Cardivascular support control system
First Claim
1. A method for assisting cardiac function during a cardiac cycle of a patient having a cardiac assist device with an inflatable chamber operatively disposed with respect to an aorta of the patient comprising the steps of:
- cyclically inflating and deflating the inflatable chamber with a pressurized gaseous fluid synchronously with a heart beat of the patient based on a first set of programmable patient parameters relating to heart function;
periodically conducting a patient monitoring procedure, wherein the procedure includes the steps of;
partially deflating the inflatable chamber to a predetermined volume of pressurized gaseous fluid;
isolating the inflatable chamber when the inflatable chamber is in a partially deflated, flaccid state and allowing the inflatable chamber to settle so that the inflatable chamber acts as a transducer;
measuring a pressure waveform over time in the inflatable chamber with an external pressure sensor, wherein said pressure in the inflatable chamber corresponds to current blood pressure of said patient when the inflatable chamber is in the partially deflated, flaccid state;
monitoring pressure in the inflatable chamber for at least a partial cardiac cycle;
storing said monitored pressure values in memory of a controller;
updating patient parameters based on said stored pressure values; and
thereafter, cyclically inflating and deflating the inflatable chamber with pressurized gaseous fluid according to the updated patient parameters until modified by another patient monitoring procedure.
1 Assignment
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Accused Products
Abstract
An apparatus for assisting cardiac function of a patient includes an inflatable chamber operably positionable with respect to an aorta of the patient, a percutaneous access device implantable with respect to a hypogastric region of the patient and connectible in fluid communication with the inflatable chamber, and a drive unit connectible through the percutaneous access device for selectively inflating and deflating the inflatable chamber in accordance with a control program stored in memory. The control program controls the drive unit in response to a periodically scheduled patient monitoring routine for measuring values of the physiology of the patient. The control program uses measured values as modified in accordance with the control program and physician programmable parameters for assisting cardiac function of the patient. The program includes the steps of automatically controlling the drive unit in response to a periodically scheduled patient monitoring routine for measuring values of physiology of the patient, and using measured values as modified in accordance with physician programmable parameters for assisting cardiac function of the patient. A software program is connectible in electronic communication with the control program for adjusting settings of the drive unit. The software program is capable of one or more of the following functions: retrieving current values of physician programmable parameters, selectively retrieving a history of the drive unit operation including error detection records, displaying a continuous ECG, and/or displaying a single-beat sample of aortic pressure waveform obtained in real time from the patient.
126 Citations
38 Claims
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1. A method for assisting cardiac function during a cardiac cycle of a patient having a cardiac assist device with an inflatable chamber operatively disposed with respect to an aorta of the patient comprising the steps of:
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cyclically inflating and deflating the inflatable chamber with a pressurized gaseous fluid synchronously with a heart beat of the patient based on a first set of programmable patient parameters relating to heart function;
periodically conducting a patient monitoring procedure, wherein the procedure includes the steps of;
partially deflating the inflatable chamber to a predetermined volume of pressurized gaseous fluid;
isolating the inflatable chamber when the inflatable chamber is in a partially deflated, flaccid state and allowing the inflatable chamber to settle so that the inflatable chamber acts as a transducer;
measuring a pressure waveform over time in the inflatable chamber with an external pressure sensor, wherein said pressure in the inflatable chamber corresponds to current blood pressure of said patient when the inflatable chamber is in the partially deflated, flaccid state;
monitoring pressure in the inflatable chamber for at least a partial cardiac cycle;
storing said monitored pressure values in memory of a controller;
updating patient parameters based on said stored pressure values; and
thereafter, cyclically inflating and deflating the inflatable chamber with pressurized gaseous fluid according to the updated patient parameters until modified by another patient monitoring procedure. - View Dependent Claims (2, 3, 4, 5, 6)
expelling pressurized fluid from the inflatable chamber through a deflation valve;
measuring a differential pressure across the deflation valve; and
integrating the differential pressure with respect to a time interval corresponding to an amount of time the deflation valve is in an open position to determine a volume of fluid expelled from the inflatable chamber.
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3. The method of claim 1 wherein the conducting step is performed at predetermined time intervals.
