Myocardial performance assessment
First Claim
Patent Images
1. A method of cardiac pacing, the method comprising:
- detecting a first heart sound and a second heart sound;
determining a QT interval; and
configuring an implantable medical device as a function of the QT interval and of the first and second heart sounds by calculating a systolic index as a function of the QT interval and of the first and second heart sounds and configuring the implantable medical device as a function of the systolic index.
1 Assignment
0 Petitions
Accused Products
Abstract
Myocardial performance is assessed using a combination of electrical and mechanical criteria. More specifically, this assessment may be based on a QT interval based on electrogram (EGM) readings and on first and second heart sounds. The timing relationships between the QT interval and the first and second heart sounds can be used to evaluate certain systolic, diastolic, and systolic/diastolic parameters relating to myocardial performance. In addition, these parameters may be used to automatically drive therapies. For example, myocardial performance parameters obtained from the QT interval and from the timing of the first and second heart sounds may be used to optimize the AV delay and to optimize multisite pacing.
-
Citations
50 Claims
-
1. A method of cardiac pacing, the method comprising:
-
detecting a first heart sound and a second heart sound;
determining a QT interval; and
configuring an implantable medical device as a function of the QT interval and of the first and second heart sounds by calculating a systolic index as a function of the QT interval and of the first and second heart sounds and configuring the implantable medical device as a function of the systolic index. - View Dependent Claims (2, 3, 4, 5, 6)
calculating at least one of a systolic time, a contraction time, and an electrical systolic time as a function of the QT interval and of the first and second heart sounds; and
calculating the systolic index as a function of at least one of the systolic time, the contraction time, and the electrical systolic time.
-
-
3. The method of claim 1, wherein configuring the implantable medical device comprises selecting at least one of a pacing rate, an atrioventricular (AV) delay, and a left ventricular-right ventricular (LV-RV) delay.
-
4. The method of claim 1, further comprising detecting the first and second heart sounds using a sensor external to a patient.
-
5. The method of claim 1, further comprising detecting the first and second heart sounds using a sensor implanted in a patient.
-
6. The method of claim 5, wherein the sensor is integral with the implantable medical device.
-
7. A method of cardiac pacing, the method comprising:
-
detecting a first heart sound and a second heart sound;
determining a QT interval; and
configuring an implantable medical device as a function of the QT interval and of the first and second heart sounds by calculating a diastolic index as a function of the QT interval and of the first and second heart sounds; and
configuring the implantable medical device as a function of the diastolic index. - View Dependent Claims (8)
calculating at least one of a relaxation time, a diastolic time, and an electrical diastolic time as a function of the QT interval and of the first and second heart sounds; and
calculating the diastolic index as a function of at least one of the relaxation time, the diastolic time, and the electrical diastolic time.
-
-
9. A method of cardiac pacing, the method comprising:
-
detecting a first heart sound and a second heart sound;
determining a QT interval; and
configuring an implantable medical device as a function of the QT interval and of the first and second heart sounds by calculating a systolic/diastolic index as a function of the QT interval and of the first and second heart sounds; and
configuring the implantable medical device as a function of the systolic/diastolic index. - View Dependent Claims (10)
calculating at least one of a contraction time, a relaxation time, a systolic interval, a diastolic interval, and an electrical systolic interval as a function of the QT interval and of the first and second heart sounds; and
calculating the systolic/diastolic index as a function of at least one of the contraction time, the relaxation time, the systolic interval, the diastolic interval, and the electrical systolic interval.
-
-
11. An implantable medical device comprising:
-
a sensing arrangement to sense electrical cardiac signals;
a pulse generator to deliver stimulation pulses to a heart; and
a control arrangement, responsive to the sensing arrangement, to determine QT interval as a function of the electrical cardiac signals and to configure the pulse generator as a function of the QT interval and of first and second heart sounds, wherein the control arrangement is configured to calculate a systolic index as a function of the QT interval and of the first and second heart sounds and configure the pulse generator as a function of the systolic index. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18)
calculate at least one of a systolic time, a contraction time, and an electrical systolic time as a function of the QT interval and of the first and second heart sounds; and
calculate the systolic index as a function of at least one of the systolic time, the contraction time, and the electrical systolic time.
