Background—
Adenosine can unmask dormant pulmonary vein (PV) conduction after PV isolation. Adenosine can also induce ectopy in electrically silent PVs after isolation, possibly via activation of autonomic triggers. We sought to identify the implications of adenosine-induced PV ectopy for atrial fibrillation (AF) recurrence after PV isolation.
Methods and Results—
A total of 152 patients (age, 60±11 years; 63% paroxysmal AF) undergoing PV isolation for AF were studied. After each PV was isolated, adenosine was administered and the presence of adenosine-induced PV reconnection and PV ectopy were recorded. Dormant conduction was targeted with additional ablation. Adenosine-induced PV ectopy was seen in 45 (30%) patients, and dormant conduction was seen in 44 (29%) patients. After a median follow-up of 374 days, 48 (32%) patients had recurrent AF after a single ablation procedure. Rates of freedom from AF among patients with adenosine-induced PV ectopy were significantly lower than patients without adenosine-induced PV ectopy (63% versus 76% at 1 year; log rank, 0.014). Rates of freedom from AF among patients with dormant conduction were also lower than patients without dormant conduction (64% versus 76% at 1 year; log rank, 0.062). With multivariate analysis, adenosine-induced PV ectopy was found to be the only independent predictor of AF after PV isolation (hazard ratio, 1.90; 95% confidence interval, 1.06–3.40;
P
=0.032).
Conclusions—
Adenosine-induced PV ectopy is a predictor of recurrent AF after PV isolation and may be a marker of increased susceptibility to autonomic triggers of AF.
When additional ablation is performed to eliminate ADO-induced PV reconnection after PV isolation, dormant conduction is not a significant predictor of recurrent AF. Although PVs with dormant conduction at initial procedure may develop chronic reconnection, the majority of PVs that show conduction recovery at repeat ablation occur in nondormant PVs.
Long-term using continuous flow ventricular assist devices could trigger complications associated with diminished pulsatility, such as valve insufficiency and gastrointestinal bleeding. One feasible solution is to produce pulsatile flow assist with speed regulation in continuous flow ventricular assist devices. A third-generation blood pump with pulsatile operation control algorithm was first characterized alone under pulsatile mode at various speeds, amplitudes, and waveforms. The pump was then incorporated in a Mock circulation system to evaluate in vitro hemodynamic effects when using continuous and different pulsatile operations. Pulsatility was evaluated by surplus hemodynamic energy. Results showed that pulsatile operations provided sufficient hemodynamic assistance and increased pulsatility of the circulatory system (53% increment), the mean aortic pressure (65% increment), and cardiac output (27% increment). The pulsatility of the system under pulsatile operation support was increased 147% compared with continuous operation support. The hemodynamic performance of pulsatile operations is susceptible to phase shifts, which could be a tacking angle for physiological control optimization. This study found third-generation blood pumps using different pulsatile operations for ventricular assistance promising.
A sofic approximation to a countable group is a sequence of partial actions on finite sets that asymptotically approximates the action of the group on itself by left-translations. A group is sofic if it admits a sofic approximation. Sofic entropy theory is a generalization of classical entropy theory in dynamics to actions by sofic groups. However, the sofic entropy of an action may depend on a choice of sofic approximation. All previously known examples showing this dependence rely on degenerate behavior. This paper exhibits an explicit example of a mixing subshift of finite type with two different positive sofic entropies. The example is inspired by statistical physics literature on 2-colorings of random hyper-graphs.
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