医学
心脏病学
心房颤动
内科学
心脏周期
心电图
纤颤
导管消融
心律失常
心力衰竭
心脏电生理学
电诊断
心脏传导系统
作者
Natasja M.S. de Groot,Lianne N. van Staveren,Eva A.H. Lanters,Vehpi Yildirim,Richard Hendriks,Rudolf A. De Boer,Hemanth Rammanah,Mathijs S. van Schie
标识
DOI:10.1016/j.hrthm.2026.04.059
摘要
BACKGROUND: Measures derived from atrial fibrillation cycle length (AFCL) are used to identify regions crucial for AF maintenance or predict (ablation) treatment outcomes. However, mechanisms underlying beat-to-beat irregularities in AFCL is unknown. OBJECTIVES: We aimed to 1) investigate beat-to-beat changes in AFCL (Δ-AFCL) by relating temporal variation in AFCL with quantified beat-to-beat changes in activation patterns and conduction times (Δ-CT) 2) test whether the Irregularity Factor (IF) (SD of the Δ-AFCL histogram), is indicative of activation patterns complexity. METHODS: ) of fibrillation waves from electrode array border towards mapping area center. RESULTS: The IF was larger during LSPAF (52±17 vs 25±10;P<0.001) compared to acute AF. Δ-CTs were also larger (25±8ms vs 19±7ms;P=0.005) and caused by changes in conduction velocity (Δ-CVs:36±6cm/s versus 29±6cm/s;P=0.001) and -direction (Δ-direction:94±13° versus 64±22°;P<0.001);Δ-pathlenghts (Δ-PL:13±4mm versus 14±3mm;P=0.333) were comparable. IF correlated with conduction block (ρ=0.887), lines of conduction block lengths (ρ=0.900), number of fibrillation waves (ρ=0.889) and focal waves (ρ=0.609), (all P<0.001). CONCLUSION: The IF indicates the underlying complexity of activation patterns, is higher during LSPAF compared to acute AF and is comparable throughout the atria during LSPAF. It is an easy-to-calculate, objective electrical biomarker which independently from the AF mechanisms can be used for e.g. guiding patient tailored treatment.
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