Method and apparatus for using heart sounds to determine the presence of a pulse
September 30, 2019. Estimated Expiration Date is calculated based on simple USPTO term provisions. It does not account for terminal disclaimers, term adjustments, failure to pay maintenance fees, or other factors which might affect the term of a patent.Patent ReferencesMethod and apparatus for detecting heart sounds Apparatus for monitoring cardiac activity via ECG and heart sound signals Method and apparatus for correcting abnormal cardiac activity by low energy shocks Electronic stethoscope system and method Apparatus for monitoring degree of mental tension Dynamic spectral phonocardiograph Measurement of the approximate elapsed time of ventricular fibrillation and monitoring the response of the heart to therapy Cardiac therapy system System for simultaneously producing and synchronizing spectral patterns of heart sounds and an ECG signal Automatic fibrillation detector and defibrillator apparatus and method InventorsAssigneeApplicationNo. 410198 filed on 09/30/1999US Classes:600/528, Detecting heart sound600/483, Simultaneously detecting cardiovascular condition and diverse body condition600/509, Detecting heartbeat electric signal607/6Sensing body condition or signal other than electrocardiographic signalExaminersPrimary: Jastrzab, Jeffrey R.Assistant: Oropeza, Frances P. Attorney, Agent or FirmForeign Patent References
International ClassA61B 005/02AbstractA method and apparatus determines the presence of a cardiac pulse in a patient by evaluating a physiological signal in the patient, preferably for the presence of characteristic heart sounds. The presence of a heart sound in a patient is determined by analyzing phonocardiogram (PCG) data obtained from the patient. Analyzing the PCG data may include evaluating temporal energy in the PCG data or evaluating spectral energy in the PCG data. Evaluating temporal energy in the PCG data may include estimating a first and second energy in the PCG data and comparing the first and second energy to determine a relative change in energy between them. Evaluating spectral energy in the PCG data may include calculating an energy spectrum of the PCG data and evaluating either the energy value or the frequency of a peak energy in the energy spectrum. The presence of a heart sound may also be determined by combining an evaluation of temporal energy with an evaluation of spectral energy in the PCG data. Electrocardiogram data obtained from the patient may further be used in connection with the PCG data to determine the presence of a cardiac pulse in the patient. An automated external defibrillator processing the physiological signal sensed in the patient automatically reports to an operator of the defibrillator whether a cardiac pulse is determined to be present.Other References
Field of SearchSimultaneously detecting cardiovascular condition and diverse body conditionElectric signal generated by sensing means responsive to pulse or Korotkoff sounds Heart Detecting heartbeat electric signal Detecting heartbeat electric signal and diverse cardiovascular characteristic Sound generated by successive heartbeat electric signals to represent heart action Variation in duration of segment of PQRST signal waveform (e.g., QRS complex, etc.) detected Vertical variation of PQRST signal waveform (e.g., amplitude of QRS complex, etc.) detected Detecting heart sound Detecting sound generated within body Combined with nonelectrical therapy Cardioverting/defibrillating Sensing body condition or signal other than electrocardiographic signal Controlling or indicating stimulation level Ventricular electrocardiographic intervals (e.g., Q-T interval) Gradient or slope of electrocardiographic waves Energy source external of generator or body | |
