Demonstration of a widely distributed atrial pacemaker complex in the human heart.

Atrial depolarization was analyzed in 14 patients with the Wolff-Parkinson-White syndrome undergoing surgery to ablate accessory atrioventricular pathways associated with tachyarrhythmias. Bipolar potentials were recorded simultaneously from 156 atrial epicardial electrodes arranged in three templates to fit the anterior and posterior aspects of both atria. Spontaneous or sinus rhythms were recorded, as were atrial escape rhythms after overdrive pacing at rates of 150 and 200 beats/min. Atrial activation maps revealed different patterns of impulse initiation varying from typical unifocal sinus node impulse origin, unifocal extranodal impulse origin, and multicentric impulse origin from two to four widely distributed atrial pacemaker sites. In subjects demonstrating only unifocal impulse origin during control or sinus rhythm, other widely divergent pacemaker sites were recorded in other maps during subsequent rhythms. In addition to sites located at the upper superior vena cava-right atrium junction, pacemakers also dominated at sites anterior and inferior to the sinus node region during both control and escape depolarizations. Most of the subjects were found to have two or more pacemaker sites when maps of all control and postpacing conditions were analyzed. The right atrial pacemaker region encompassed a zone of 7.5 X 1.5 cm centered about the long axis of the sulcus terminalis posteriorly and the precaval band anteriorly. An unexpected finding was the participation of left atrial escape pacemakers. The functional behavior of both the control and escape pacemakers, as assessed by sinus node recovery time, was normal, indicating physiologic operation of the extranodal sites as part of an overall system of distributed pacemakers involved in the control of rate. Although functional assessment was limited in these initial patient studies, correspondence with similar observations in extensive previous canine studies supports the concept of a widely distributed atrial pacemaker complex in man.

[1]  H H Lu,et al.  Shifts in Pacemaker Dominance within the Sinoatrial Region of Cat and Rabbit Hearts Resulting from Increase of Extracellular Potassium , 1970, Circulation research.

[2]  R. C. Little Physiology of atrial pacemakers and conductive tissues , 1980 .

[3]  W. C. Randall,et al.  Atrial ectopic foci in the canine heart: hierarchy of pacemaker automaticity. , 1980, The American journal of physiology.

[4]  J. Boineau,et al.  Quantitative relation between sites of atrial impulse origin and cycle length. , 1983, The American journal of physiology.

[5]  W. Bleeker,et al.  Pacemaker Shifts in the Sinus Node: Effects of Vagal Stimulation, Temperature and Reduction of Extracellular Calcium , 1978 .

[6]  Thomas Lewis,et al.  The excitatory process in the dog's heart. Part II The ventricles , 1915 .

[7]  Daniel A. Brody,et al.  Application of Computer Techniques to the Detection and Analysis of Spontaneous P‐Wave Variations , 1967, Circulation.

[8]  H S Marcus,et al.  Evaluation of Sino‐atrial Node Function in Man by Overdrive Suppression , 1971, Circulation.

[9]  A Keith,et al.  The Form and Nature of the Muscular Connections between the Primary Divisions of the Vertebrate Heart. , 1907, Journal of anatomy and physiology.

[10]  J. Loeb,et al.  Autonomic interactions among subsidiary atrial foci. , 1981, The American journal of cardiology.

[11]  F. Witkowski,et al.  An automated simultaneous transmural cardiac mapping system. , 1984, The American journal of physiology.

[12]  W. J. Meek,et al.  EXPERIMENTS ON THE ORIGIN AND PROPAGATION OF THE IMPULSE IN THE HEART: IV. The Effect of Vagal Stimulation and of Cooling on the Location of the Pacemaker within the Sino-auricular Node , 1914 .

[13]  J. Boineau,et al.  Activation Sequence and Potential Distribution Maps Demonstrating Multicentric Atrial Impulse Origin in Dogs , 1984, Circulation research.

[14]  W. C. Randall,et al.  Functional Characteristics of Sinoatrial and Subsidiary Pacemaker Activity in the Canine Right Atrium , 1983, Circulation.

