Surgery – Diagnostic testing – Respiratory
Reexamination Certificate
2002-02-21
2004-09-14
Nasser, Robert L. (Department: 3736)
Surgery
Diagnostic testing
Respiratory
Reexamination Certificate
active
06790183
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates generally to non-invasive diagnostic systems and techniques, and more specifically, to a method and apparatus for diagnosis based upon the review and analysis of body sounds.
2. Background Information
Since the time of its invention in the early 1800's, the stethoscope has been used routinely by physicians to amplify sounds in the human body. The physician typically places the chest piece of the stethoscope against the patient's skin and listens through the stethoscope's earpieces. By monitoring a patient's breathing, a physician may detect the existence of adventitious (i.e., abnormal and/or unexpected) lung sounds. The identification and classification of adventitious lung sounds, moreover, often provides substantial information about pulmonary and associated abnormalities.
Adventitious lung sounds may be classified into two major types: crackles (or rales), which are discontinuous (i.e., interrupted) sounds, and wheezes and rhonchi, which are continuous. Crackles may be further classified as coarse, medium or fine, depending on their frequency, characteristics and amplitude. Wheezes may be similarly classified as sibilant or sonorous. An experienced and knowledgeable physician, moreover, may be able to diagnose certain pulmonary diseases, such as pneumonia, asthma, etc., simply by detecting, identifying and noting the location of particular adventitious lung sounds.
Lung sounds may also be recorded and displayed to assist in the detection and identification of adventitious sounds. For example, U.S. Pat. No. 3,990,435, entitled BREATH SOUND DIAGNOSTIC APPARATUS to Raymond L. H. Murphy, Jr., the inventor herein, discloses a system for providing a time-expanded visual display of lung sounds. That is, the time scale of the tracing or waveform detected by a microphone, normally plotted at approximately 25-50 mm/sec. by standard medical strip charts, is expanded to approximately 800 mm/sec. Expanding the time scale of the waveform significantly improves the physician's ability to detect and identify adventitious sounds.
Devices to analyze recorded lung sounds are also known. For example, U.S. Pat. No. 5,010,889, entitled INTELLIGENT STETHOSCOPE to Bredesen et al., discloses a stethoscope capable of digitizing and storing body sounds, including heart and lung sounds, in a memory structure configured to store up to six different sounds. The stethoscope includes a single chest piece with a microphone, which may be moved to one of six locations around the patient's chest. The stethoscope further includes a liquid crystal display (LCD) panel for displaying the waveform of a recorded sound.
Using waveform signature analysis, each of the six recorded waveforms is examined to determine the presence of high-pitch sounds which may correspond to fine crackles or low-pitch sounds which may correspond to coarse crackles. The presence or absence of these sounds is then formed into an array that may be compared with pre-recorded arrays corresponding to known conditions, e.g., normal lung sounds, pneumonia, etc. If a match is found between the recorded waveforms and one of the pre-recorded arrays, a diagnosis may be displayed on the LCD panel of the stethoscope.
Although Bredesen's intelligent stethoscope represents an improvement in diagnostic tools, especially for physicians lacking extensive experience in detecting and identifying adventitious lung sounds, it nonetheless has several disadvantages. First, the intelligent stethoscope has only a single microphone, so that obtaining recordings at multiple locations is time-consuming. A single microphone also makes it impossible to record a given sound (e.g., a particular inspiration or expiration) from more than one point on the chest. Second, the small LCD panel is capable of displaying only a single waveform in one predefined format and is provided simply to determine whether valid data has been obtained. Due to these limitations, the intelligent stethoscope is not that likely to provide accurate diagnoses.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide an improved method and apparatus for facilitating the diagnosis of certain diseases based upon recording, review and analysis of body sounds.
It is a further object of the present invention to provide an improved method and apparatus that provides the diagnostician with a richer, more fully coordinated set of data for rapidly and accurately detecting body sound abnormalities.
Another object of the present invention is to provide a system configured to generate graphical displays of detected abnormal body sounds to facilitate diagnosis.
A still further object of the present invention is to provide a system for automatically providing an accurate diagnosis based upon an analysis of recorded body sounds.
Briefly, the invention relates to a system for recording, displaying and analyzing body sounds to facilitate the diagnosis of various diseases. The system includes a plurality of transducers, such as microphones, that may be placed at preselected sites around a patient's chest. The transducers detect the sound or vibration of the body at these sites. The system also includes signal processing circuitry for conditioning and converting analog signals generated by the transducers into digital data. Additionally, the system includes a computer station coupled to the signal processing and digitizing circuitry. The computer station includes a processor, input/output circuitry, a data storage device, at least one input device, such as a keyboard or a mouse, and a graphical user interface. The system may further include a printer. Executing on the computer station is a first application program that collects and organizes the data for display on the graphical user interface and/or for printing.
More specifically, a plurality of transducers are preferably utilized simultaneously to obtain sound information from the patient. In response to the patient's inspiration and expiration, each transducer generates analog signals that are conditioned and digitized by the signal processing circuitry and stored by the computer station at the data storage device. The first application program organizes the received data from all sites for simultaneous display on the graphical user interface and/or printing in multiple time scales preferably in a vertical stack arrangement, such that all of the information may be reviewed concurrently by an attending physician. The first application program may also display the data in frequency versus time format. In addition, by comparing the displayed or printed combinational data with predefined criteria or guidelines, an accurate diagnosis may be reached.
In a further embodiment of the present invention, a second application program, also executing on the computer station, analyzes the data recorded by the transducers. In particular, the second application program preferably includes means for identifying and counting the number and time of occurrence of adventitious sounds, such as wheezes, rhonchi and crackles, and categorizing the identified crackles as fine, medium or coarse. The second application program may also include means for performing other quantitative analysis, such as the ratio of duration of inspiration to expiration and statistical analysis of the intensity of the recorded sounds. This information may then be provided to the attending physician in a variety of ways. For example, it may be displayed in tabular format or graphically in relation to the point on the patient's chest at which the abnormal sound occurred.
A third application for generating a possible diagnosis may also be included. The third application may be a data analysis program, such as a neural network module or a statistical analysis module using multiple logistic regression models, that interoperates with a database of pre-classified lung sounds. Specifically, the database preferably includes multiple data sets for normal lungs sounds
Cesari and McKenna LLP
Nasser Robert L.
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