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4. The method of claim 1 further comprising the steps of:
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monitoring a heart beat rate of the patient; and
performing the conducting step immediately, if a monitored change in heart beat rate of the patient exceeds a predetermined percentage.
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5. The method of claim 1 further comprising the step of:
selectively scheduling the patient monitoring procedure for execution at a time interval ranging from three minutes to twenty minutes, inclusive.
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6. The method of claim 1 further comprising the step of:
selectively scheduling a patient monitoring procedure, if a heart rate of the patient changes by more than a preselected percentage value of an average of a predetermined number of previously measured heart rate values, the preselected percentage value selected in a range between 10% to 80%, inclusive.
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7. A program stored in memory for assisting cardiac function during a cardiac cycle of a patient having a cardiac assist device with drive unit connectible to an inflatable chamber operatively disposed with respect to an aorta of the patient comprising the steps of:
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automatically controlling the drive unit in response to a periodically scheduled patient monitoring routine for measuring values of physiology of the patient;
using measured values as modified in accordance with physician programmable parameters for assisting cardiac function of the patient;
interrupting counterpulsation for at least a partial cardiac cycle to perform the periodically scheduled patient monitoring routine in order to obtain an aortic pressure waveform through a partially deflated, flaccid, inflatable chamber; and
measuring a Q-S2 interval by the control program from the aortic pressure waveform obtained. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15, 16)
providing a patient parameter table having a plurality of physician programmable parameters for modifying cardiac function assistance provided to the patient.
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9. The program of claim 7 wherein each of the physician programmable parameters is restricted to a value greater than or equal to a predefined minimum value and less than or equal to a predefined maximum value.
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10. The program of claim 7 wherein each of the physician programmable parameters has a predefined default value.
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11. The program of claim 7 further comprising the step of:
adjusting settings of the drive unit with a software program connectible in electronic communication with the drive unit.
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12. The program of claim 11 wherein the software program retrieves current values of physician programmable parameters.
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13. The program of claim 11 wherein the software program selectively retrieves a history of the drive unit operation including error detection records.
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14. The program of claim 11 wherein the software program displays a continuous ECG.
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15. The program of claim 11 wherein the software program displays a single-beat sample of aortic pressure waveform obtained in real time from the patient.
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16. The program of claim 7 further comprising the step of:
using the measured Q-S2 interval to adjust inflation timing of the blood pump, as modified in accordance with the physician programmable parameters, in response to changes in the heart rate and hemodynamic state of the patient.
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17. A method for assisting cardiac function during a cardiac cycle of a patient having a cardiac assist device with an inflatable chamber operably disposed with respect to an aorta of the patient comprising the steps of:
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partially deflating the inflatable chamber to a predetermined volume of fluid delivered from a source of pressurized fluid, wherein the inflatable chamber is defined at least in part by a flexible membrane and the flexible membrane is flaccid when partially deflated to said predetermined volume of fluid;
isolating the inflatable chamber when the flexible membrane is in a partially deflated, flaccid state; and
measuring a pressure waveform over time in the inflatable chamber with a pressure sensor located external with respect to the patient, wherein pressure in the inflatable chamber corresponds to blood pressure of the patient when the flexible membrane is in the partially deflated, flaccid state. - View Dependent Claims (18, 19, 20, 21)
storing the measured pressure wave form over time of the inflatable chamber for at least a partial cardiac cycle.
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19. The method of claim 17 wherein the step of partially deflating the inflatable chamber further includes the step of:
measuring a differential pressure across an deflation valve disposed between the inflatable chamber and an exhaust port.
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20. The method of claim 19 wherein partially deflating the inflatable chamber further includes the steps of:
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accumulating the volume expelled during each sampling time interval; and
comparing accumulated volume to a predetermined volume value.
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21. The method of claim 20 wherein partially deflating the inflatable chamber further includes the step of:
closing a deflation valve when the accumulated volume removed from the inflatable chamber is at least equal to said predetermined volume value.
