US2006190045A1PendingUtilityA1

Optimization method for cardiac resynchronization therapy

41
Assignee: MARCUS FRANK IPriority: Jul 29, 2003Filed: Jul 28, 2004Published: Aug 24, 2006
Est. expiryJul 29, 2023(expired)· nominal 20-yr term from priority
A61N 1/3684A61N 1/36542A61B 5/1107A61B 5/7217A61N 1/36842A61N 1/3627A61B 5/6869A61N 1/3682A61N 1/36843
41
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Claims

Abstract

The patterns of contraction and relaxation of the heart before and during left ventricular or biventricular pacing are analyzed and displayed in real time mode to assist physicians to screen patients for cardiac resynchronization therapy, to set the optimal AN or right ventricle to left ventricle interval delay, and to select the site(s) of pacing that result in optimal cardiac performance. The system includes an accelerometer sensor ( 40 ); a programmable pace maker ( 35, 41 ), a computer data analysis module ( 32 ), and may also include a 2D and 3D visual graphic display of analytic results ( 43, 44 ), i.e. a Ventricular Contraction Map. A feedback network ( 32 ) provides direction for optimal pacing leads placement. The method includes selecting a location to place the leads of a cardiac pacing device, collecting seismocardiographic (SCG) data corresponding to heart motion during paced beats of a patient's heart, determining hemodynamic and electrophysiological parameters based on the SCG data, repeating the preceding steps for another lead placement location, and selecting a lead placement location that provides the best cardiac performance by comparing the calculated hemodynamic and electrophysiological parameters for each different lead placement location.

Claims

exact text as granted — not AI-modified
1 . A method for determining the effectiveness of cardiac resynchronization therapy while stimulating a patient's heart at different locations during an electrophysiology study, comprising the steps of: 
 (a) collecting seismocardiographic (SCG) data corresponding to heart motion during paced beats of said patient's heart;    (b) collecting seismocardiographic (SCG) data corresponding to heart motion during un-paced beats of said patient's heart;    (c) determining a hemodynamic parameter based on the SCG data of steps (a) and (b); and    (d) determining whether cardiac performance is improved by comparing said hemodynamic parameter generated by step (a) with that generated by step (b).    
   
   
       2 . The method of  claim 1 , wherein the SCG data of steps (a) and (b) are detected by an accelerometer.  
   
   
       3 . The method of  claim 1 , wherein said hemodynamic parameter of step (c) is selected from the group consisting of one or more of the following: a pre-ejection period, a rate of contraction of left ventricle, a duration of systole, a duration of an isovolumic relaxation period, a rate of change of ventricular pressure, and an ejection fraction.  
   
   
       4 . The method of  claim 1 , wherein a ventricular contraction mapping is generated from the SCG data collected in steps (a) and (b).  
   
   
       5 . The method of  claim 3 , wherein the pre-ejection period is determined from a ventricular contraction mapping.  
   
   
       6 . The method of  claim 3 , wherein the rate of contraction of left ventricle is determined from a ventricular contraction mapping.  
   
   
       7 . The method of  claim 3 , wherein the duration of systole is determined from a ventricular contraction mapping.  
   
   
       8 . The method of  claim 3 , wherein the duration of isovolumic relaxation period is determined from a ventricular contraction mapping.  
   
   
       9 . The method of  claim 4 , wherein the a rate of change of ventricular pressure is determined from a ventricular contraction mapping.  
   
   
       10 . The method of  claim 1 , further including the step of (e) determining whether left ventricular or biventricular pacing is more beneficial to said patient by comparing said hemodynamic parameter generated by step (a) with those generated by step (b).  
   
   
       11 . A method for selecting an optimal placement of leads of a cardiac pacing device for cardiac resynchronization therapy during implantation comprising the steps of: 
 (a) selecting a lead placement location to place a lead of said cardiac pacing device;    (b) collecting seismocardiographic (SCG) data corresponding to heart motion during paced beats of a patient's heart;    (c) determining a hemodynamic parameter based on the SCG data of step (b);    (d) repeating steps (a)-(c) for other lead placement locations for said cardiac pacing device; and    (e) selecting a lead placement location that provides a best cardiac performance by comparing said hemodynamic parameter of step (c) for each different lead placement location.    
   
   
       12 . The method of  claim 11 , wherein the SCG data of step (b) are detected by an accelerometer.  
   
   
       13 . The method of  claim 11 , wherein said hemodynamic parameter of step (c) is selected from the group consisting of one or more of the following: a pre-ejection period, a rate of contraction of left ventricle, a duration of systole, a duration of an isovolumic relaxation period, a rate of change of ventricular pressure, and an ejection fraction.  
   
   
       14 . The method of  claim 11 , wherein a ventricular contraction mapping is generated from the SCG data collected in step (b).  
   
   
       15 . The method of  claim 13 , wherein the pre-ejection period is determined from a ventricular contraction mapping.  
   
   
       16 . The method of  claim 13 , wherein the rate of contraction of left ventricle is determined from a ventricular contraction mapping.  
   
   
       17 . The method of  claim 13 , wherein the duration of systole is determined from a ventricular contraction mapping.  
   
   
       18 . The method of  claim 13 , wherein the duration of isovolumic relaxation period is determined from a ventricular contraction mapping.  
   
   
       19 . The method of  claim 13 , wherein the a rate of change of ventricular pressure is determined from a ventricular contraction mapping.  
   
   
       20 . A system that selects an optimal placement of leads of a cardiac pacing device for cardiac resynchronization therapy during implantation, comprising: 
 a cardiac pacing device with leads implanted into a patient's heart;    means for collecting seismocardiographic (SCG) data corresponding to heart motion during paced beats of said patient's heart;    means for determining a hemodynamic parameter based on said SCG data; and    a processing device that compares said hemodynamic parameter;    wherein the optimal placement of leads of said cardiac pacing device is determined by comparing said hemodynamic parameter for different lead placement locations.    
   
   
       21 . The apparatus of  claim 20 , wherein said means for collecting SCG data comprises an accelerometer.  
   
   
       22 . The system of  claim 20 , wherein said hemodynamic parameter is selected from the group consisting of one or more of the following: a pre-ejection period, a rate of contraction of left ventricle, a duration of systole, a duration of an isovolumic relaxation period, a rate of change of ventricular pressure, and an ejection fraction.  
   
   
       23 . The system of  claim 20 , wherein a ventricular contraction mapping is generated from the SCG data.

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