis is oriented with respect to the electrode measurement axis in a predetermined configuration;determining a vertical reference axis of the patient that extends vertically along the patient when the patient is standing or sitting upright, the vertical reference axis of the patient being transverse to the at least one accelerometer measurement axis;measuring an orientation of the electrode physiological measurement axis on the patient, the orientation corresponding to an inclination angle between the vertical reference axis and the electrode physiological measurement axis; andmeasuring physiological parameters of the patient with the at least two measurement electrodes after determining the orientation of the electrode physiological measurement axis and modifying the physiological parameter measurements with the system based on the measured orientation so as to minimize errors in the physiological parameter measurements associated with the inclination angle between the electrode measurement axis and the vertical reference axis of the patient. 2. The method of claim 1 wherein the at least one measurement axis sensitive to gravity is aligned with the electrode measurement axis. 3. The method of claim 1 wherein adhering the adherent device to the skin of the patient comprises adhering the device such that the at least one accelerometer measurement axis extends substantially horizontally on the patient when the device is adhered to the patient. 4. The method of claim 1 wherein the accelerometer signal corresponds to at least one accelerometer measurement vector in a direction along the at least one accelerometer measurement axis. 5. The method of claim 1 wherein the at least two electrodes comprise a positive electrode and a negative electrode that define an orientation of an electrode measurement vector along the electrode measurement axis. 6. The method of claim 5 wherein the accelerometer signal corresponds to at least one accelerometer measurement vector that extends away from the electrode measurement axis and wherein the at least one accelerometer measurement vector is sensitive to gravity such that the accelerometer signal indicates when the patch adhered to the patient is upside down. 7. The method of claim 1 wherein the adherent device comprises an adherent surface to adhere to the skin of the patient and wherein the electrode measurement axis extends along the adherent surface. 8. The method of claim 1 further comprising measuring an electrocardiogram signal measured with the at least two measurement electrodes and wherein modifying the physiological parameter measurements comprises modifying the electrocardiogram signal for the duration the adherent device is adhered to the skin of the patient. 9. The method of claim 8 wherein modifying the physiological parameter measurements comprises rotating the electrocardiogram vector with the system in response to the determination of the orientation of the electrode measurement axis in relation to gravity based on the accelerometer signal to obtain a standard electrocardiogram vector. 10. The method of claim 9 wherein an amplitude and a direction of features of the electrocardiogram signal are modified to approximate a standard electrocardiogram vector. 11. A device for monitoring a patient, the device comprising: a support with an adhesive to adhere to a skin of the patient;an accelerometer to generate an accelerometer signal supported with the support;at least two physiological measurement electrodes supported with the support, the at least two measurement electrodes separated by a distance to define an electrode measurement axis;circuitry to measure the accelerometer signal when the device is adhered to the patient; anda processor comprising a tangible medium, the tangible medium comprising computer readable memory configured to determine an orientation of the electrode measurement axis of the device adhered to the patient by determining an orientation of the electrode measurement axis on the patient, the orientation corresponding to an inclination angle measured between the electrode physiological measurement axis and a vertical reference axis of the patient, the vertical reference axis being defined by the processor based on the accelerometer signal when the adherent patch is adhered such that the accelerometer axes are aligned or oriented with respect to the axes of the patient, and wherein the vertical reference axis of the adherent device extends vertically along the patient when the adherent device is adhered to a torso of the patient when sitting upright or standing;wherein the processor is further configured to measure physiological parameters of the patient with the at least two physiological measurement electrodes after determining the orientation of the electrode physiological measurement axis on the patient, andwherein the processor is further configured to modify the measured physiological parameters based on the orientation of the electrode measurement axis on the patient to minimize errors in the physiological measurements associated with the inclination angle between the electrode measurement axis and the vertical reference axis of the patient. 12. The device of claim 11 wherein the support comprises an adhesive patch with an adhesive to adhere the support to the patient. 13. The device of claim 12 wherein the adhesive patch comprises a breathable tape with adhesive to adhere the support to the patient. 14. The device of claim 11 wherein the accelerometer comprises at least one measurement axis sensitive to gravity aligned with the electrode measurement axis. 15. The device of claim 11 wherein the accelerometer comprises at least one accelerometer measurement axis sensitive to gravity and wherein the accelerometer is positioned and supported with the support such that the measurement axis extends substantially horizontally on the patient when the support is adhered to the patient. 16. The device of claim 11 wherein the accelerometer signal corresponds to at least one accelerometer measurement vector in a direction along the at least one accelerometer measurement axis. 17. The device of claim 11 wherein the accelerometer comprises at least one accelerometer measurement axis sensitive to gravity and wherein the at least one accelerometer measurement axis is oriented with respect to the electrode measurement axis in a predetermined configuration. 18. The device of claim 11 wherein the at least two electrodes comprise a positive electrode and a negative electrode that define an orientation of an electrode measurement vector along the electrode measurement axis. 19. The device of claim 18 wherein the accelerometer signal corresponds to at least one measurement vector that extends away from the electrode measurement axis such that the accelerometer signal indicates when the patch adhered to the patient is upside down relative to the vertical axis of the patient when the patient stands. 20. The device of claim 11 wherein the adherent device comprises an adherent surface to adhere to the skin of the patient and wherein the electrode measurement axis extends along the adherent surface. 21. The device of claim 11 wherein the accelerometer comprises three axes and wherein a first axis and a second axis of the three axes extend along the adherent surface and wherein a third axis of the three axes extends away from the adherent surface. 22. The device of claim 11 wherein the accelerometer signal corresponds to three orthogonal measurement vectors and wherein each of the three orthogonal measurement vectors extends along one of the accelerometer measurement axes. 23. The device of claim 11 further comprising: measurement circuitry coupled to the at least two measurement electrodes to measure an electrocardiogram signal;a processor coupled to the measurement circuitry and comprising a tangible medium configured to modify the electrocardiogram signal in response to the accelerometer signal. 24. The device of claim 23 wherein the processor is configured to modify the electrocardiogram signal by rotating an electrocardiogram vector of the signal in response to the determination of the orientation of the electrode measurement axis on the patient to obtain a standard electrocardiogram vector. 25. The device of claim 23 wherein the processor is further configured to modify the electrocardiogram signal by an amplitude and a direction of features of the electrocardiogram signal to approximate a standard electrocardiogram vector.
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