Robert J. Hariman

Method for recording electrical activity of the sinoatrial node and automatic atrial foci during cardiac catheterization in human subjects

A method for recording electrical activity of the sinoatrial (S-A) node and automatic atrial foci in human subjects is described. To record S-A nodal electrograms, an electrode catheter was inserted percutaneously into the femoral vein and advanced under fluoroscopic control to the superior vena caval-right atrial junction. The distal terminal of the catheter was placed in the area of the S-A node and the proximal terminal on the free right atrial wall or in the right atrial lumen. Polarity was reversed from the conventional electrocardiographic recording; high amplification (about 100 microV/cm) and selective filters (0.1 to 20 hertz) were used. S-A nodal electrograms recorded with this method in human subjects were similar to electrograms obtained previously from the dog and rabbit and revealed negatively directed diastolic and upstroke slopes preceding the P wave of the electrocardiogram. Sinoatrial conduction time measured from the S-A nodal electrograms in 15 cases was 34.9 +/- 2.1 ms(mean +/- standard error of the mean) for a sinus cycle length of 736.4 +/- 38.6 ms. The coronary sinus electrograms in a patient with coronary sinus rhythm were recorded by the same technique except that the distal terminal of the catheter was placed at the coronary sinus ostium. A negatively directed diastolic slope preceding the P wave was consistently recorded. This method for recording electrograms of the S-A node and ectopic automatic atrial foci should prove useful in (1) assessment of both normal and abnormal S-A nodal function, (2) direct determination of conduction time from the S-A nodal pacemaker to the atrium, and (3) localization of automatic atrial foci.

Electrograms From the Canine Sinoatrial Pacemaker Recorded in Vitro and in Situ

We have identified extracell potential changes associated with the electrical activity of the canine sinoatrial pacemaker. Small nonpolarizable electrodes and low frequency high gain amplification were used to record unipolar electrograms from both the epicardial and the endocardial surfaces of the canine sinus node. Initially in vitro studies were performed so that transmembrane action potential changes could be recorded simultaneously with the extracell potentials. The sinus nodal electrogram showed two characteristic potentials when the electrode was in immediate proximity to pacemaking cells: (1) During phase 4 there was a steady slope of about -30 to -100 muv/sec, and (2) during the transition from phase 4 to phase 0 of the transmembrane action potential the slope of the electrogram increased smoothly to approximately -400 to -1,000 muv/sec. These potentials were followed by high frequency deflections as cells in the surrounding atrium depolarized. Tetrodotoxin (5 mg/liter) rendered the atrial muscle inexcitable and delayed and then abolished the high frequency activity in the sinus electrogram, which then appeared as a continuous smooth tracing similar to the sinus pacemaker action potential but reversed in polarity. We then recorded these small localized potentials from the in situ canine heart. Sinus nodal electrograms could be obtained from beating hearts with hand held probes on the epicardial surface and with conventional recording catheters on the endocardial surface. The results demonstrate that the canine sinus node gives rise to detectable and characteristic changes in extracell potential and suggest that similar potentials can be recorded from man to evaluate sinus nodal function.