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22. An apparatus for assisting cardiac function during a cardiac cycle of a patient having a cardiac assist device with an inflatable chamber operatively disposed with respect to an aorta of the patient comprising:
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means for partially deflating the inflatable chamber to a predetermined volume of fluid delivered from a source of pressurized fluid, wherein the inflatable chamber is defined at least in part by a flexible membrane and the flexible membrane is flaccid when partially deflated to said predetermined volume of fluid;
means for isolating the inflatable chamber when the flexible membrane is in a partially deflated, flaccid state; and
means for measuring a pressure waveform over time in the inflatable chamber with a pressure sensor located external with respect to the patient, wherein pressure in the inflatable chamber corresponds to blood pressure of the patient when the flexible membrane is in the partially deflated, flaccid state. - View Dependent Claims (23, 24, 25, 26, 27, 28)
means for storing the measured pressure wave form over time of the inflatable chamber for at least a partial cardiac cycle.
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24. The apparatus of claim 22 further comprising:
means for measuring a differential pressure across an deflation valve disposed between the inflatable chamber and an exhaust port.
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25. The apparatus of claim 24 wherein said means for measuring differential pressure across the deflation valve further comprises:
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a first pressure sensor located upstream of the deflation valve; and
a second pressure sensor located downstream of the deflation valve.
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26. The apparatus of claim 22 further comprising:
a pressure reservoir for containment of a quantity of gas under pressure.
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27. The apparatus of claim 22 further comprising:
drive means for cyclically controlling an inflation/deflation cycle of the inflatable chamber in response to patient parameters relating to heart function, said drive means having at least one inflation valve, at least one deflation valve, and control means for selectively opening and closing said valves.
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28. The apparatus of claim 23 further comprising:
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means for sensing a pressure waveform over time during the cardiac cycle of the patient comprising the steps of;
partially deflating the inflatable chamber to a predetermined volume of pressurized fluid, wherein the inflatable chamber is defined at least in part by a flexible membrane and the flexible membrane is flaccid when partially deflated with said predetermined volume of fluid;
isolating the inflatable chamber when the flexible membrane is in a partially deflated, flaccid state; and
measuring a pressure waveform over time in the inflatable chamber with a pressure sensor located external with respect to the patient, wherein pressure in the inflatable chamber corresponds to blood pressure of the patient when the flexible membrane is in the partially deflated, flaccid state.
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29. An apparatus for assisting cardiac function of a patient comprising:
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an inflatable chamber operably positionable with respect to an aorta of the patient;
a percutaneous access device implantable with respect to a hypogastric region of the patient and connectible in fluid communication with the inflatable chamber; and
a drive unit connectible through the percutaneous access device for selectively inflating and deflating the inflatable chamber in accordance with a control program stored in memory, the control program for controlling the drive unit in response to a periodically scheduled patient monitoring routine for measuring values of the physiology of the patient, and the control program using measured values as modified in accordance with the control program and physician programmable parameters for assisting cardiac function of the patient, wherein the control program interrupts counterpulsation for at least a partial cardiac cycle to perform a periodically scheduled patient monitoring routine in order to obtain an aortic pressure waveform through a partially deflated, flaccid, inflatable chamber, and a Q-S2 interval is measured by the control program from the aortic pressure waveform obtained. - View Dependent Claims (30, 31, 32, 33, 34, 35, 36, 37, 38)
a patient parameter table having physician programmable parameters for modifying cardiac function assistance provided to the patient.
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31. The apparatus of claim 29 wherein each of the physician programmable parameters is restricted to a value greater than or equal to a predefined minimum value and less than or equal to a predefined maximum value.
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32. The apparatus of claim 29 wherein each of the physician programmable parameters has a predefined default value.
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33. The apparatus of claim 29 further comprising:
a software program connectible in electronic communication with the control program for adjusting settings of the drive unit.
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34. The apparatus of claim 33 wherein the software program retrieves current values of physician programmable parameters.
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35. The apparatus of claim 33 wherein the software program selectively retrieves a history of the drive unit operation including error detection records.
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36. The apparatus of claim 33 wherein the software program displays a continuous ECG.
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37. The apparatus of claim 33 wherein the software program displays a single-beat sample of aortic pressure waveform obtained in real time from the patient.
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38. The apparatus of claim 29 wherein the control program uses the interval to adjust inflation timing of the blood pump, as modified in accordance with the physician programmable parameters, in response to changes in the heart rate and hemodynamic state of the patient.
Specification