Physiological response to posture change
First Claim
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1. A system comprising:
- an implantable medical device, the implantable medical device comprising;
a posture sensing circuit configured to detect a change within a recumbent posture of a subject;
a physiological signal sensing circuit to sense a physiological signal;
a controller circuit, operatively coupled to the physiological signal sensing circuit and the posture sensing circuit, the controller circuit configured to detect a change in the physiological signal that occurs in association with the detected change within the recumbent posture of the subject,wherein the physiological signal sensing circuit includes at least one of a heart rate sensing circuit, a blood pressure sensing circuit, a heart sound sensing circuit, a heart rate variability sensing circuit, and a respiration rate sensing circuit, and the change in the physiological signal includes at least one of;
a sensed change in heart rate that is less than a normal subject'"'"'s change in heart rate;
a sensed change in blood pressure that is different from a normal subject'"'"'s change in blood pressure;
a sensed change in heart sound energy that is different from a normal subject'"'"'s change in heart sound energy;
a sensed change in heart rate variability that is different from a normal subject'"'"'s change in heart rate variability; and
a sensed change in respiration rate, respectively, andwherein the controller circuit is further configured to generate a response as a function of the detected change in the physiological signal; and
a circuit to compare the change in the physiological signal, the comparison comprising a comparison between (1) a ratio of the physiological signal in the first recumbent posture to the physiological signal in the second recumbent posture for a subject with a possible health condition, to (2) the ratio of the physiological signal in the first recumbent posture to the physiological signal in the second recumbent posture for a normal subject or population.
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Abstract
In an embodiment, an implantable medical device includes a controller circuit, a posture sensing circuit, and a physiological sensing circuit. The controller circuit senses a change in a physiological signal as a result of a change in posture, and generates a response as a function of that change. In another embodiment, the controller circuit identifies a heart failure condition as a function of the change in the physiological signal.
53 Citations
19 Claims
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1. A system comprising:
an implantable medical device, the implantable medical device comprising; a posture sensing circuit configured to detect a change within a recumbent posture of a subject; a physiological signal sensing circuit to sense a physiological signal; a controller circuit, operatively coupled to the physiological signal sensing circuit and the posture sensing circuit, the controller circuit configured to detect a change in the physiological signal that occurs in association with the detected change within the recumbent posture of the subject, wherein the physiological signal sensing circuit includes at least one of a heart rate sensing circuit, a blood pressure sensing circuit, a heart sound sensing circuit, a heart rate variability sensing circuit, and a respiration rate sensing circuit, and the change in the physiological signal includes at least one of; a sensed change in heart rate that is less than a normal subject'"'"'s change in heart rate; a sensed change in blood pressure that is different from a normal subject'"'"'s change in blood pressure; a sensed change in heart sound energy that is different from a normal subject'"'"'s change in heart sound energy; a sensed change in heart rate variability that is different from a normal subject'"'"'s change in heart rate variability; and a sensed change in respiration rate, respectively, and wherein the controller circuit is further configured to generate a response as a function of the detected change in the physiological signal; and a circuit to compare the change in the physiological signal, the comparison comprising a comparison between (1) a ratio of the physiological signal in the first recumbent posture to the physiological signal in the second recumbent posture for a subject with a possible health condition, to (2) the ratio of the physiological signal in the first recumbent posture to the physiological signal in the second recumbent posture for a normal subject or population. - View Dependent Claims (2, 15, 16, 17, 18)
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3. A system comprising:
