Apparatus and methods for acoustic diagnosis
First Claim
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1. A diagnostic device for receiving and analyzing acoustic energy emitted by blood flow in a coronary artery, the device comprising:
- one or more sensors, each sensor configured to produce a signal in response to acoustic energy received by the sensor;
a measurement module with a housing, the module being configured to;
(i) receive the signal from each of the one or more sensors; and
(ii) produce one or more digital signals in response to the received signals;
an analysis module with a housing, the module being configured to;
(i) receive the one or more digital signals from the measurement module;
(ii) perform a conditioning procedure on the one or more digital signals; and
(iii) perform a wavelet transform on one or more portions of the one or more conditioned digital signals so as to produce a wavelet diagnostic parameter that is indicative of an abnormality in the coronary artery;
a validation module configured to determine a validation parameter indicative of whether at least a portion of a signal from at least one of the sensors is emitted by a heartbeat, the validation module further configured to communicate with or be located within the measurement module or the analysis module; and
an output module configured to receive the wavelet diagnostic parameter from the analysis module and to communicate information indicative of a severity of the abnormality.
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Abstract
The apparatus and methods disclosed herein relate to diagnosis of disease through the detection of signals from portions of a body. The signals may be acoustic signals, which can be used to diagnose the presence, severity and/or location of occlusions in arteries, such as the coronary arteries. The signals may be detected through noninvasive methods such as, for example, passive reception. Such methods can avoid many of the problems associated with invasive angiogram and angioplasty procedures. The apparatus and methods described herein are not limited to use for diagnosing occlusions in the coronary arteries, but can be used for a wide variety of biomedical diagnosis in human and nonhuman animals.
148 Citations
21 Claims
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1. A diagnostic device for receiving and analyzing acoustic energy emitted by blood flow in a coronary artery, the device comprising:
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one or more sensors, each sensor configured to produce a signal in response to acoustic energy received by the sensor;
a measurement module with a housing, the module being configured to;
(i) receive the signal from each of the one or more sensors; and
(ii) produce one or more digital signals in response to the received signals;
an analysis module with a housing, the module being configured to;
(i) receive the one or more digital signals from the measurement module;
(ii) perform a conditioning procedure on the one or more digital signals; and
(iii) perform a wavelet transform on one or more portions of the one or more conditioned digital signals so as to produce a wavelet diagnostic parameter that is indicative of an abnormality in the coronary artery;
a validation module configured to determine a validation parameter indicative of whether at least a portion of a signal from at least one of the sensors is emitted by a heartbeat, the validation module further configured to communicate with or be located within the measurement module or the analysis module; and
an output module configured to receive the wavelet diagnostic parameter from the analysis module and to communicate information indicative of a severity of the abnormality. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A diagnostic device comprising:
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one or more acoustic sensors, each acoustic sensor configured to be positioned on the outside of a living body and each sensor configured to produce a signal in response to acoustic energy in the range from about 300 Hertz to about 1500 Hertz emitted by blood flow in a coronary artery;
an anatomical sensor configured to provide information relating to a structure or an orientation of anatomical structures, the anatomical sensor being selected from the group consisting of an ultrasound device, a magnetic resonance imaging device, an X-ray device, an electrocardiogram device, an electroencephalogram device, and a computer aided tomography device;
a measurement module with a housing, the module being configured to;
(i) receive the signal from one or more of the acoustic sensors; and
(ii) produce one or more digital signals in response to the received signal;
an analysis module with a housing, the analysis module being configured to receive the one or more digital signals from the measurement module and perform a wavelet transform on one or more portions of the one or more digital signals so as to produce a wavelet diagnostic parameter that is indicative of an abnormality in the coronary artery, the analysis module being further configured to receive the information from the one or more anatomical sensors and to determine an anatomical correspondence between the abnormality in the coronary artery and the structure or the orientation of the anatomical structures; and
an output module configured to receive the wavelet diagnostic parameter and the diagnostic correspondence from the analysis module and to communicate information indicative of a severity of the abnormality and its anatomical correspondence to the anatomical structures. - View Dependent Claims (16, 17, 18)
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19. A diagnostic device comprising:
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one or more acoustic sensors, each acoustic sensor configured to be positioned on the outside of a living body and each sensor configured to produce a signal in response to acoustic energy emitted by blood flow in a coronary artery;
a heartbeat sensor configured to produce a heartbeat signal indicative of a heartbeat;
a measurement module with a housing, the module being configured to;
(i) receive the signals from each of the one or more acoustic sensors and the heartbeat sensor;
(ii) produce one or more digital signals in response to the received signals from the one or more acoustic sensors; and
(iii) produce a digital heartbeat signal in response to the received heartbeat signal from the heartbeat sensor;
an analysis module with a housing, the module being configured to;
(i) receive the one or more digital signals and the digital heartbeat signals from the measurement module, (ii) determine one or more portions of one or more heartbeats from the digital heartbeat signal, and (iii) perform a wavelet transform on portions of the one or more digital signals that correspond to the one or more portions of the one or more heartbeats; and
(iv) produce a wavelet diagnostic parameter that is indicative of an abnormality in the coronary artery; and
an output module configured to receive the wavelet diagnostic parameter from the analysis module and to communicate information indicative of a severity of the abnormality. - View Dependent Claims (20, 21)
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Specification
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Current AssigneeMedScanSonics, Inc.
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Original AssigneeMedScanSonics, Inc.
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InventorsShertukde, Hemchandra, Beckmann, Peter, Shertukde, Rekha, McLaughlin, Raymond, Menon, Abhilash
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Application NumberUS11/333,791Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current600/437CPC Class CodesA61B 5/02007 Evaluating blood vessel con...A61B 5/7203 for noise prevention, reduc...A61B 5/7225 Details of analog processin...A61B 5/726 using Wavelet transformsA61B 7/04 Electric stethoscopes micro...A61B 8/56 Details of data transmissio...A61B 8/565 involving data transmission...