[15]  J. Erlanger,et al.  A STUDY OF RELATIVE RHYTHMICITY AND CONDUCTIVITY IN VARIOUS REGIONS OF THE AURICLES OF THE MAMMALIAN HEART , 1907 .

[16]  T. N. James,et al.  Anatomy of the human sinus node , 1961, The Anatomical record.

[17]  W. Wehrmacher,et al.  Hierarchy of supraventricular pacemakers. , 1981, The Journal of thoracic and cardiovascular surgery.

[18]  A. Seaber,et al.  Surgical isolation of the atrial septum from the atria. Identification of an atrial septal pacemaker. , 1980, The Journal of thoracic and cardiovascular surgery.

[19]  R. Barr,et al.  Spread of excitation from the atrium into thoracic veins in human beings and dogs. , 1972, The American journal of cardiology.

[20]  A. Brusca,et al.  Activation of the human fetal heart. , 1973, American heart journal.

[21]  J. Goldberg Intra-SA-nodal pacemaker shifts induced by autonomic nerve stimulation in the dog. , 1975, The American journal of physiology.

[22]  J. Boineau,et al.  Effect of canine cardiac nerves on heart rate, rhythm, and pacemaker location. , 1986, The American journal of physiology.

[23]  W. C. Randall,et al.  Sympathetically induced pacemaker shifts following sinus node excision. , 1973, The American journal of physiology.

[24]  T. C. West,et al.  Changes in Sino-atrial Node Transmembrane Potentials on Vagal Stimulation of the Isolated Rabbit Atrium , 1965, Nature.

[25]  W. C. Randall,et al.  Cardiac pacemakers in absence of the SA node: responses to exercise and autonomic blockade. , 1978, The American journal of physiology.

[26]  R B Schuessler,et al.  Widespread distribution and rate differentiation of the atrial pacemaker complex. , 1980, The American journal of physiology.

[27]  R B Schuessler,et al.  Multicentric Origin of the Atrial Depolarization Wave: The Pacemaker Complex , 1978, Circulation.

[28]  R. Yee,et al.  Electrophysiologic mechanisms: sinus node dysfunction. , 1987, Circulation.

[29]  Mark E. Josephson,et al.  Clinical cardiac electrophysiology ; techniques and interpretations , 2001 .

[30]  A. Seaber,et al.  The atrial pacemaking site after surgical exclusion of the sinoatrial node. , 1973, The Journal of thoracic and cardiovascular surgery.

[31]  W. C. Randall,et al.  Comparison of SA nodal and subsidiary atrial pacemaker function and location in the dog. , 1978, The American journal of physiology.

[32]  Wallace A. McAlpine,et al.  Heart and Coronary Arteries: An Anatomical Atlas for Clinical Diagnosis, Radiological Investigation, and Surgical Treatment , 1974 .

[33]  T. Sano,et al.  Spread of Excitation from the Sinus Node , 1965, Circulation research.

[34]  A. Seaber,et al.  Cardiac rhythm following exclusion of the sinoatrial node and most of the right atrium from the remainder of the heart. , 1979, The Journal of thoracic and cardiovascular surgery.

[35]  D. Durrer,et al.  Total Excitation of the Isolated Human Heart , 1970, Circulation.

[36]  P. Denes,et al.  Successful surgical excision of focal paroxysmal atrial tachycardia. Observations in vivo and in vitro. , 1980, Circulation.

[37]  E. Andrus,et al.  Action of the Sympathetic Upon the Excitatory Process in the Dog's Heart. , 1927 .

[38]  Robert H. Anderson,et al.  The Development of the Sinoatrial Node , 1978 .

[39]  T. Sano,et al.  The sino-atrial connection and wandering pacemaker. , 1968, Journal of electrocardiology.

[40]  J Jalife,et al.  Dynamic Interactions and Mutual Synchronization of Sinoatrial Node Pacemaker Cells A Mathematical Model , 1986, Circulation research.

[41]  S. Winters,et al.  The origins of the sinus node pacemaker complex in man: demonstration of dominant and subsidiary foci. , 1987, Journal of the American College of Cardiology.