an implantable medical device, the implantable medical device comprising; a posture sensing circuit configured to detect a change within a recumbent posture of a subject; a physiological signal sensing circuit to sense a physiological signal; a controller circuit, operatively coupled to the physiological signal sensing circuit and the posture sensing circuit, the controller circuit configured to detect a change in the physiological signal that occurs in association with the detected change within the recumbent posture of the subject, wherein the physiological signal sensing circuit includes at least one of a heart rate sensing circuit, a blood pressure sensing circuit, a heart sound sensing circuit, a heart rate variability sensing circuit, and a respiration rate sensing circuit and the change in the physiological signal includes at least one of; a sensed change in heart rate that is less than a normal subject'"'"'s change in heart rate; a sensed change in blood pressure that is different from a normal subject'"'"'s change in blood pressure; a sensed change in heart sound energy that is different from a normal subject'"'"'s change in heart sound energy; a sensed change in heart rate variability that is different from a normal subject'"'"'s change in heart rate variability; and a sensed change in respiration rate, respectively, and wherein the controller circuit is further configured to generate a response as a function of the detected change in the physiological signal; and a pacing circuit coupled to the controller circuit, wherein the response generated by the controller circuit is to adjust pacing delivered by the pacing circuit. - View Dependent Claims (4, 5)
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6. A system comprising:
an implantable medical device, the implantable medical device comprising; a posture sensing circuit configured to detect a change within a recumbent posture of a subject; a physiological signal sensing circuit to sense a physiological signal; a controller circuit, operatively coupled to the physiological signal sensing circuit and the posture sensing circuit, the controller circuit configured to detect a change in the physiological signal that occurs in association with a the detected change within a the recumbent posture of a the subject, wherein the physiological signal sensing circuit includes at least one of a heart rate sensing circuit, a blood pressure sensing circuit, a heart sound sensing circuit, a heart rate variability sensing circuit, and a respiration rate sensing circuit, and wherein the change in the physiological signal includes at least one of; a sensed change in heart rate that is less than a normal subject'"'"'s change in heart rate; a sensed change in blood pressure that is different from a normal subject'"'"'s change in blood pressure; a sensed change in heart sound energy that is different from a normal subject'"'"'s change in heart sound energy; a sensed change in heart rate variability that is different from a normal subject'"'"'s change in heart rate variability; and a sensed change in respiration rate, respectively, and wherein the controller circuit is further configured to generate a response as a function of the detected change in the physiological signal; and a neural stimulation circuit operatively coupled to the controller circuit, wherein the response generated by the controller circuit is to adjust a neural stimulation pulse.
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7. A system comprising:
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an implantable medical device, the implantable medical device comprising; a posture sensing circuit configured to detect a change within a recumbent posture of a subject; a physiological signal sensing circuit to sense a physiological signal; a controller circuit, operatively coupled to the physiological signal sensing circuit and the posture sensing circuit, the controller circuit configured to detect a change in the physiological signal that occurs in association with the detected change within the recumbent posture of the subject, wherein the physiological signal sensing circuit includes at least one of a heart rate sensing circuit, a blood pressure sensing circuit, a heart sound sensing circuit, a heart rate variability sensing circuit, and a respiration rate sensing circuit, and the change in the physiological signal includes at least one of; a sensed change in heart rate that is less than a normal subject'"'"'s change in heart rate; a sensed change in blood pressure that is different from a normal subject'"'"'s change in blood pressure; a sensed change in heart sound energy that is different from a normal subject'"'"'s change in heart sound energy; a sensed change in heart rate variability that is different from a normal subject'"'"'s change in heart rate variability; and a sensed change in respiration rate, respectively, and wherein the controller circuit is further configured to generate a response as a function of the detected change in the physiological signal; and a drug delivery control circuit operatively coupled to the controller circuit, wherein the response generated by the controller circuit is to adjust delivery of a substance.
