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  • Title: [A-V conduction in atrial fibrillation and flutter].
    Author: Oreto G, Donato A, Satullo G, Luzza F, Calabrò MP, Saporito F, Scimone IM.
    Journal: Cardiologia; 1991 Aug; 36(8 Suppl):25-35. PubMed ID: 1817767.
    Abstract:
    The assessment of A-V conduction in the presence of atrial fibrillation is based upon analysis of the R-R intervals. This is because in atrial fibrillation it is impossible both to identify the impulse that has been conducted to the ventricles, and to measure the A-V conduction time. The first step is, therefore, to evaluate whether the QRS complexes are the expression of conducted atrial impulses, or they are A-V junctional or ventricular in origin. In other words, it is necessary to distinguish between A-V conduction and A-V dissociation. Conduction in atrial fibrillation commonly results in irregular R-R cycles, whereas in the presence of dissociation the R-R cycles are mainly regular. This differentiation can be difficult in the presence of: aberrant conduction; A-V conduction disturbances; or A-V junctional tachycardia with anterograde 2nd degree exit block. The problem occurs both with tachycardia-dependent (or phase 3), and with bradycardia-dependent (or phase 4) aberrant conduction. Distinction between aberration and ectopy is helped by: the sequence long cycle-short cycle; the pause that follows the wide QRS complex; the configuration of the wide QRS complex. Since aberrant conduction may be sustained, due to the linking phenomenon, the pattern may mimick ventricular tachycardia. In atrial flutter the atrial electrical activity is far less chaotic than in atrial fibrillation, so that assessment of A-V conduction is less difficult. Nevertheless, it is impossible to determine exactly which out of the atrial impulses has been conducted, due to the extremely fast atrial rate: the conducted impulse, indeed, is not always the one that immediately precedes the QRS complex. Furthermore, it is also difficult to measure the A-V conduction time, because the F waves follow to each other without any interruption, so that it is impossible to define exactly the beginning of atrial activation. In atrial flutter, thus, as well as in atrial fibrillation, A-V conduction may be assessed by analysis of the R-R intervals, apart from measurement of F-R intervals. In the absence of drugs, atrial flutter is usually associated with 2:1 (or, less frequently, 4:1) conduction ratio, being the odd ratios (3:1, 5:1) far more rare. Due to concealed penetration of non-conducted impulses, A-V conduction intervals are often variable, so that the R-R cycles are irregular even in the presence of a constant A-V conduction ratio. The most common mechanisms leading to irregularity are the alternation of A-V conduction times, and the alternating Wenckebach phenomenon.(ABSTRACT TRUNCATED AT 400 WORDS)
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