-
-
13. The implantable medical device of claim 11, wherein the first and second heart sounds are detected using a sensor external to a patient.
-
14. The implantable medical device of claim 11, wherein the implantable medical device is a single-chamber cardiac pacemaker configured to operate in at least one of the group of modes consisting of AAI, AAIR, VVI, VVIR, VVI-ICD, and VVIR-ICD operational modes.
-
15. The implantable medical device of claim 11, wherein the implantable medical device is a dual-chamber cardiac pacemaker configured to operate in at least one of the group of modes consisting of AAI, AAIR, VVI, VVIR, DDD, DDDR, VVI-ICD, VVIR-ICD, DDD-ICD, and DDDR-ICD operational modes.
-
16. The implantable medical device of claim 11, further comprising an implanted acoustic sensing arrangement to detect the first and second heart sounds.
-
17. The implantable medical device of claim 16, wherein the implanted acoustic sensing arrangement is integral with the implantable medical device.
-
18. The implantable medical device of claim 16, wherein the implanted acoustic sensing arrangement comprises at least one of an accelerometer, a vibration sensor, and a piezoelectric sensor.
-
19. An implantable medical device comprising:
-
a sensing arrangement to sense electrical cardiac signals;
a pulse generator to deliver stimulation pulses to a heart; and
a control arrangement, responsive to the sensing arrangement, to determine a QT interval as a function of the electrical cardiac signals and to configure the pulse generator as a function of the QT interval and of first and second heart sounds, wherein the control arrangement is configured to;
calculate a diastolic index as a function of the QT interval and of the first and second heart sounds; and
configure the pulse generator as a function of the diastolic index. - View Dependent Claims (20)
calculate at least one of a relaxation time, a diastolic time, and an electrical diastolic time as a function of the QT interval and of the first and second heart sounds; and
calculate the diastolic index as a function of at east one of the relaxation time, the diastolic time, and the electrical diastolic time.
-
-
21. An implantable medical device comprising:
-
a sensing arrangement to sense electrical cardiac signals;
a pulse generator to deliver stimulation pulses to a heart; and
a control arrangement, responsive to the sensing arrangement, to determine a QT interval as a function of the electrical cardiac signals and to configure the pulse generator as a function of the QT interval and of first and second heart sounds, wherein the control arrangement is configured to;
calculate a systolic/diastolic index as a function of the QT interval and of the first and second heart sounds; and
configure the pulse generator as a function of the systolic/diastolic index. - View Dependent Claims (22)
calculate at least one of a contraction time, a relaxation time, a systolic interval, a diastolic interval, and an electrical systolic interval as a function of the QT interval and of the first and second heart sounds; and
calculate the systolic/diastolic index as a function of at least one of the contraction time, the relaxation time, the systolic interval, the diastolic interval, and the electrical systolic interval.
-
-
23. An implantable medical device comprising:
-
a sensing arrangement to sense electrical cardiac signals;
a pulse generator to deliver stimulation pulses to a heart; and
a control arrangement, responsive to the sensing arrangement, to determine a QT interval as a function of the electrical cardiac signals and to configure the pulse generator as a function of the QT interval and of first and second heart sounds, wherein the control arrangement is configured to select at least one of a pacing rate, an atrioventricular (AV) delay, and a left ventricular-right ventricular (LV-RV) pacing delay.
-
-
24. A medical device System comprising:
-
an electrical sensing arrangement to sense electrical cardiac signals;
an acoustic sensing arrangement to sense first and second heart sounds;
a pulse generator to deliver stimulation pulses to a heart;
at least one pacing lead, coupled to the pulse generator and configured to deliver the stimulation pulses to a chamber of the heart; and
a control arrangement, responsive to the sensing arrangement and configured to determine a QT interval as a function of the electrical cardiac signals and to cause the pulse generator to deliver the stimulation pulses at a rate determined as a function of the QT interval and of the first and second heart sound, wherein the control arrangement is configured to;
calculate a systolic index as a function of the QT interval and of the first and second heart sounds; and
configure the pulse generator as a function of the systolic index. - View Dependent Claims (25, 26, 27, 28, 29, 30, 31, 32, 33, 34)
calculate at least one of a systolic time, a contraction time, and an electrical systolic time as a function of the QT interval and of the first and second heart sounds; and
calculate the systolic index as a function of at least one of the systolic time, the contraction time, and the electrical systolic time.