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8. A system comprising:
an implantable medical device, the implantable medical device comprising; a posture sensing circuit configured to detect a change within a recumbent posture of a subject; a physiological signal sensing circuit to sense a physiological signal, wherein the physiological sensing circuit is a heart rate sensing circuit; and a controller circuit, operatively coupled to the physiological signal sensing circuit and the posture sensing circuit, the controller circuit configured to detect a change in the physiological signal that occurs in association with the detected change within the recumbent posture of the subject, and wherein the controller circuit is further configured to generate a response as a function of the detected change in the physiological signal. - View Dependent Claims (9)
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10. A system comprising:
an implantable medical device, the implantable medical device comprising; a posture sensing circuit configured to detect a change within a recumbent posture of a subject; a physiological signal sensing circuit to sense a physiological signal wherein the physiological sensing circuit is a heart sound sensing circui; and a controller circuit, operatively coupled to the physiological signal sensing circuit and the posture sensing circuit, the controller circuit configured to detect a change in the physiological signal that occurs in association with the detected change within the recumbent posture of the subject, wherein the controller circuit is further configured to generate a response as a function of the detected change in the physiological signal. - View Dependent Claims (11)
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12. A system comprising:
an implantable medical device, the implantable medical device comprising; a posture sensing circuit configured to detect a change within a recumbent posture of a subject; a physiological signal sensing circuit to sense a physiological signal in which the physiological sensing circuit is a respiration sensing circuit; and a controller circuit, operatively coupled to the physiological signal sensing circuit and the posture sensing circuit, the controller circuit configured to detect a change in the physiological signal that occurs in association with the detected change within the recumbent posture of the subject, wherein the change in the physiological signal includes a sensed change in respiration rate, and wherein the controller circuit is further configured to generate a response as a function of the detected change in the physiological signal. - View Dependent Claims (13)
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14. A system comprising:
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an implantable medical device, the implantable medical device comprising; a posture sensing circuit configured to detect a change within a recumbent posture of a subject; a physiological signal sensing circuit to sense a physiological signal; a controller circuit, operatively coupled to the physiological signal sensing circuit and the posture sensing circuit, the controller circuit configured to detect a change in the physiological signal that occurs in association with the detected change within the recumbent posture of the subject, wherein the physiological signal sensing circuit includes at least one of a heart rate sensing circuit, a blood pressure sensing circuit, a heart sound sensing circuit, a heart rate variability sensing circuit, and a respiration rate sensing circuit, and the change in the physiological signal includes at least one of; a sensed change in heart rate that is less than a normal subject'"'"'s change in heart rate; a sensed change in blood pressure that is different from a normal subject'"'"'s change in blood pressure; a sensed change in heart sound energy that is different from a normal subject'"'"'s change in heart sound energy; a sensed change in heart rate variability that is different from a normal subject'"'"'s change in heart rate variability; and a sensed change in respiration rate, respectively, and wherein the controller circuit is further configured to generate a response as a function of the detected change in the physiological signal; and a telemetry circuit operatively coupled to the controller circuit, wherein the response generated by the controller circuit comprises an alert issued by the telemetry circuit to an external device.
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19. A system comprising:
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an implantable medical device, the implantable medical device comprising; a posture sensing circuit configured to detect a change within a recumbent posture of a subject; a physiological signal sensing circuit to sense a physiological signal; a controller circuit, operatively coupled to the physiological signal sensing circuit and the posture sensing circuit, the controller circuit configured to detect a change in the physiological signal that occurs in association with the detected change within the recumbent posture of the subject, the controller circuit further configured to identify a health condition as a function of the change in the physiological signal, wherein the physiological signal sensing circuit includes at least one of a heart rate sensing circuit, a blood pressure sensing circuit, a heart sound sensing circuit, a heart rate variability sensing circuit, and a respiration rate sensing circuit, and wherein the health condition is identified by at least one of; a sensed change in heart rate that is less than a normal subject'"'"'s change in heart rate; a sensed change in blood pressure that is different from a normal subject'"'"'s change in blood pressure; a sensed change in heart sound energy that is different from a normal subject'"'"'s change in heart sound energy; a sensed change in heart rate variability that is different from a normal subject'"'"'s change in heart rate variability; and a sensed change in respiration rate, respectively, and wherein the detected change in posture includes a change from a first recumbent posture to a second recumbent posture, wherein the first and second recumbent postures are included among a supine posture, a prone posture, a right lateral decubitus posture, and a left lateral decubitus posture; and a circuit to generate a response when the change in the physiological signal indicates a change in the health condition; and
wherein the circuit to generate the response comprises one or more of a pacing circuit, a neural stimulation circuit, and a pharmaceutical delivery circuit.
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Specification