Both beat-to-beat changes in RR-interval and left ventricular filling time determine ventricular function during atrial fibrillation

Abstract Aims The irregular atrial electrical activity during atrial fibrillation (AF) is associated with a variable left ventricular (LV) systolic function. The mechanisms determining LV function during AF remain incompletely understood. We aimed at elucidating how changes in RR-interval and LV preload affect LV function during AF. Methods and results Beat-to-beat speckle-tracking echocardiography was performed in 10 persistent AF patients. We evaluated the relation between longitudinal LV peak strain and preceding RR-interval during AF. We used the CircAdapt computational model to evaluate beat-to-beat preload and peak strain during AF for each patient by imposing the patient-specific RR-interval sequences and a non-contractile atrial myocardium. Generic simulations with artificial RR-interval sequences quantified the haemodynamic changes induced by sudden irregular beats. Clinical data and simulations both showed a larger sensitivity of peak strain to changes in preceding RR-interval at slow heart rate (HR) (cycle length, CL <750 ms) than at faster HR. Simulations explained this by a difference in preload of the current beat. Generic simulations confirmed a larger sensitivity of peak strain to preceding RR-interval at fast HR (CL = 600 ms: Δ peak strain = 3.7% vs. 900 ms: Δ peak strain = 0.3%) as in the patients. They suggested that longer LV activation with respect to preceding RR-interval is determinant for this sensitivity. Conclusions During AF, longitudinal LV peak strain is highly variable, particularly at fast HR. Beat-to-beat changes in preload explain the differences in LV systolic function. Simulations revealed that a reduced diastolic LV filling time can explain the increased variability at fast HR.

[1]  Theo Arts,et al.  Fast Simulation of Mechanical Heterogeneity in the Electrically Asynchronous Heart Using the MultiPatch Module , 2015, PLoS Comput. Biol..

[2]  Theo Arts,et al.  Three-Wall Segment (TriSeg) Model Describing Mechanics and Hemodynamics of Ventricular Interaction , 2009, Annals of Biomedical Engineering.

[3]  Theo Arts,et al.  Adaptation to mechanical load determines shape and properties of heart and circulation: the CircAdapt model. , 2005, American journal of physiology. Heart and circulatory physiology.

[4]  James D. Thomas,et al.  Frank-Starling mechanism contributes modestly to ventricular performance during atrial fibrillation. , 2004, Heart rhythm.

[5]  Ulrich Schotten,et al.  Electrical and Contractile Remodeling During the First Days of Atrial Fibrillation Go Hand in Hand , 2003, Circulation.

[6]  M. Allessie,et al.  Electrical, contractile and structural remodeling during atrial fibrillation. , 2002, Cardiovascular research.

[7]  U Schotten,et al.  Cellular Mechanisms of Depressed Atrial Contractility in Patients With Chronic Atrial Fibrillation , 2001, Circulation.

[8]  G. Kay,et al.  Hemodynamic effects of an irregular sequence of ventricular cycle lengths during atrial fibrillation. , 1997, Journal of the American College of Cardiology.

[9]  H. Crijns,et al.  Left ventricular beat-to-beat performance in atrial fibrillation: contribution of Frank-Starling mechanism after short rather than long RR intervals. , 1995, Journal of the American College of Cardiology.

[10]  I. Belenkie,et al.  Beat‐to‐beat variability of echocardiographic measurements of left ventricular end diastolic diameter and performance , 1979, Journal of clinical ultrasound : JCU.

[11]  E. Braunwald,et al.  STUDIES ON STARLING'S LAW OF THE HEART. III. OBSERVATIONS IN PATIENTS WITH MITRAL STENOSIS AND ATRIAL FIBRILLATION ON THE RELATIONSHIPS BETWEEN LEFT VENTRICULAR END-DIASTOLIC SEGMENT LENGTH, FILLING PRESSURE, AND THE CHARACTERISTICS OF VENTRICULAR CONTRACTION. , 1960, The Journal of clinical investigation.

[12]  D. Wyse,et al.  Heart rate and adverse outcomes in patients with atrial fibrillation: A combined AFFIRM and AF-CHF substudy. , 2016, Heart rhythm.

[13]  W. H. Herbert Cardiac output and the varying R-R interval of atrial fibrillation. , 1973, Journal of electrocardiology.