System and method for pacing rate control utilizing patient hemodynamic status information
First Claim
1. A method of operating an implanted rate adaptive cardiac rhythm management system in a patient, the method comprising:
- acquiring a pressure signal representative of coronary venous pressure (CVP) from a pressure sensor implanted within the lower apical two thirds of a coronary vein of the patient and generating a CVP waveform therefrom;
applying a pacing stimulus to the patient'"'"'s heart, the pacing stimulus defined by a set of pacing parameters including a pacing rate;
acquiring a signal representative of the patient'"'"'s metabolic demand from at least one implanted sensor;
monitoring a CVP index derived from the CVP waveform while increasing the pacing rate in response to an increase in the patient'"'"'s metabolic demand, wherein the CVP index is based on coronary venous dp/dt (CV-dp/dt) of the CVP waveform;
detecting a reduction in the patient'"'"'s hemodymanic performance based on the CVP index resulting from increasing the pacing rate; and
establishing a maximum rate setting based on the pacing rate corresponding to the reduction in the patient'"'"'s hemodynamic performance, wherein the maximum rate setting delimits further metabolic demand-induced pacing rate increases.
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Abstract
A system and method for pacing rate control in a cardiac rhythm management (CRM) system. The method includes acquiring a pressure signal representative of coronary venous pressure (CVP) from a pressure sensor implanted within a coronary vein of the patient and generating a CVP waveform from the pressure signal. A pacing stimulus is applied to the patient'"'"'s heart, and the pacing rate is increased in response to increases in patient'"'"'s metabolic demand. The CVP index is monitored during the pacing rate increase, and the CRM system detects a reduction in the patient'"'"'s hemodymanic performance based on the CVP index and establishes a maximum rate setting based on the pacing rate corresponding to the reduction in the patient'"'"'s hemodynamic performance.
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Citations
20 Claims
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1. A method of operating an implanted rate adaptive cardiac rhythm management system in a patient, the method comprising:
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acquiring a pressure signal representative of coronary venous pressure (CVP) from a pressure sensor implanted within the lower apical two thirds of a coronary vein of the patient and generating a CVP waveform therefrom; applying a pacing stimulus to the patient'"'"'s heart, the pacing stimulus defined by a set of pacing parameters including a pacing rate; acquiring a signal representative of the patient'"'"'s metabolic demand from at least one implanted sensor; monitoring a CVP index derived from the CVP waveform while increasing the pacing rate in response to an increase in the patient'"'"'s metabolic demand, wherein the CVP index is based on coronary venous dp/dt (CV-dp/dt) of the CVP waveform; detecting a reduction in the patient'"'"'s hemodymanic performance based on the CVP index resulting from increasing the pacing rate; and establishing a maximum rate setting based on the pacing rate corresponding to the reduction in the patient'"'"'s hemodynamic performance, wherein the maximum rate setting delimits further metabolic demand-induced pacing rate increases. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method of operating an implanted cardiac rhythm management system in a patient, the method comprising:
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acquiring a pressure signal indicative of coronary venous pressure (CVP) from a pressure sensor implanted within the lower apical two thirds of a coronary vein of the patient and deriving a selected CVP index from the pressure signal; calculating a baseline CVP index value based on the pressure signal, the CVP index based on coronary venous dp/dt (CV-dp/dt) of the CVP; applying a pacing stimulus to the patient'"'"'s heart, the pacing stimulus defined by a set of pacing parameters including a maximum rate setting; acquiring a signal representative of the patient'"'"'s metabolic demand from at least one implanted sensor; responsive to an increase in the patient'"'"'s metabolic demand, increasing the pacing rate and the maximum rate setting while monitoring the CVP index; and detecting a reduction in the patient'"'"'s hemodymanic performance based on a change, relative to the CVP index baseline value, in the CVP index resulting from increasing the pacing rate, wherein the change comprises an increase in the CV-dp/dt; and maintaining the maximum rate setting at a pacing rate below the pacing rate corresponding to the detected reduction in the patient'"'"'s hemodynamic performance. - View Dependent Claims (13)
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14. An implantable rate adaptive cardiac rhythm management system configured for applying pacing stimuli to a patient'"'"'s heart, the pacing stimuli defined by pacing parameters including a pacing rate and a maximum rate setting, the system comprising:
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one or more implantable medical electrical leads configured to sense cardiac electrical activity and to deliver the pacing stimuli, at least one of the one or more implantable medical electrical leads being configured for chronic implantation within a coronary vein of the patient'"'"'s heart and including a pressure sensor configured to generate a coronary venous pressure (CVP) signal indicative of fluid pressure from within the lower apical two thirds of a coronary vein; an implantable pulse generator operatively coupled to the one or more implantable medical electrical leads configured to generate the pacing stimuli, the pulse generator including a control system configured to; generate a CVP waveform based on the pressure signal and derive a CVP index therefrom, wherein the CVP index is based on coronary venous dp/dt (CV-dp/dt) sensed by the pressure sensor; detect reductions in the patient'"'"'s hemodynamic performance based on the CVP index caused by an increase in the pacing rate; and adaptively adjust the pacing rate and the maximum rate setting in response to changes in the patient'"'"'s metabolic demand, wherein during use, the maximum rate setting is selectively defined by the control system based on the pacing rate corresponding to the identified reduction in the patient'"'"'s hemodynamic performance. - View Dependent Claims (15, 16, 17, 18, 19, 20)
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Specification