Peak Endocardial Acceleration-Based Clinical Testing of the "BEST" DDDR Pacemaker |
| |
| Authors: | HEINER LANGENFELD,AXEL KREIN,MICHAEL KIRSTEIN,LUDWIG BINNER&dagger ,EUROPEAN PEA CLINICAL INVESTIGATION GROUP |
| |
| Affiliation: | University Hospital of Internal Medicine, Wuärzburg, Germany;University Hospital of Cardiovascular Surgery, Wuärzburg, Germany;Department of Internal Medicine II, University of Ulm, Germany |
| |
| Abstract: | The peak endocardial acceleration (PEA, unit g) shows a near correlation with myocardial contractility during the isometric systolic contraction of the heart (dP/dtmax), with sympathetic activity and, thus, with physiological heart rate modulation. The (Biomechanical Endocardial Sorin Transducer (BEST) sensor is incorporated in the tip of a pacing lead and measures PEA directly near the myocardium. In an international study, the lead was implanted with the dual chamber pacemaker Living-1 (Sorin) in 105 patients. The behavior of the PEA signal was tested under conditions of physical and mental stress and during daily life activities by 24-hour recordings of PEA (PEA Holter) at 1 to 2 months and approximately 1 year after implantation. Implantation of the BEST lead was performed without complications in all patients. The sensor functioned properly in the short- and long-term in 98% of patients. Although PEA values differed from patient to patient, the values closely reflected the variations in sympathetic activity due to physical and mental stress in each patient. During exercise and during daily life activities a close correlation between PEA and heart rate was observed among patients with normal sinus rhythm. Peak endocardial acceleration allows a nearly physiological control of the pacing rate. |
| |
| Keywords: | rate adaptive pacing myocardial acceleration PEA BEST Living system |
|
|
