%0 Journal Article
%T ECG based assessment of circadian variation in AV-nodal conduction during AF-Influence of rate control drugs.
%A Karlsson M
%A Wallman M
%A Platonov PG
%A Ulimoen SR
%A Sandberg F
%A Karlsson M
%A Wallman M
%A Platonov PG
%A Ulimoen SR
%A Sandberg F
%J Front Physiol
%V 13
%N 0
%D 2022
%M 36267586
%F 4.755
%R 10.3389/fphys.2022.976526
%X The heart rate during atrial fibrillation (AF) is highly dependent on the conduction properties of the atrioventricular (AV) node. These properties can be affected using β-blockers or calcium channel blockers, mainly chosen empirically. Characterization of individual AV-nodal conduction could assist in personalized treatment selection during AF. Individual AV nodal refractory periods and conduction delays were characterized based on 24-hour ambulatory ECGs from 60 patients with permanent AF. This was done by estimating model parameters from a previously created mathematical network model of the AV node using a problem-specific genetic algorithm. Based on the estimated model parameters, the circadian variation and its drug-dependent difference between treatment with two β-blockers and two calcium channel blockers were quantified on a population level by means of cosinor analysis using a linear mixed-effect approach. The mixed-effects analysis indicated increased refractoriness relative to baseline for all drugs. An additional decrease in circadian variation for parameters representing conduction delay was observed for the β-blockers. This indicates that the two drug types have quantifiable differences in their effects on AV-nodal conduction properties. These differences could be important in treatment outcome, and thus quantifying them could assist in treatment selection.