System and method for pacing parameter optimization using heart sounds

The invention claimed is: 1. A medical device system, comprising: a plurality of electrodes for delivering cardiac pacing pulses to a patient's heart; a cardiac sensing module coupled to the plurality of electrodes; a cardiac pacing module coupled to the plurality of electrodes for generating cardiac pacing pulses and controlling delivery of the pacing pulses at a plurality of pace parameter settings; an acoustical sensor for obtaining heart sound signals; a processor enabled to: control the pacing module to deliver the cardiac pacing pulses at the plurality of pace parameter settings comprising a plurality of settings of a pacing time interval, receive the heart sound signals during the delivery of the cardiac pacing pulses at the plurality of pace parameter settings comprising the plurality of settings of the pacing time interval, derive a plurality of heart sound signal parameters from the heart sound signals, the heart sound signal parameters comprising at least a first heart sound signal parameter and a second heart sound signal parameter, wherein the first heart sound signal parameter comprises a V-S 2 interval measured as a time interval between a ventricular electrical event and an S 2 heart sound for each of the plurality of settings of the pacing time interval, determine a trend of at least the V-S 2 interval with respect to the plurality of settings of the pacing time interval, identify an inflection point of the trend of the V-S 2 interval, identify one of the plurality of settings of the pacing time interval that occurs at the identified inflection point as a maximum optimal setting of the pacing time interval, determine a trend of the second heart sound signal parameter with respect to the plurality of settings of the pacing time interval, the second heart sound signal parameter different than the V-S 2 interval, and identify an optimal setting of the pacing time interval from the plurality of settings of the pacing time interval that corresponds to a maximum value of the second heart sound signal parameter when the pacing time interval is equal to or less than the identified maximum optimal setting of the pacing time interval; and an external display configured to present the trend of at least one of the V-S 2 interval or the second heart sound signal parameter with respect to the plurality of settings of the pacing time interval. 2. The system of claim 1 , wherein the external display is further configured to present the identified optimal setting of the pacing time interval from the plurality of settings of the pacing time interval that corresponds to the maximum value of the second heart sound signal parameter when the pacing time interval is equal to or less than the identified maximum optimal setting of the pacing time interval. 3. The system of claim 1 , wherein the plurality of electrodes comprises a plurality of electrodes positioned along a ventricular chamber, the plurality of pace parameter settings comprising a plurality of pacing vectors selected from the plurality of electrodes positioned along a ventricular chamber. 4. The system of claim 3 , wherein the cardiac pacing module is configured to deliver pacing pulses using each of the plurality of pacing vectors and, for each of the plurality of pacing vectors, deliver pacing pulses at each of the plurality of settings of the pacing time interval. 5. The system of claim 4 , wherein the processor is configured to determine a trend of at least one of the plurality of heart sound signal parameters with respect to the plurality of settings of the pacing time interval for each of the plurality of pacing vectors, and identify an optimal pacing vector in response to the trends with respect to the plurality of pacing time interval settings. 6. The system of claim 5 , wherein the processor is configured to determine the trend of the V-S 2 interval with respect to the plurality of settings of the pacing time interval for the optimal pacing vector. 7. The system of claim 4 , wherein the plurality of electrodes comprises a plurality of electrodes positioned along a left ventricle of the patient's heart and the plurality of pacing time interval settings comprises a plurality of atrial-ventricular intervals. 8. The system of claim 7 , wherein the processor is configured to identify the optimal pacing vector in response to one of the plurality of pacing vectors presenting a desired trend. 9. The system of claim 8 , wherein the desired trend comprises a generally bell-shaped trend having a maximum peak. 10. The system of claim 8 wherein the desired trend comprises a sudden slope change. 11. A medical device system, comprising: a plurality of electrodes for delivering cardiac pacing pulses to a patient's heart; a cardiac sensing module coupled to the plurality of electrodes; a cardiac pacing module coupled to the plurality of electrodes for generating cardiac pacing pulses and controlling delivery of the pacing pulses at a plurality of pace parameter settings; an acoustical sensor for obtaining heart sound signals; a processor enabled to: control the pacing module to deliver the cardiac pacing pulses at the plurality of pace parameter settings comprising a plurality of settings of an atrial-ventricular interval, receive the heart sound signals during the delivery of the cardiac pacing pulses at the plurality of pace parameter settings comprising the plurality of settings of the atrial-ventricular interval, derive a plurality of heart sound signal parameters from the heart sound signals, the heart sound signal parameters comprising at least a V-S 2 interval measured as a time interval between a ventricular electrical event and an S 2 heart sound for each of the plurality of settings of the atrial-ventricular interval, determine a trend of the V-S 2 interval with respect to a plurality of settings for the atrial-ventricular interval, identify a sudden change from a flat slope to a descending slope of the trend of the V-S 2 interval, and identify one of the plurality of settings for the atrial-ventricular interval at which the sudden change from the flat slope to the descending slope of the determined V-S 2 trend occurs as a maximum optimal setting of the atrial-ventricular interval; and an external display configured to present the trend of the V-S 2 interval with respect to the plurality of settings for the atrial-ventricular interval. 12. The system of claim 11 , wherein the external display is further configured to present the maximum optimal setting of the atrial-ventricular interval. 13. The system of claim 11 , wherein the plurality of electrodes comprises a plurality of electrodes positioned along a ventricular chamber, the plurality of pace parameter settings comprising a plurality of pacing vectors selected from the plurality of electrodes positioned along a ventricular chamber. 14. The system of claim 13 , wherein the cardiac pacing module is configured to deliver pacing pulses using each of the plurality of pacing vectors and, for each of the plurality of pacing vectors, deliver pacing pulses at each of the plurality of settings of the atrial-ventricular interval. 15. The system of claim 14 , wherein the processor is configured to determine a trend of the V-S 2 interval with respect to the plurality of settings of the atrial-ventricular interval for each of the plurality of pacing vectors, and identify an optimal pacing vector in response to the trends with respect to the plurality of atrial-ventricular interval settings. 16. The system of claim 15 , wherein the processor is further