Active implantable medical device for atrial stimulation for the treatment of heart failure with preserved ejection fraction

What is claimed is: 1. An active implantable medical device comprising: a processor configured to: sense a plurality of right atrial depolarizations; and deliver a plurality of left atrial stimulation pulses according to a stimulation protocol, the stimulation protocol comprising: detecting a first cardiac cycle without left atrial stimulation; delivering a left atrial stimulation pulse during a second cardiac cycle subsequent to the first cardiac cycle at an inter-atrial coupling interval, wherein the inter-atrial coupling interval applied during the second cardiac cycle is shorter than a sinus rhythm coupling interval; delivering a left-atrial stimulation pulse during a third cardiac cycle subsequent to the second cardiac cycle at an inter-atrial coupling interval corresponding to the sinus rhythm coupling interval; determining a right atrial coupling interval between the right atrial depolarizations during the second and third cardiac cycles; comparing the right atrial coupling interval to the sinus rhythm coupling interval; and selectively modifying an adjustable controlling parameter according to the comparison. 2. The device of claim 1 , wherein the adjustable controlling parameter is the inter-atrial coupling interval. 3. The device of claim 2 , wherein, when the comparison indicates the right atrial coupling interval is less than the sinus rhythm coupling interval, the processor is further configured to modify the adjustable controlling parameter by: changing the inter-atrial coupling interval by one step; and delivering a left atrial stimulation pulse during a subsequent cardiac cycle at the inter-atrial coupling interval changed by one step. 4. The device of claim 1 , wherein, when a predetermined event is detected, the processor is further configured to: inhibit delivery of the left atrial stimulation pulse during at least one cardiac cycle; measure an atrial escape interval and an inter-atrial delay for a cardiac cycle; and store the atrial escape interval as the sinus rhythm coupling interval for determination of the inter-atrial coupling interval and the inter-atrial delay corresponding to the sinus rhythm coupling interval in subsequent cycles. 5. The device of claim 4 , wherein the predetermined event is an expiration of a predetermined fixed timing interval. 6. The device of claim 4 , wherein the predetermined event is a detection of a crossing of a predetermined threshold by a variation in the inter-atrial coupling interval. 7. A method for resynchronization of a contraction of heart chambers, the method comprising: sensing a plurality of right atrial depolarizations; and delivering a plurality of left atrial stimulation pulses according to a stimulation protocol, the stimulation protocol comprising: detecting a first cardiac cycle without left atrial stimulation; delivering a left atrial stimulation pulse during a second cardiac cycle subsequent to the first cardiac cycle at an inter-atrial coupling interval, wherein the inter-atrial coupling interval applied during the second cardiac cycle is shorter than a sinus rhythm coupling interval; delivering a left-atrial stimulation pulse during a third cardiac cycle subsequent to the second cardiac cycle, at an inter-atrial coupling interval corresponding to the sinus rhythm coupling interval; determining a right atrial coupling interval between the right atrial depolarizations during the second and third cardiac cycles; comparing the right atrial coupling interval to the sinus rhythm coupling interval; and selectively modifying an adjustable controlling parameter according to the comparison. 8. The method of claim 7 , wherein the adjustable controlling parameter is modified to cause an interval between left atrial contraction and ventricular contraction long enough to establish a normal sequencing of the left cavities of the heart while causing no change in sequencing of a right atrial contraction and ventricular contraction of the heart. 9. The method of claim 7 , wherein the adjustable controlling parameter is the inter-atrial coupling interval. 10. The method of claim 9 , further comprising modifying the inter-atrial coupling interval when the right atrial coupling interval is less than the sinus rhythm coupling interval. 11. The method of claim 10 , wherein the modifying step comprises: changing the inter-atrial coupling interval by one step; and delivering a left atrial stimulation pulse during a subsequent cardiac cycle at the inter-atrial coupling interval changed by one step. 12. The method of claim 7 , further comprising: detecting a predetermined event; inhibiting delivery of the left atrial stimulation pulse during at least one cardiac cycle; measuring an atrial escape interval and an inter-atrial delay for a cardiac cycle; and storing the atrial escape interval as the sinus rhythm coupling interval for determination of the inter-atrial coupling interval and the inter-atrial delay corresponding to the sinus rhythm coupling interval in subsequent cycles. 13. The method of claim 12 , wherein the predetermined event is an expiration of a predetermined fixed timing interval. 14. The method of claim 12 , wherein the predetermined event is a detection of a crossing of a predetermined threshold by a variation in the inter-atrial coupling interval. 15. The method of claim 7 , wherein the left atrial stimulation pulse is premature to a naturally occurring depolarization at a sinus rhythm by a prematurity value, wherein the prematurity value is equal to an interval between a left atrial depolarization and the right atrial depolarization during the first cardiac cycle minus an interval, wherein the interval is selected so that the left atrium depolarization is not synchronous with the right atrium depolarization, but slightly delayed. 16. A cardiac resynchronization system, comprising: a plurality of electrodes for positioning in a right atrium and a left atrium of a heart; an implantable medical device comprising a generator, the implantable medical device structured to couple to the electrodes, the implantable medical device further comprising a processor configured to: sense a plurality of right atrial depolarizations from the electrodes; sense a plurality of left atrial depolarizations from the electrodes; and deliver a plurality of a left atrial stimulation pulse during a cardiac cycle following a preceding cardiac cycle with no left atrial stimulation, the left atrial stimulation pulse delivered at an inter-atrial coupling interval, wherein the inter-atrial coupling interval is shorter than a sinus rhythm coupling interval; deliver a second left-atrial stimulation pulse during a subsequent cardiac cycle at an inter-atrial coupling interval corresponding to the sinus rhythm coupling interval; assess a right atrial coupling interval between the right atrial depolarizations during the consecutive cardiac cycles; compare the right atrial coupling interval to the sinus rhythm coupling interval; and determine whether to modify the inter-atrial coupling interval based on the comparison. 17. The system of claim 16 , wherein the processor is further configured to modify the inter-atrial coupling interval when the right atrial coupling interval is less than the sinus rhythm coupling interval. 18. The system of claim 17 , wherein the processor is further configured to modify the inter-atrial coupling interval by: changing the inter-atrial coupling interval by one step; and delivering a left atrial stimulation pulse during a subsequent cardia