-
-
26. The medical device system of claim 24, wherein the control arrangement is configured to select at least one of a pacing rate, an atrioventricular (AV) delay, and a left ventricular-right ventricular (LV-RV) pacing delay.
-
27. The medical device system of claim 24, wherein the acoustic sensing arrangement is coupled to a programming arrangement external to a patient.
-
28. The medical device system of claim 24, wherein the medical device system comprises a single-chamber cardiac pacemaker configured to operate in at least one of the group of modes consisting of AAI, AAIR, VVI, VVIR, VVI-ICD, and VVIR-ICD operational modes.
-
29. The medical device system of claim 24, wherein the medical device system comprises a dual-chamber cardiac pacemaker configured to operate in at least one of the group of modes consisting of AAI, AAIR, VVI, VVIR, DDD, DDDR, VVI-ICD, VVIR-ICD, DDD-ICD, and DDDR-ICD operational modes.
-
30. The medical device system of claim 24, further comprising a programming arrangement to program the control arrangement.
-
31. The medical device system of claim 30, wherein the programming arrangement comprises a microprocessor to provide an encoded signal to the control arrangement.
-
32. The medical device system of claim 24, wherein the acoustic sensing arrangement is implanted in a patient.
-
33. The medical device system of claim 32, wherein the acoustic sensing arrangement is integral with an implantable medical device.
-
34. The medical device system of claim 32, wherein the acoustic sensing arrangement comprises at least one of an accelerometer, a vibration sensor, and a piezoelectric sensor.
-
35. A medical device system comprising:
-
an electrical sensing arrangement to sense electrical cardiac signals;
an acoustic sensing arrangement to sense first and second heart sounds;
a pulse generator to deliver stimulation pulses to a heart;
at least one pacing lead, coupled to the pulse generator and configured to deliver the stimulation pulses to a chamber of the heart; and
a control arrangement, responsive to the sensing arrangement and configured to determine a QT interval as a function of the electrical cardiac signals and to cause the pulse generator to deliver the stimulation pulses at a rate determined as a function of the QT interval and of the first and second heart sounds, wherein the control arrangement is configured to;
calculate a diastolic index an a function of the QT interval and of the first and second heart sounds; and
configure the pulse generator as a function of the diastolic index. - View Dependent Claims (36)
calculate at least one of a relaxation time, a diastolic time, and an electrical diastolic time as a function of the QT interval and of the first and second heart sounds; and
calculate the diastolic index as a function of at least one of the relaxation time, the diastolic time, and the electrical diastolic time.
-
-
37. A medical device system comprising:
-
an electrical sensing arrangement to sense electrical cardiac signals;
an acoustic sensing arrangement to sense first and second heart sounds;
a pulse generator to deliver stimulation pulses to a heart;
at least one pacing lead, coupled, to the pulse generator and configured to deliver the stimulation pulses to a chamber of the heart; and
a control arrangement, responsive to the sensing arrangement and configured to determine a QT interval as a function of the electrical cardiac signals and to cause the pulse generator to deliver the stimulation pulses at a rate determined as a function of the QT interval and of the first and second heart sounds, wherein the control arrangement is configured to;
calculate a systolic/diastolic index as a function of the QT interval and of the first and second heart sounds; and
configure the pulse generator as a function of the systolic/diastolic index. - View Dependent Claims (38)
calculate at least one of a contraction time, a relaxation time, a systolic interval, a diastolic interval, and an electrical systolic interval as a function of the QT interval and of the first and second heart sounds; and
calculate the systolic/diastolic index as a function of at least one of the contraction time, the relaxation time, the systolic interval, the diastolic interval, and the electrical systolic interval.
