Higher-Order Dynamics Beyond Repolarization Alternans in Ex-Vivo Human Ventricles are Independent of the Restitution Properties.
Shahriar IravanianIlija UzelacAnand D ShahMikael J ToyeMichael S LloydMichael A BurkeMani A DaneshmandTamer S AttiaJ David VegaMikhael F El-ChamiFaisal M MerchantElizabeth M CherryNeal K BhatiaFlavio H FentonPublished in: medRxiv : the preprint server for health sciences (2023)
We present evidence of higher-order periodicities and the co-existence of such regions with stable non-chaotic areas in ex-vivo human hearts. We infer from the independence of the period to the underlying restitution properties that the oscillation of the excitation-contraction coupling and calcium cycling mechanisms is the primary mechanism of higher-order dynamics. These higher-order regions may act as niduses of instability that can degenerate into chaotic fibrillation and may provide targets for substrate-based ablation of VF.