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Accelerated junctional escape rhythm with retrograde P waves through alternating slow and fast pathways






Journal of Cardiovascular Electrophysiology 12(7): 848-848

Accelerated junctional escape rhythm with retrograde P waves through alternating slow and fast pathways



Accession: 045145500

PMID: 11469443

DOI: 10.1046/j.1540-8167.2001.00848.x



Related references

Rosen M.; Fisch C.; Hoffman B.; Knoebel S., 1979: Delayed afterdepolarizations as a mechanism for accelerated junctional escape rhythm. Circulation Supplement 60(2): II-253

Wang, Z.; Otomo, K.; Shah, N.; Beckman, K.J.; Nakagawa, H.; Spector, P.S.; Massudaira, K.; Lazzara, R.; Jackman, W.M., 1999: Slow/slow and fast/slow atrioventricular nodal reentrant tachycardia use anatomically separate retrograde slow pathways. Circulation 100(18 SUPPL ): I 65, Nov 2

Glancy, D.Luke.; Haji, S.A., 2004: ECG of the month. Slow bigeminal rhythm. Low atrial or junctional rhythm, second degree atrioventricular block, right ventricular escape beats, ventricular escape-capture bigeminy, ventriculophasic atrial arrhythmia, and right bundle branch block. Journal of the Louisiana State Medical Society 156(4): 173-174

Wang X.; Mcclelland J.H.; Beckman K.J.; Hazlitt H.A.; Prior M.I.; Twidale N.; Moulton K.P.; Roman C.A.; Jackman W.M., 1991: Accelerated junctional rhythm during slow pathway ablation. Circulation 84(4 SUPPL): II582

Cheng, S-Tsung.; Yeh, K-Hung., 2008: Pseudomalfunction of a dual chamber pacemaker caused by accelerated junctional rhythm and alternating ventricular safety pacing. Europace 10(5): 591-592

Glancy, D.Luke.; Subramaniam, P.N.; Parker, J.M.; Devarapalli, S.K., 2009: Accelerated junctional rhythm, isorhythmic atrioventricular dissociation, and hidden P waves. Proceedings 22(4): 371-372

Taylor, E.; Effron, M.; Veltri, E.P., 1992: False positive signal-averaged ECG produced by junctional rhythm with retrograde P waves. American Heart Journal 123(6): 1701-1703

Wei, L.; Qiao, L-Na.; Lu, Y-Yi.; Hua, Y-Min.; Wang, Y-Bin.; Ye, Q-Hua.; Wang, X.; Li, X-Hui., 2014: Risk factors for accelerated junctional escape rhythm in children early after percutaneous ventricular septal defect closure. To identify the risk factors for accelerated junctional escape rhythm (AJER) in children early after percutaneous ventricular septal defect (VSD) closure. A retrospective controlled study was conducted on 42 children who had AJER within one week a...

Wagshal, A.B.; Crystal, E.; Katz, A., 2000: Patterns of accelerated junctional rhythm during slow pathway catheter ablation for atrioventricular nodal reentrant tachycardia: temperature dependence, prognostic value, and insights into the nature of the slow pathway. Although accelerated junctional rhythm (AJR) is a known marker for successful slow pathway (SP) ablation sites, AJR may just be a regional effect of the anisotropic conduction properties of this area of the heart. We believe that detailed assessme...

Wagshal, A.B.; Crystal, E.; Katz, A., 2000: Patterns of accelerated junctional rhythm during slow pathway catheter ablation for atrioventricular nodal reentrant tachycardia: Temperature dependence, prognostic value, and insights into the nature of the slow pathway. Introduction: Although accelerated junctional rhythm (AJR) is a known marker for successful slow pathway (SP) ablation sites, AJR may just be a regional effect of the anisotropic conduction properties of this area of the heart. We believe that det...