-
-
39. A method of manufacturing an implantable medical device comprising:
-
providing a sensing arrangement to sense electrical cardiac signals;
providing a pulse generator to deliver stimulation pulses to a heart;
coupling a control arrangement to the sensing arrangement; and
programming the control arrangement to determine a QT interval as a function of the electrical cardiac signals and to configure the pulse generator as a function of the QT interval and of first and second heart sounds, to calculate a systolic index as a function of the QT interval and of the first and second heart sounds, and to configure the pulse generator as a function of the systolic index. - View Dependent Claims (40, 41, 42, 43, 44, 45, 46)
calculate at least one of a systolic time, a contraction time, and an electrical systolic time as a function of the QT interval and of the first and second heart sounds; and
calculate the systolic index as a function of at least one of the systolic time, the contraction time, and the electrical systolic time.
-
-
41. The method of manufacturing an implantable medical device of claim 39, comprising programming the control arrangement to select at least one of a pacing rate, an atrioventricular (AV) delay, and a left ventricular-right ventricular (LV-RV) pacing delay.
-
42. The method of manufacturing an implantable medical device of claim 39, further comprising configuring the implantable medical device to operate in at least one of the group of modes consisting of AAI, AAIR, VVI, VVIR, DDD, DDDR, VVI-ICD, VVIR-ICD, DDD-ICD, and DDDR-ICD operational modes.
-
43. The method of manufacturing an implantable medical device of claim 39 further comprising providing an implanted acoustic sensing arrangement to detect the first and second heart sounds.
-
44. The method of manufacturing an implantable medical device of claim 43, wherein the implanted acoustic sensing arrangement is integral with the implantable medical device.
-
45. The method of manufacturing an implantable medical device of claim 43, wherein the implanted acoustic sensing arrangement comprises at least one QT an accelerometer, a vibration sensor, and a piezoelectric sensor.
-
46. The method of manufacturing an implantable medical device of claim 45, wherein the first and second heart sounds are detected using a sensor external to a patient.
-
47. A method of manufacturing an implantable medical device comprising:
-
providing a sensing arrangement to sense electrical cardiac signals;
providing a pulse generator to deliver stimulation pulses to a heart;
coupling a control arrangement to the sensing arrangement; and
programming the control arrangement to determine a QT interval as a function of the electrical cardiac signals and to configure the pulse generator as a function of the QT interval and of first and second heart sounds, to calculate a diastolic index as a function of the QT interval and of the first and second heart sounds, and to configure the pulse generator as a function of the diastolic index. - View Dependent Claims (48)
calculate at least one of a relaxation time, a diastolic time, and an electrical diastolic time as a function of the QT interval and of the first and second heart sounds; and
calculate the diastolic index as a function of at least one of the relaxation time, the diastolic time, and the electrical diastolic time.
-
-
49. A method of manufacturing an implantable medical device comprising:
-
providing a sensing arrangement to sense electrical cardiac signals;
providing a pulse generator to deliver stimulation pulses to a heart;
coupling a control arrangement to the sensing arrangement; and
programming the control arrangement to determine a QT interval as a function of the electrical cardiac signals and to configure the pulse generator as a function of the QT interval and of first and second heart sounds, to calculate a systolic/diastolic index as a function of the QT interval and of the first and second heart sound, and to configure the pulse generator as a function of the systolic/diastolic index. - View Dependent Claims (50)
calculate at least one of a contraction time, a relaxation time, a systolic interval, a diastolic interval, and an electrical systolic interval as a function of the QT interval and of the first and second heart sounds; and
calculate the systolic/diastolic index as a function of at least one of the contraction time, the relaxation time, the systolic interval, the diastolic interval, and the electrical systolic interval.
-
Specification
-
- Resources
Litigation Campaign Assessment
Thank you for your request. You will receive a custom alert email when the Litigation Campaign Assessment is available.
×
-
Current AssigneeMedtronic Incorporated (Medtronic Plc)
-
Original AssigneeMedtronic Incorporated (Medtronic Plc)
-
InventorsCorbucci, Giorgio
-
Primary Examiner(s)Layno, Carl H.
-
Application NumberUS10/001,148Publication NumberTime in Patent Office1,034 DaysField of Search600/509, 600/514, 600/528, 607/9, 607/17, 607/18, 607/25US Class Current607/17CPC Class CodesA61N 1/36507 controlled by gradient or s...A61N 1/3682 with a variable atrioventri...A61N 1/3684 for stimulating the heart a...A61N 1/36842 Multi-site stimulation in t...A61N 1/36843 Bi-ventricular stimulation
